CN117024009A - Vacuum glass preparation equipment and method - Google Patents

Abstract

The invention relates to the technical field of vacuum glass, in particular to vacuum glass manufacturing equipment, which comprises a workbench, wherein the upper end surface of the workbench is downwards recessed to form a groove, the inside of the groove is in sliding connection with a placing table, an inverted U-shaped frame is arranged at the upper end of the workbench, the rear side of the upper end of the inverted U-shaped frame is provided with a fixing part of first lifting equipment, the movable part of the first lifting equipment penetrates through the inverted U-shaped frame and is connected with a rectangular block, the upper end surface of the rectangular block is downwards recessed to form a plurality of material holes, the front end surface of the lower side of the rectangular block is downwards recessed to form a through groove, the inside of the through groove is in sliding connection with a baffle, the upper end surface of the baffle is downwards recessed to form a plurality of through holes, the rear end of the rectangular block is provided with a fixing part of telescopic equipment, the movable part of the telescopic equipment extends into the through groove and is connected with the baffle, the aim of uniformly paving a plurality of rubber columns in independent states is fulfilled, deformation probability of single glass in dislocation and the like in production of the vacuum glass is effectively reduced, the quality of the vacuum glass is improved, and the material cost of the vacuum glass can be effectively reduced.

Description

Vacuum glass production equipment and method

Technical field

The invention is a vacuum glass production equipment and method, belonging to the technical field of vacuum glass production.

Background technique

Vacuum glass is a new type of glass deep-processing product, which is developed based on the principle of a thermos. Vacuum glass seals two pieces of flat glass around each other, and the gap is usually evacuated using a degassing device, so that the interior of the vacuum glass appears. The vacuum state makes the vacuum glass have the effect of heat and sound insulation. Its working principle is the same as the heat insulation principle of the glass thermos bottle. During the production process of vacuum glass, in order to ensure that a gap is created and maintained between two pieces of flat glass. For stability, multiple support pillars are generally placed evenly between two pieces of flat glass. Currently, multiple support pillars are generally evenly installed on the transparent sheet, and in order to facilitate production, the transparent sheet and multiple support pillars are generally integrated into the structure. When in use, a piece of flat glass is first placed, and then the transparent sheet is attached to the middle of the end face to be sealed of the placed flat glass, so that a plurality of support pillars installed on the transparent sheet are evenly arranged on the placed flat sheet on the glass, and then apply glue on the surrounding edges of the placed flat glass and located outside the transparent sheet, and then superimpose another piece of flat glass on top of the placed flat glass, and connect the other piece of flat glass with multiple supporting columns Make contact, and then apply pressure to the two stacked flat glasses, so that the surrounding positions of the two flat glasses are edge-pressed and sealed.

During the process of placing the transparent sheet or applying pressure, it is easy to cause the transparent sheet to wrinkle and other phenomena, resulting in a higher probability of the support pillars in the folds being raised, and the raised support pillars are higher than other support pillars, and in the other sheet When the flat glass is placed, the other piece of flat glass will be tilted under the support of the raised support column. The tilted flat glass has a high probability of deformation such as sliding and dislocation, which will affect the quality of the vacuum glass produced. , and the design of the transparent sheet will increase the material cost of the vacuum glass, and when the transparent sheet has wrinkles and other phenomena, it will cause a shadow on the transparent sheet, thereby affecting the transparency of the vacuum glass.

Contents of the invention

In order to solve the problems in the prior art, the present invention provides a vacuum glass production equipment and method.

The technical solution adopted by the present invention to solve the technical problem is: a vacuum glass making equipment, including a workbench, the upper end of the workbench is recessed downward to form a transversely arranged groove, and the inside of the groove is slidably connected to a placing table and The top surface of the placement table coincides with the top surface of the workbench. The first driving member for driving the movement of the placement table is installed on the groove. An inverted U-shaped frame is installed on the top of the workbench and the inverted U-shaped frame is located on the right side of the placement table. On the other side, a rectangular block is provided on the lower side of the transverse part of the inverted U-shaped frame and the rectangular block is located directly above the groove. A fixed part of the first lifting equipment is provided on the rear side of the upper end of the inverted U-shaped frame. The movable part of the first lifting equipment The upper end of the rectangular block is recessed downward to form a plurality of material holes, and the material holes penetrate the rectangular block. The front end of the lower side of the rectangular block is recessed backward to form a through groove, and the through groove runs through it. Rectangular block, the through groove penetrates a plurality of material holes, the inside of the through groove is slidingly connected to a baffle, the upper end of the baffle is recessed downward to form a plurality of through holes, and the through holes penetrate the baffle, and the center line of the through hole It coincides with the center line of the material hole and the through hole overlaps and communicates with the material hole. The fixed part of the telescopic device is provided at the rear end of the rectangular block. The movable part of the telescopic device extends into the through slot and is connected with the baffle. A gluing piece is set on the right side of the upper end of the table and is located on the right side of the inverted U-shaped frame. A fixed part of the second driving part is set on the rear end of the worktable, and a pressing part is set on the movable part of the second driving part. The closing piece is located directly above the glued piece.

Further, the pressing member includes a mounting plate, a pressure plate is provided on the lower side of the mounting plate, a fixed part of the second lifting device is provided on the upper front side of the mounting plate, and the movable part of the second lifting device penetrates the mounting plate and It is connected to the pressure plate. The lower end of the pressure plate is equipped with a frame-type rubber pad and the frame-type rubber pad is located directly above the gluing part. An evacuator is installed on the upper end of the pressure plate and the evacuator is located on the left side of the installation plate. The inlet of the evacuator is connected with a suction pipe. , the straw penetrates the pressure plate and the straw is located inside the frame rubber pad;

The upper side of the pressure plate is provided with a fixed part of the third lifting device and the third lifting device is located on the right side of the installation plate. A circular shell is provided on the lower side of the pressure plate and the circular shell is located inside the frame-type rubber pad. The third lifting device is located on the right side of the mounting plate. The movable part penetrates the pressure plate and is connected to the circular shell. A second electromagnet is provided at the top of the circular shell. The lower end of the second electromagnet fits the iron plate and the iron plate extends out of the lower side of the circular shell. The iron plate A blocking head is provided at the middle position of the lower end.

Further, the second driving member includes a fixed plate provided at the rear end of the workbench. The upper end of the fixed plate is rotatably connected to a vertically arranged round rod. The round rod is fixed on the rear side of the lower end of the mounting plate. The fixed plate The lower end is provided with a fixed part of the first driving device, and the movable part of the first driving device passes through the fixed plate and is connected to the round rod.

Further, the gluing part includes a frame-type box, which is located between the frame-type rubber pad and the workbench. The lower end of the frame-type box is symmetrically provided with two horizontally arranged lifting bars. The lifting bars are fixed on the top of the workbench and the two lifting bars are located on the front and rear sides of the groove. The upper end of the frame box is recessed to form an installation groove, and the installation groove is connected to the inner cavity of the frame box. A guide rod arranged along the length of the installation groove is provided inside the installation groove. The outer end of the guide rod is slidingly connected to the moving block and the moving block penetrates the installation groove. A second elastic member is installed between one end of the moving block and the inner wall of the installation groove. And the second elastic member is located outside the guide rod, and a second slope is provided at the upper corner of the other end of the moving block. Laterally arranged functional blocks are installed on the upper sides of the front, rear, left, and right ends of the pressure plate. One side of the lower end of the functional block The corner position is machined with a first bevel used in conjunction with a second bevel.

Further, the four inner walls of the frame box are all recessed outward to form a through opening. The through opening has a frame structure and is connected to the inner cavity of the frame box. The inner bottom end of the inner cavity of the frame box is Four glue delivery boxes arranged in a rectangular shape are slidingly connected to each other and are slidably connected to the lower ends of the four moving blocks. The glue delivery boxes are equidistantly connected toward the inner end and are provided with a plurality of transversely arranged glue spray pipes, and the glue spray pipes extend into the opening, one end of the transport box is connected to a rubber hose, and the rubber hose extends out of the frame box. A second magnetic plate is set toward the middle of the outer end of the rubber box, and the second magnetic plate faces outward. A third electromagnet is installed and the third electromagnet and the second magnetic plate are arranged to repel each other. The four third electromagnets are respectively installed on the four vertical walls of the inner cavity of the frame box, and the glue delivery box faces the outer end. Two obliquely arranged elastic pieces are symmetrically arranged, and the elastic pieces are located outside the third electromagnet and the second magnetic plate. The other end of the elastic piece is fixed on the vertical wall of the inner cavity of the frame box.

Further, a fixed part of the first telescopic rod is provided on the front side of the upper end of the inverted U-shaped frame and the first telescopic rod is located on the front side of the first lifting equipment. The movable part of the first telescopic rod passes through the inverted U-shaped frame and is connected with the first telescopic rod. Rectangular blocks connected.

Further, L-shaped limiting plates are provided at the four corners of the upper end of the placing table. The middle position of the upper end of the placing table is recessed downward to form a placing groove, and the placing groove is located inward of the L-shaped limiting plate. Inside the placing groove The top plate is slidably connected and the upper end of the top plate overlaps with the upper end of the placement table. A first magnetic plate is provided at the middle position of the lower end of the top plate. A first electromagnet is installed at the bottom end of the placement slot. The first electromagnet is located on the first Directly below the magnetic plate, the first magnetic plate and the first electromagnet are arranged to repel each other;

First elastic members are installed at four corners between the lower end of the top plate and the inner bottom end of the placement slot, and the first elastic members are located outside the first magnetic plate and outside the first electromagnet. The lower end of the top plate and the inner bottom end of the placement slot are Four second telescopic rods arranged in a rectangular shape are equidistantly arranged and located inside the first elastic member.

Further, the first driving member includes a screw rod, the screw rod is rotatably connected to the front side of the groove and the screw rod is arranged along the length direction of the groove. The screw rod penetrates the placement platform and the placement platform and the screw rod pass through The rolling nut is connected to the auxiliary connection. The screw rod is located on the front side of the placement groove. The fixed part of the second driving device is installed on the front side of the left end of the workbench. The movable part of the second driving device passes through the workbench and is connected to the screw rod;

A polished rod is provided inside the placement slot and is located at the rear side of the placement slot. The polished rod penetrates the placement platform and is slidingly connected to the polished rod.

A method of using vacuum glass production equipment, including the following steps:

The first step is preparatory work. Cut the upper glass and lower glass, and then deburr the cut upper glass and lower glass. After deburring, use deionized water to clean them. After the cleaning is completed, drying treatment;

The second step is to drill a cylindrical blind hole through the upper glass to form an evacuation port;

The third step is to lay the material. First, stack multiple rubber columns arranged up and down in the material holes on the rectangular block, and then use four L-shaped limit plates to position and place the lower piece of glass on the top of the placement table, and pass The second driving device drives the screw rod to rotate, thereby moving the placement table to the right to directly below the rectangular block. The first lifting device is then used to move the rectangular block downward to facilitate the upper end of the lower glass to fit. The telescopic device is then used to move the baffle Move along the through slot so that the through hole on the baffle coincides with the material hole, and then the lowermost rubber column in the material hole moves down along the material hole and fits the upper end of the lower piece of glass, and then uses telescopic equipment. The through hole and the material hole are misaligned, thereby blocking the material hole, and then the rectangular block is returned to its original position through the telescopic device, and multiple rubber columns are evenly laid on the upper end of the lower glass;

The fourth step is to load the material, connect the circuit of the second electromagnet, insert the iron plate into the circular shell and fit it with the second electromagnet. The second electromagnet can be used to adsorb the iron plate, and then pass the second electromagnet to The lifting equipment moves the pressure plate and the frame-type rubber pad downwards, and makes the frame-type rubber pad closely fit the upper end of the upper glass. The third lifting equipment is then used to move the circular shell, iron plate and sealing head downwards, thereby making the sealing The plug is inserted into the evacuation port, and then the space formed by the pressure plate, the frame rubber pad and the upper glass is evacuated through the evacuator and the suction pipe, and then the upper glass is adsorbed, and then the round rod is driven by the first driving device And the mounting plate rotates, so that the adsorbed upper glass rotates to directly above the frame box;

The fifth step is to apply glue and drive the screw rod to rotate through the second driving device, so that the placement table and the positioned lower glass are moved directly below the frame box, and the circuit of the third electromagnet is turned on, thereby using the third electromagnet The repulsive force generated between the iron and the second magnetic plate causes the multiple glue spray tubes and the glue delivery box to move inward, and then the outlets of the multiple glue spray tubes pass through the opening and move to the surrounding area above the lower glass, and then the second lifting device is used The pressure plate, the four functional blocks, the frame rubber pad and the adsorbed upper glass are moved downward synchronously, so that the first inclined surface on the functional block contacts and moves relative to the second inclined surface of the moving block, so that the moving block can be moved along the installation groove Move, so that the glue delivery box and multiple glue spray tubes move linearly, and at the same time, the sealant is transported into the glue delivery box through the glue delivery hose, and then divided into multiple glue spray tubes, and then the sealant is sprayed on the upper end of the lower glass through the moving glue spray tubes Perform a small-scale mobile dispensing movement at the edge, then disconnect the circuit of the third electromagnet, and return the glue box and multiple glue spray tubes to their original positions due to the elastic force of the elastic piece;

The sixth step is to press and seal the edges, and then use the second lifting device to continue to move the pressure plate, four functional blocks, frame rubber pads and the adsorbed upper glass downwards, so that the adsorbed upper glass moves from the middle space of the frame box Carry out penetration and make the upper glass and the multiple rubber columns on the lower glass come into contact and fit, and then use the second lifting device to perform a downward movement, so that the upper glass and the lower glass can be pressed and sealed. sports;

The seventh step is to evacuate. Use the third lifting device to move the circular shell, iron plate and sealing head, and then separate the sealing head from the vacuum port. Then use the vacuum cleaner and the suction pipe to move the lower glass and the upper glass. The vacuum glass formed by the glass edge sealing is evacuated. After completion, the third lifting device moves the circular shell, iron plate and sealing head downward, so that the sealing head can re-block the evacuation port, thereby obtaining a vacuum finished glass;

The eighth step is to take the material, drive the screw rod to rotate through the second driving device, and then move the placement table to the right to the right side of the frame box, then connect the circuit of the first electromagnet, and use the first electromagnet to communicate with the first The repulsive force generated between the magnetic plates causes the top plate to move upward, thereby ejecting the finished vacuum glass product, and then the ejected vacuum glass finished product is taken out and stored.

Beneficial effects of the present invention:

(1) The vacuum glass making equipment of the present invention can stack multiple rubber columns up and down in the material hole and be lifted and restricted by the baffle, and use the first electric push rod to fit the rectangular block to the lower piece The upper end of the glass passes through the second electric push rod to move the baffle, so that the through hole coincides with the material hole, and then the rubber column located at the bottom of the material hole penetrates through the through hole and enters the material hole located on the lower side of the baffle. Make multiple rubber columns evenly arranged and fit on the upper end of the lower glass, and then use the second electric push rod to dislocate the through hole and the material hole, and use the baffle to disconnect the material hole, so that multiple rubber columns can be evenly laid on the upper end of the lower glass. The purpose of each independent rubber column is to ensure the transparency of vacuum glass, effectively reduce the probability of deformation such as dislocation of a single piece of glass during production, improve the quality of vacuum glass, and effectively reduce the material cost of vacuum glass.

(2) A vacuum glass making equipment of the present invention uses four L-shaped limiting plates to limit the four edges and corners of the lower piece of glass, thereby positioning the lower piece of glass and placing it on the placement table, and then through the first The motor rotates the screw rod, thereby moving the placement table along the groove, thereby realizing the mechanical conversion of the positioning and placement of the lower piece of glass between multiple stations. It has high automation and work efficiency, and solves the common problems in traditional production operations. Manual switching between different work stations causes problems that affect work efficiency.

(3) In the vacuum glass making equipment of the present invention, when the rubber column is attached to the upper end of the lower glass, the first tapered groove is located at the upper end of the lower glass, and then the second electric push rod moves the baffle so that the second The two conical grooves come into contact with the semi-circular head on the rubber column and apply pressure on the semi-circular head, so that the rubber column is pressed down, which can discharge the air inside the first conical groove, thereby forming a negative pressure inside the first conical groove, and Under the action of negative pressure, the rubber columns are adsorbed to the lower glass, ensuring stable placement between the rubber columns and the lower glass, ensuring the placement effect of the rubber columns, and solving the problem of multiple independent rubber columns placed on the lower glass at the conversion station. Tipping problems may occur from time to time.

(4) The vacuum glass making equipment of the present invention uses the fourth electric push rod to insert the sealing head into the evacuation port on the upper glass, and then seals the evacuation port, and then uses the evacuation device and the suction tube to seal the evacuation port. The space formed by the pressure plate, the frame rubber pad and the upper glass is evacuated to form a negative pressure, and the upper glass is adsorbed under the action of the negative pressure to achieve the purpose of adsorption loading of the upper glass and solve the problem In traditional production, the top glass is clamped and loaded, and the clamped top glass needs to be released during subsequent edge sealing, resulting in falling and collision problems that can easily cause damage.

(5) In the vacuum glass making equipment of the present invention, the blocking head is pulled out from the evacuation port on the upper glass through the fourth electric push rod, and then the pressure plate, the frame rubber pad and the upper glass are formed. The space is connected with the inner cavity of the vacuum glass, and then the vacuum glass is evacuated through the evacuator. After completion, the fourth electric push rod is used to move the sealing head down and insert it into the evacuation port on the upper glass. Blocking the evacuation port under vacuum can reduce the probability of leakage when blocking the evacuation port, realize convenient evacuation operations, and solve the traditional problem of sealing and installing the suction nozzle on the evacuation equipment on the evacuation port during production evacuation. During the evacuation operation, the complexity of the evacuation operation is increased and leakage problems are likely to occur.

(6) In the vacuum glass production equipment of the present invention, the repulsive force generated between the third electromagnet and the second magnetic plate causes the second magnetic plate and the glue delivery box to move inward, thereby causing the outlet of the glue spray tube to Move to the position directly above the upper edge of the lower glass, and then use multiple spray tubes to drip the sealant around the upper edge of the lower glass. At the same time, through the third electric push rod, the pressure plate, four functional blocks, and frame The rubber pad and the adsorbed upper glass move downward, so that the first inclined surface on the functional block contacts the second inclined surface of the moving block and moves relative to each other, so that the moving block moves along the installation groove, and the glue delivery box With the movement of the moving block, multiple glue spray tubes move along the opening, so that the sealant discharged through the glue spray tubes drips in a small range at the upper edge of the lower glass, achieving the upper edge of the lower glass. Adjacent drops of sealant on the edge are connected to each other, effectively reducing the probability of cracks in the sealing part during subsequent edge sealing, ensuring the vacuum degree of the vacuum glass after evacuation, and solving the problem of traditional dispensing operations that are generally used in production. Create multiple accumulated sealant points on the upper edge of the lower glass, and then use edge pressing operations to flow and solidify the accumulated sealant points for sealing. It is easy to cause pressure gaps between adjacent accumulated sealant points. The phenomenon that the edges cannot be closed leads to a high probability of cracks in the sealing part of the vacuum glass, resulting in the problem of leakage of the vacuum glass after evacuation.

(7) When using the vacuum glass production equipment of the present invention, the first motor and the screw rod move the placement table to the right along the groove, so that the vacuum glass after the evacuation process moves from the bottom of the frame box Completely remove it, and then generate a repulsive force between the first electromagnet and the first magnetic plate to move the first magnetic plate and the top plate upward, so that the vacuum glass is ejected through the upwardly moved top plate, and the vacuum glass is placed with the Separating between the stages allows for convenient extraction of vacuum glass, which is easy to use and solves the problem of difficulty in obtaining materials due to the adsorption between the vacuum glass and the work surface during the lamination process in traditional preparation.

Description of the drawings

Other features, objects and advantages of the present invention will become more apparent by reading the detailed description of the non-limiting embodiments with reference to the following drawings:

Figure 1 is a schematic structural diagram of a vacuum glass production equipment of the present invention;

Figure 2 is a front view of a vacuum glass production equipment of the present invention;

Figure 3 is a perspective view of a rectangular block in a vacuum glass making equipment of the present invention;

Figure 4 is a cross-sectional view of a rectangular block in a vacuum glass making equipment of the present invention;

Figure 5 is a perspective view of a baffle in a vacuum glass making equipment of the present invention;

Figure 6 is a cross-sectional view along the A-A direction in Figure 2;

Figure 7 is an enlarged view of part B in Figure 6;

Figure 8 is a cross-sectional view of a placing platform in a vacuum glass making equipment of the present invention;

Figure 9 is a perspective view of a pressure plate in a vacuum glass making equipment of the present invention;

Figure 10 is an assembly diagram of the pressure plate and frame-type rubber pad in a vacuum glass production equipment of the present invention;

Figure 11 is an assembly diagram of a circular shell, a sealing head, an iron plate and a second electromagnet in a vacuum glass making equipment of the present invention;

Figure 12 is a perspective view of a frame box in a vacuum glass production equipment of the present invention;

Figure 13 is a cross-sectional view of a frame box in a vacuum glass production equipment of the present invention;

Figure 14 is a cross-sectional view of a rubber column in a vacuum glass production equipment of the present invention.

In the picture: 1. Workbench, 2. Placement table, 3. Inverted U-shaped frame, 4. First electric push rod, 5. Rectangular block, 6. Installation plate, 7. Pressure plate, 8. Frame box, 9. Rubber column, 11. First motor, 12. Groove, 13. Screw, 21. L-shaped limit plate, 22. Top plate, 23. First magnetic plate, 24. First elastic member, 25. First electromagnetic Iron, 31. First telescopic rod, 51. Material hole, 52. Through slot, 53. Second electric push rod, 54. Baffle, 55. Through hole, 61. Round rod, 62. Fixed plate, 63. Second motor, 71. Third electric push rod, 72. Function block, 73. Fourth electric push rod, 74. Evacuator, 75. Frame rubber pad, 81. Moving block, 82. Lift bar, 83. Pass Mouth, 84. Guide rod, 85. Second elastic member, 86. Installation slot, 87. Spray hose, 88. Glue delivery box, 91. First tapered groove, 92. Semi-circular head, 551. Second tapered groove , 721. First inclined plane, 731. Circular shell, 732. Sealing head, 733. Iron plate, 734. Second electromagnet, 741. Suction straw, 811. Second inclined plane, 881. Second magnetic plate, 882. The third electromagnet, 883, elastic piece.

Detailed ways

In order to make the technical means, creative features, objectives and effects achieved by the present invention easy to understand, the present invention will be further elaborated below in conjunction with specific implementation modes.

Referring to Figure 1, Figure 2 and Figure 8, the present invention provides a technical solution: a vacuum glass making equipment, including a workbench 1. The upper end of the workbench 1 is recessed downward to form a transversely arranged groove 12. The placement platform 2 whose end surface coincides with the upper end surface of the workbench 1 is slidingly connected to the inside of the groove 12, and four L-shaped limit plates 21 are respectively set to the four corners of the upper end of the placement platform 2. When in use, first Place the lower piece of glass on the upper end of the placing table 2, and use four L-shaped limiting plates 21 to limit the four corners of the lower piece of glass, so that the lower piece of glass is positioned and placed on the placing table 2, and then start the installation of the fixing part. The second driving device on the front side of the left end of the workbench 1 is connected to the movable part of the second drive device passing through the workbench 1 and is rotationally connected to the front side inside the groove 12 and arranged along the length direction of the groove 12 The screw rod 13 rotates, and the screw rod 13 that penetrates the placement table 2 and is located on the front side of the placement groove is connected to the placement table 2 through a rolling nut pair. Therefore, the rotation of the screw rod 13 will cause the placement table 2 to move along the groove 12 to achieve positioning and placement. The lower piece of glass is mechanically switched between multiple workstations, with high automation and work efficiency. It solves the problem of manual switching at different workstations in traditional production operations that affects work efficiency. It will be set inside the placement slot. And the polished rod located at the rear side of the placement slot and penetrating the placement platform 2 is slidingly connected to the placement platform 2. The polished rod guides the movement of the placement platform 2, and the second driving device can use the first motor 11.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, Figure 5 and Figure 14, install the inverted U-shaped frame 3 located on the right side of the placement table 2 to the upper end of the workbench 1. The upper end of the rectangular block 5 on the lower side of the lateral portion and directly above the groove 12 is recessed downward to form a plurality of material holes 51 that penetrate the rectangular block 5. Through the material holes 51, storage space is provided for the rubber column 9. At the front end of the lower side of the rectangular block 5 A through-groove 52 that penetrates the rectangular block 5 and a plurality of material holes 51 is recessed toward the rear. A plurality of penetrating baffles 54 is recessed downwardly on the upper end of the baffle 54 that is slidably connected inside the through-groove 52 and the center line is in line with the material holes 51 The center line coincides with the through hole 55 that overlaps and communicates with the material hole 51. When in use, multiple rubber columns 9 are stacked up and down in the multiple material holes 51 and are lifted and restricted by the baffle 54. The lower glass moves to When the rectangular block 5 is directly under the rectangular block 5 , start the first lifting device with a fixed part on the rear side of the upper end of the inverted U-shaped frame 3 , thereby driving the rectangular block 5 connected to the movable part of the first lifting device passing through the inverted U-shaped frame 3 . Move the rectangular block 5 to fit the upper end of the lower glass, and then start the telescopic device with a fixed part at the rear end of the rectangular block 5, thereby driving the baffle 54 connected to the movable part of the telescopic device extending into the through slot 52 to move, and then Make the through hole 55 coincide with the material hole 51, and then make the rubber column 9 located at the bottom of the material hole 51 penetrate the through hole 55 and enter the material hole 51 located on the lower side of the baffle 54, so that the plurality of rubber columns 9 are evenly arranged. Fit it to the upper end of the lower glass, and then use the telescopic device to return the baffle 54 to its original position, dislocate the through hole 55 and the material hole 51, and use the baffle 54 to disconnect the material hole 51. At this time, the penultimate rubber The column 9 is restricted by the baffle 54, and then the rectangular block 5 is returned to its original position through the first lifting device, achieving the purpose of evenly laying multiple independent rubber columns 9 on the upper end of the lower glass, ensuring the transparency of the vacuum glass, and It effectively reduces the probability of single-piece glass deformation such as dislocation during production, improves the quality of vacuum glass, and can effectively reduce the material cost of vacuum glass. The fixed part is installed on the front side of the upper end of the inverted U-shaped frame 3 and is located on the front side of the first lifting equipment. The movable part of the first telescopic rod 31 passes through the inverted U-shaped frame 3 and is connected with the rectangular block 5. Through the first telescopic rod 31, the movement of the rectangular block 5 is guided, and the first lifting equipment can use the first electric push rod 4 , the telescopic equipment can use the second electric push rod 53.

As shown in Figures 4, 5 and 14, a semicircular head 92 integrally formed with the rubber column 9 is installed on the upper end of the rubber column 9, and the lower end of the rubber column 9 is recessed upward to form a first cone arranged narrow at the top and wide at the bottom. The lower end surface of the baffle 54 is recessed upward to form a plurality of second tapered grooves 551 connected with the first tapered groove 91 and arranged narrow at the top and wide at the bottom. The first tapered groove 91 is facing downward. The rubber columns 9 are placed one by one into the material holes 51. When the rubber columns 9 are attached to the upper end of the lower glass, the first tapered groove 91 is located at the upper end of the lower glass, and then the baffle 54 is moved through the second electric push rod 53. As a result, the through hole 55 and the second tapered groove 551 move, and then the second tapered groove 551 contacts the semi-circular head 92 on the rubber column 9 and exerts pressure on the semi-circular head 92, so that the rubber column 9 is pressed down, and the rubber column 9 can be pressed down. The air inside the first tapered groove 91 is discharged, so that a negative pressure is formed inside the first tapered groove 91, and the rubber column 9 is adsorbed to the lower piece of glass under the action of the negative pressure, ensuring that the gap between the rubber column 9 and the lower piece of glass is ensured. The stable placement ensures the placement effect of the rubber pillars 9 and solves the problem that multiple independent rubber pillars 9 placed on the lower glass are prone to tipping when changing work stations.

As shown in Figure 1, Figure 2, Figure 6, Figure 9, Figure 10 and Figure 11, the fixed plate 62 is set on the rear end of the workbench 1, and the vertically arranged round rod 61 is rotationally connected to the upper end of the fixed plate 62 , then install the mounting plate 6 to the upper end of the round rod 61, use the fixed plate 62 and the round rod 61 to lift the mounting plate 6, and the startable fixing part is set at the lower end of the fixed plate 62 to set the first driving device, so as to drive and wear The round rod 61 connected through the movable part of the first driving device of the fixed plate 62 rotates, thereby causing the mounting plate 6 to rotate, so that the components on the mounting plate 6 are positioned at the working station above the workbench 1 and at the rear side of the workbench 1 Switch between loading stations to realize the loading movement of the glass.

When the mounting plate 6 is rotated to the loading station on the rear side of the workbench 1, the circuit of the second electromagnet 734 installed at the top of the circular shell 731 is first connected, so that the second electromagnet 734 generates a magnetic field, and then Insert the iron plate 733 of the blocking head 732 in the middle into the circular shell 731, so that the iron plate 733 extending from the lower side of the circular shell 731 is attached to the lower end of the second electromagnet 734. At this time, the second electromagnet The iron 734 adsorbs the iron plate 733, and then starts the second lifting device whose fixed part is arranged on the front side of the upper end of the installation plate 6, thereby driving and connecting with the movable part of the second lifting device that penetrates the installation plate 6 and is located on the lower side of the installation plate 6 The pressure plate 7 moves downward, and then the frame-type rubber pad 75 provided at the lower end of the pressure plate 7 moves down, so that the frame-type rubber pad 75 closely fits the upper end surface of the uppermost glass of the loading station, and then starts The fixed part is provided at the upper end of the pressure plate 7 and is located on the third lifting device on the right side of the mounting plate 6, thereby driving the movable part of the third lifting device that penetrates the pressure plate 7 and is located on the lower side of the pressure plate 7 and inside the frame rubber pad 75. The circular shell 731 moves downward, and then the second electromagnet 734, the iron plate 733 and the sealing head 732 move downward, so that the sealing head 732 is inserted into the evacuation port on the upper glass, thereby sealing the evacuation port, and then Start the evacuator 74 installed on the upper end of the pressure plate 7 and located on the left side of the installation plate 6, and the suction pipe 741 connected to the inlet of the evacuator 74 and located inside the frame rubber pad 75 penetrates the pressure plate 7, so that the evacuator 74 is used to pump the pressure plate 7. The space formed by the frame rubber pad 75 and the upper glass is evacuated to form a negative pressure, and the upper glass is adsorbed under the negative pressure, and then the second lifting device is used to make the pressure plate 7 and the frame rubber The pad 75 and the adsorbed upper glass move upward, and then the first driving device rotates the adsorbed upper glass to just above the frame box 8, and the second lifting device is used to move the adsorbed upper glass downward and connect with the lower one. The sheets of glass are superimposed to achieve the purpose of adsorption-type loading of the upper sheet glass, which solves the problem of the traditional production process of clamping and loading the upper sheet glass and the need to release the clamped upper sheet glass during subsequent edge sealing. Falling collisions can easily cause damage.

Then, the stacked upper glass and the lower glass are pressed and sealed to form a vacuum glass, and then the third lifting device is used to pull out the sealing head 732 from the evacuation port on the upper glass, and then the The space formed by the pressure plate 7, the frame rubber pad 75 and the upper glass is connected to the inner cavity of the vacuum glass. The vacuum glass is then evacuated through the evacuator 74. After completion, the sealing head is moved through the third lifting device. 732 is moved down and inserted into the evacuation port on the upper glass, which can block the evacuation port in a vacuum state, thereby reducing the probability of leakage when blocking the evacuation port, and then open the control on the air pipe set at the upper end of the pressure plate 7 valve, thereby causing the negative pressure in the space formed by the pressure plate 7, the frame rubber pad 75 and the upper glass to disappear, thereby releasing the adsorption of the upper glass, realizing convenient evacuation operations, and solving the traditional problem of having to install the evacuation port on the evacuation port. The sealing installation of the suction nozzle on the evacuation equipment increases the complexity of the evacuation operation and easily causes leakage problems during the evacuation operation. The second lifting equipment can use a third electric push rod 71, and the third lifting equipment can use The fourth electric push rod 73.

As shown in Figures 1, 2, 6, 7, 9, 10, 12 and 13, two horizontally arranged lifting bars 82 located on the front and rear sides of the groove 12 are symmetrically arranged to the frame. between the rubber pad 75 and the workbench 1 and on the lower end of the frame box 8 on the right side of the inverted U-shaped frame 3, and fix the two lifting bars 82 on the upper end of the workbench 1, and the two lifting bars 82 cooperate When used, the frame box 8 can be lifted, so that the lower piece of glass positioned on the placement table 2 can enter directly below the frame box 8, and the upper end of the frame box 8 can be recessed in the direction of the front, rear, left, and right sides to form an indentation with the frame box. In the mounting slot 86 connected to the inner cavity of the box 8, the guide rod 84 arranged along the length direction of the installation slot 86 is set inside the installation slot 86, and the moving block 81 that penetrates the installation slot 86 is slidably connected to the outer end of the guide rod 84. The movement of the moving block 81 is guided through the guide rod 84, and the second elastic member 85 located outside the guide rod 84 is installed between one end of the moving block 81 and the inner wall of the installation groove 86. Through the second elastic member 85, the movement can be made The block 81 returns to its original position to facilitate subsequent operations. The second elastic member 85 can be a spring. A second slope 811 is opened at the upper corner of the other end of the moving block 81. Four horizontally arranged functional blocks 72 are respectively installed on the pressure plate. 7. On the upper sides of the front, rear, left, and right ends, a first bevel 721 used in conjunction with the second bevel 811 is processed on one side of the lower end of the functional block 72. The first bevel 721 is used in conjunction with the second bevel 811, so that the functional block 72 and The moving blocks 81 move relative to each other, and the four inner walls of the frame box 8 are all recessed outward to form a frame structure and a through hole 83 connected with the inner cavity of the frame box 8. The four sliding blocks arranged in a rectangular shape are The glue delivery box 88 connected to the lower end of the moving block 81 is slidingly connected to the bottom end of the inner cavity of the frame box 8, and a plurality of transversely arranged glue spray pipes 87 extending into the opening 83 are equidistantly connected and arranged in the glue delivery box On the inward end of 88, a plurality of glue spray pipes 87 are used together to perform glue dispensing operations at the edges around the upper end surface of the lower piece of glass. Connect the glue delivery hose that extends outside the frame box 8 and has the other end connected to the glue delivery pipeline. Go to one end of the transport box, set the second magnetic plate 881 to the middle position of the outer end of the glue transport box 88, and place four third magnetic plates 881 on the outer side of the second magnetic plate 881 and mutually exclusive with the second magnetic plate 881. The electromagnets 882 are respectively installed on the four vertical walls of the inner cavity of the frame box 8, and then two elastic pieces 883 arranged obliquely and located outside the third electromagnet 882 and the outside of the second magnetic plate 881 are symmetrically arranged on the glue delivery box. 88 toward the outer end, and the other end of the elastic piece 883 is fixed on the vertical wall of the inner cavity of the frame box 8. Through the elastic piece 883, the frame box 8 can be returned to its original position to facilitate subsequent operations.

When the positioned lower piece of glass moves directly below the frame box 8 , the circuit of the third electromagnet 882 is first turned on, so that the third electromagnet 882 generates a magnetic field and connects the third electromagnet 882 with the second magnetic plate 881 A repulsive force is generated between them, and under the action of the repulsive force, the second magnetic plate 881 and the glue delivery box 88 move inward, so that the plurality of glue spray tubes 87 pass through the through opening 83 and the outlets of the glue spray tubes 87 move to the lower piece of glass. The edge around the upper end is directly above, and then the sealant is transported to the four glue boxes 88 through the glue pipeline and the four glue hoses, and the sealant in the glue box 88 is shunted into multiple spray pipes 87. Then, the sealant is dripped at the edges around the upper end of the lower glass through multiple spray pipes 87, and at the same time, the pressure plate 7, the four functional blocks 72, the frame rubber pad 75 and the adsorbed upper glass are moved through the second lifting device. By moving downward, the first inclined surface 721 on the functional block 72 can contact and move relative to the second inclined surface 811 of the moving block 81, so that the moving block 81 moves along the installation groove 86, and the glue delivery box 88 can follow the movement. The moving block 81 moves, thereby causing the plurality of glue spray pipes 87 to move along the opening 83, so that the sealant discharged through the glue spray pipes 87 drips in a small range at the upper edge of the lower glass, so as to achieve the purpose of lowering the glass. The adjacent dripping sealants on the upper edge of the glass are connected to each other, effectively reducing the probability of cracks in the sealing part during subsequent edge sealing, ensuring the vacuum degree of the vacuum glass after evacuation, and solving the problems commonly used in traditional production. The glue operation causes multiple accumulation of sealant spots on the upper edge of the lower glass. The edge pressing operation is then used to flow and solidify the accumulated sealant spots for sealing. It is easy to cause gaps between adjacent accumulated sealant spots. The phenomenon of failure to close during edge pressing leads to a high probability of cracks in the sealing part of the vacuum glass, resulting in leakage of the vacuum glass after evacuation.

As shown in Figures 1 and 8, the middle position of the upper end of the placement platform 2 is recessed downward to form a placement groove located inward of the L-shaped limiting plate 21. The upper end surface is overlapped with the upper end surface of the placement platform 2 and is slidably connected to the placement groove. Inside, set the first magnetic plate 23 to the middle position of the lower end of the top plate 22, and then install the first electromagnet 25 located directly below the first magnetic plate 23 and mutually exclusive with the first magnetic plate 23 into the placement slot. On the inner bottom end, the first electromagnet 25 is used in conjunction with the first magnetic plate 23 to move the top plate 22 upward and move the four first elastic members 24 located outside the first magnetic plate 23 and the first electromagnet 25 respectively. It is installed at the four angular positions between the lower end of the top plate 22 and the bottom end of the inside of the placement groove. The four first elastic members 24 are used in conjunction to return the top plate 22 to its original position. The four first elastic members 24 are arranged in a rectangular shape. The second telescopic rods on the inside are equidistantly arranged between the lower end of the top plate 22 and the bottom end of the placement slot. The four second telescopic rods are used in conjunction to guide the movement of the top plate 22. When in use, the first motor 11 and the wire Rod 13 moves the placement table 2 to the right along the groove 12, so that the evacuated vacuum glass is completely removed from the bottom of the frame box 8, and then the circuit of the first electromagnet 25 is turned on, so that the first electromagnet 25 generates a magnetic field, thereby generating a repulsive force between the first electromagnet 25 and the first magnetic plate 23, and under the action of the repulsive force, the first magnetic plate 23 and the top plate 22 move upward, so that the upwardly moved top plate 22 The vacuum glass is ejected, and the vacuum glass is separated from the placement table 2, so that the vacuum glass can be easily retrieved and used, which solves the problem that the vacuum glass is easily separated from the work during the pressing process in traditional production. There is a problem of adsorption between the surfaces of the table, which makes it difficult to pick up materials.

A vacuum glass production equipment and method, including the following steps:

The first step is preparatory work. Cut the upper glass and lower glass, and then deburr the cut upper glass and lower glass. After deburring, use deionized water to clean them. After the cleaning is completed, drying treatment;

The second step is to drill a cylindrical blind hole through the upper glass to form an evacuation port;

The third step is to lay the material. First, stack a plurality of rubber columns 9 arranged up and down in the material holes 51 on the rectangular block 5, and then use four L-shaped limiting plates 21 to position and place the lower piece of glass on the placement table 2. on the upper end, and the first motor 11 drives the screw rod 13 to rotate, thereby moving the placing table 2 to the right to just below the rectangular block 5, and then using the first electric push rod 4 to move the rectangular block 5 downward to facilitate the removal of glass. The upper end is attached, and the second electric push rod 53 is used to move the baffle 54 along the through slot 52, so that the through hole 55 on the baffle 54 coincides with the material hole 51, and then the lowermost rubber in the material hole 51 is The column 9 moves down along the material hole 51 and fits with the upper end of the lower piece of glass, and then uses the second electric push rod 53 to dislocate the through hole 55 and the material hole 51, thereby blocking the material hole 51, and then uses the telescopic device to The rectangular block 5 returns to its original position, and multiple rubber columns 9 are evenly laid on the upper end of the lower glass piece;

The fourth step is to load the material, connect the circuit of the second electromagnet 734, insert the iron plate 733 into the circular shell 731 and fit it with the second electromagnet 734. The second electromagnet 734 can be used to conduct the iron plate 733 adsorption, and then use the third electric push rod 71 to move the pressure plate 7 and the frame rubber pad 75 downward, and make the frame rubber pad 75 closely fit the upper end of the upper glass, and then use the fourth electric push rod 73 to move the circular shell 731. The iron plate 733 and the sealing head 732 move downward, and then the sealing head 732 is inserted into the evacuation port, and then through the evacuation device 74 and the suction pipe 741, the space formed by the pressure plate 7, the frame rubber pad 75 and the upper glass is emptied. Exhaust the air, then adsorb the upper glass, and then drive the round rod 61 and the mounting plate 6 to rotate through the second motor 63, so that the adsorbed upper glass rotates to just above the frame box 8;

The fifth step is to apply glue and drive the screw rod 13 to rotate through the first motor 11, so that the placement table 2 and the positioned lower piece of glass are moved to just below the frame box 8, and the circuit of the third electromagnet 882 is turned on, thereby The repulsive force generated between the third electromagnet 882 and the second magnetic plate 881 causes the plurality of glue spray tubes 87 and the glue delivery box 88 to move inward, and then the outlets of the plurality of glue spray tubes 87 pass through the through opening 83 and move to the lower sheet. Around the top of the glass, the third electric push rod 71 is used to move the pressure plate 7, the four functional blocks 72, the frame rubber pad 75 and the adsorbed upper glass synchronously downward, so that the first slope 721 on the functional block 72 is in contact with the moving block. The second inclined surface 811 of 81 contacts and moves relative to each other, so that the moving block 81 can move along the installation groove 86, so that the glue delivery box 88 and the plurality of glue spray tubes 87 can move linearly, and at the same time, the glue delivery box 88 can be moved through the glue delivery hose. The sealant is transported inside, and then divided into multiple glue spray pipes 87, and then a small range of mobile dispensing movement is performed at the upper edge of the lower glass through the moving glue spray pipes 87, and then the circuit of the third electromagnet 882 is disconnected, and The elastic force of the elastic piece 883 causes the glue delivery box 88 and the plurality of glue spray tubes 87 to return to their original positions;

The sixth step is to press and seal the edges, and then use the third electric push rod 71 to continue to move the pressure plate 7, the four functional blocks 72, the frame rubber pad 75 and the adsorbed upper glass downwards, so that the adsorbed upper glass will move downward from the frame. The middle space of the box 8 is penetrated, and the upper glass and the multiple rubber pillars 9 on the lower glass are brought into contact and fit, and then the third electric push rod 71 is used to perform a downward movement, so that the upper glass and the lower glass are connected. Pressing and sealing movement between pieces of glass;

The seventh step is to evacuate, use the fourth electric push rod 73 to move the circular shell 731, the iron plate 733 and the sealing head 732 upward, thereby separating the sealing head 732 from the evacuation port, and then through the evacuator 74 and the suction pipe 741, The vacuum glass formed by the edge sealing of the lower glass and the upper glass is evacuated. After completion, the fourth electric push rod 73 is used to move the circular shell 731, the iron plate 733 and the sealing head 732 downward, thereby causing the sealing The plug 732 re-blocks the evacuation port to obtain a finished vacuum glass product;

The eighth step is to take the material, drive the screw rod 13 to rotate through the first motor 11, and then move the placing table 2 to the right to the right side of the frame box 8, then connect the circuit of the first electromagnet 25, and use the first electromagnet The repulsive force generated between the iron 25 and the first magnetic plate 23 causes the top plate 22 to move upward, thereby ejecting the finished vacuum glass product, and then taking out and storing the ejected vacuum glass finished product.

Although this specification is described in terms of implementations, not each implementation only contains an independent technical solution. This description of the specification is only for the sake of clarity. Those skilled in the art should take the specification as a whole. In each embodiment, The technical solutions can also be appropriately combined to form other implementations that can be understood by those skilled in the art.

Claims (9)

1. A vacuum glass making equipment, characterized in that: it includes a workbench (1), the upper end of the workbench (1) is recessed downward to form a laterally arranged groove (12), and the inside of the groove (12) The placement platform (2) is slidably connected and the upper end surface of the placement platform (2) coincides with the upper end surface of the workbench (1). A first driving component for driving the movement of the placement platform (2) is installed on the groove (12). , an inverted U-shaped frame (3) is installed on the upper end of the workbench (1) and the inverted U-shaped frame (3) is located on the right side of the placement table (2), and a rectangular block is provided on the lower side of the transverse part of the inverted U-shaped frame (3) (5) And the rectangular block (5) is located directly above the groove (12). The fixed part of the first lifting equipment is provided on the rear side of the upper end of the inverted U-shaped frame (3), and the movable part of the first lifting equipment passes through The U-shaped frame (3) is inverted and connected to the rectangular block (5). The upper end of the rectangular block (5) is recessed downward to form a plurality of material holes (51), and the material holes (51) penetrate the rectangular block (5). The front end of the lower side of the rectangular block (5) is recessed backward to form a through groove (52), and the through groove (52) penetrates the rectangular block (5). The through groove (52) penetrates a plurality of material holes (51). (52) The internal sliding connection baffle (54), the upper end surface of the baffle (54) is recessed downward to form a plurality of through holes (55), and the through holes (55) penetrate the baffle (54), and the through holes (55) ) coincides with the center line of the material hole (51) and the through hole (55) overlaps and communicates with the material hole (51). The rear end of the rectangular block (5) is provided with a fixed part of the telescopic equipment. The movable part extends into the through slot (52) and is connected with the baffle (54). A gluing piece is provided on the right side of the upper end of the workbench (1) and the gluing piece is located on the right side of the inverted U-shaped frame (3). The fixed part of the second driving part is provided at the rear end of the workbench (1), and the movable part of the second driving part is provided with a pressing part, and the pressing part is located directly above the gluing part. 2. A vacuum glass making equipment according to claim 1, characterized in that: the pressing member includes a mounting plate (6), and a pressing plate (7) is provided on the lower side of the mounting plate (6). The fixed part of the second lifting device is arranged on the front side of the upper end of the mounting plate (6). The movable part of the second lifting device penetrates the mounting plate (6) and is connected to the pressure plate (7). The lower end of the pressure plate (7) is provided with a frame. The rubber pad (75) and the frame-type rubber pad (75) are located directly above the gluing parts. An evacuator (74) is installed on the upper end of the pressure plate (7) and the evacuator (74) is located on the left side of the installation plate (6). The inlet of the evacuation device (74) is connected with a suction pipe (741), the suction pipe (741) penetrates the pressure plate (7) and the suction pipe (741) is located inside the frame rubber pad (75); The upper end of the pressure plate (7) is provided with a fixed portion of the third lifting device and the third lifting device is located on the right side of the installation plate (6). A circular shell (731) is provided on the lower side of the pressure plate (7) and the circular shell (731 ) is located inside the frame rubber pad (75). The movable part of the third lifting device penetrates the pressure plate (7) and is connected to the circular shell (731). A second electromagnet is provided at the top of the circular shell (731). (734), the lower end of the second electromagnet (734) is attached to the iron plate (733) and the iron plate (733) extends out of the lower side of the circular shell (731). A seal is provided in the middle of the lower end of the iron plate (733). Plug(732). 3. A vacuum glass making equipment according to claim 2, characterized in that: the second driving member includes a fixed plate (62) arranged at the rear end of the workbench (1), the fixed plate (62) The upper end is rotatably connected to a vertically arranged round rod (61). The round rod (61) is fixed on the rear side of the lower end of the mounting plate (6). The lower end of the fixed plate (62) is provided with a fixing part of the first driving device, so The movable part of the first driving device passes through the fixed plate (62) and is connected to the round rod (61). 4. A vacuum glass making equipment according to claim 2, characterized in that: the gluing part includes a frame box (8), and the frame box (8) is located on the frame rubber pad (75) Between the frame box (8) and the workbench (1), two horizontally arranged lifting bars (82) are symmetrically arranged at the lower end of the frame box (8), and both of the two lifting bars (82) are fixed on the workbench (1). The upper end and two lifting bars (82) are located on the front and rear sides of the groove (12). The upper end of the frame box (8) is recessed at the front, rear, left and right sides to form an installation groove (86), and the installation groove (86) is in line with the groove (12). The inner cavity of the frame box (8) is connected, and a guide rod (84) arranged along the length direction of the installation groove (86) is provided inside the installation groove (86). The outer end of the guide rod (84) is slidingly connected to the moving block ( 81) and the moving block (81) penetrates the installation groove (86). A second elastic member (85) is installed between one end of the moving block (81) and the inner wall of the installation groove (86), and the second elastic member (85) is located in the guide Outside the rod (84), a second slope (811) is provided at the upper corner of the other end of the moving block (81), and transversely arranged functional blocks (72) are installed on the upper sides of the front, rear, left, and right ends of the pressure plate (7). The first bevel (721) used in conjunction with the second bevel (811) is processed on one side of the angular position of the lower end of the functional block (72). 5. A vacuum glass making equipment according to claim 4, characterized in that: the four inner walls of the frame box (8) are all recessed outward to form a through hole (83), and the through hole (83) ) has a frame structure and the opening (83) is connected with the inner cavity of the frame box (8). The bottom end of the inner cavity of the frame box (8) is slidingly connected to four glue delivery boxes (88) arranged in a rectangular shape. And the four glue delivery boxes (88) are respectively slidingly connected to the lower ends of the four moving blocks (81). The glue delivery boxes (88) are equidistantly connected toward the inner end and are provided with a plurality of transversely arranged glue spray pipes (87), and the glue spray pipes are (87) extends into the opening (83). One end of the transport box is connected to the rubber hose and the rubber hose extends out of the frame box (8). The rubber box (88) is toward the middle of the outer end. A second magnetic plate (881) is provided, and a third electromagnet (882) is installed toward the outside of the second magnetic plate (881). The third electromagnet (882) and the second magnetic plate (881) are arranged to repel each other. Four The third electromagnet (882) is installed on the four vertical walls of the inner cavity of the frame box (8) respectively. The glue delivery box (88) is symmetrically provided with two obliquely arranged elastic pieces (883) toward the outer end. And the elastic piece (883) is located outside the third electromagnet (882) and the second magnetic plate (881). The other end of the elastic piece (883) is fixed on the vertical wall of the inner cavity of the frame box (8). 6. A vacuum glass making equipment according to claim 1, characterized in that: a fixed part of the first telescopic rod (31) is provided on the front side of the upper end of the inverted U-shaped frame (3) and the first telescopic rod (31) 31) is located on the front side of the first lifting equipment, and the movable part of the first telescopic rod (31) passes through the inverted U-shaped frame (3) and is connected to the rectangular block (5). 7. A vacuum glass making equipment according to claim 1, characterized in that: L-shaped limiting plates (21) are provided at the four corners of the upper end of the placing platform (2). ) The middle position of the upper end is depressed downward to form a placement groove, and the placement groove is located inward of the L-shaped limiting plate (21). The interior of the placement groove is slidably connected to the top plate (22), and the upper end surface of the top plate (22) is on the placement platform (2). The end faces overlap together, a first magnetic plate (23) is installed at the middle position of the lower end of the top plate (22), a first electromagnet (25) is installed at the bottom end of the placement slot, and the first electromagnet (25) is located at the Directly below a magnetic plate (23), the first magnetic plate (23) and the first electromagnet (25) are arranged to repel each other; First elastic members (24) are installed at four corners between the lower end of the top plate (22) and the inner bottom end of the placement slot, and the first elastic members (24) are located outside the first magnetic plate (23) and the first electromagnet. (25) On the outside, four second telescopic rods arranged in a rectangle are equidistantly arranged between the lower end of the top plate (22) and the inner bottom end of the placement slot, and the second telescopic rods are located inside the first elastic member (24). 8. A vacuum glass making equipment according to claim 7, characterized in that: the first driving member includes a screw rod (13), and the screw rod (13) is rotatably connected inside the groove (12) On the front side, the screw rod (13) is arranged along the length direction of the groove (12). The screw rod (13) penetrates the placement table (2) and the placement table (2) and the screw rod (13) are connected through a rolling nut pair. The screw rod (13) is located on the front side of the placement slot. The fixed part of the second driving device is installed on the front side of the left end of the workbench (1). The movable part of the second driving device passes through the workbench (1) and is connected with the workbench (1). Screw (13) connection; A polished rod is provided inside the placement groove and is located at the rear side of the placement groove. The polished rod penetrates the placement platform (2) and the placement platform (2) is slidingly connected to the polished rod. 9. The method of using the vacuum glass production equipment according to any one of claims 1 to 8, characterized in that it includes the following steps: The first step is preparatory work. Cut the upper glass and lower glass, and then deburr the cut upper glass and lower glass. After deburring, use deionized water to clean them. After the cleaning is completed, drying treatment; The second step is to drill a cylindrical blind hole through the upper glass to form an evacuation port; The third step is to spread the material. First, stack multiple rubber columns (9) arranged up and down in the material holes (51) on the rectangular block (5), and then use four L-shaped limit plates (21) to The piece of glass is positioned and placed on the upper end of the placement platform (2), and the screw rod (13) is driven to rotate through the second driving device, thereby moving the placement platform (2) to the right to directly below the rectangular block (5), and then the first The lifting device moves the rectangular block (5) down to facilitate the upper end of the lower glass to fit, and then uses the telescopic device to move the baffle (54) along the through slot (52), thereby making the through hole on the baffle (54) (55) coincides with the material hole (51), so that the lowermost rubber column (9) in the material hole (51) moves down along the material hole (51) and fits the upper end of the lower piece of glass, and then uses the telescopic equipment , dislocating the through hole (55) and the material hole (51), thereby blocking the material hole (51), and then returning the rectangular block (5) to its original position through the telescopic device, completing the even laying of multiple rubber columns on the upper end of the lower glass. (9); The fourth step is to load materials, connect the circuit of the second electromagnet (734), insert the iron plate (733) into the circular shell (731) and fit it with the second electromagnet (734), and the second electromagnet (734) can be used. The electromagnet (734) adsorbs the iron plate (733), and then moves the pressure plate (7) and the frame rubber pad (75) downward through the second lifting device, and makes the frame rubber pad (75) and the upper end of the upper glass Closely fit, and then use the third lifting device to move the circular shell (731), iron plate (733) and sealing head (732) downward, and then insert the sealing head (732) into the evacuation port, and then pass the evacuation device (732) 74) and the suction pipe (741), the space formed by the pressure plate (7), the frame rubber pad (75) and the upper glass is evacuated, and then the upper glass is adsorbed, and then the first driving device drives the circle. The rod (61) and the mounting plate (6) rotate, so that the adsorbed upper glass rotates to directly above the frame box (8); The fifth step is to apply glue and drive the screw rod (13) to rotate through the second driving device, so that the placement table (2) and the positioned lower glass move to directly below the frame box (8), and the third electromagnetic The circuit of the iron (882) is used to generate a repulsive force between the third electromagnet (882) and the second magnetic plate (881) to move the plurality of glue spray tubes (87) and the glue delivery box (88) inwards, thereby causing The outlets of multiple spray hoses (87) pass through the opening (83) and move to the upper and lower sides of the lower glass, and then use the second lifting device to move the pressure plate (7), four functional blocks (72), and frame rubber pads (75 ) and the adsorbed upper glass moves downward synchronously, so that the first inclined surface (721) on the functional block (72) contacts and moves relative to the second inclined surface (811) of the moving block (81), so that the moving block (81) Move along the installation groove (86), so that the glue delivery box (88) and multiple spray hoses (87) move linearly, and at the same time, the sealant is transported into the glue delivery box (88) through the glue delivery hose, and then shunted to In multiple glue spray pipes (87), the mobile glue spray pipes (87) are used to perform a small-scale mobile dispensing movement at the upper edge of the lower glass, and then the circuit of the third electromagnet (882) is disconnected, and the elastic piece is The elastic force of (883) returns the glue box (88) and multiple glue spray tubes (87) to their original positions; The sixth step is to press and seal the edge, and then use the second lifting device to continue to move the pressure plate (7), the four functional blocks (72), the frame rubber pad (75) and the adsorbed upper glass downwards, so that the adsorbed upper glass The piece of glass penetrates through the middle space of the frame box (8), and the upper piece of glass is brought into contact with multiple rubber columns (9) on the lower piece of glass, and then the second lifting device is used to perform a downward movement, and then Make the upper piece of glass and the lower piece of glass perform a pressing and edge sealing movement; The seventh step is to evacuate. Use the third lifting device to move the circular shell (731), the iron plate (733) and the plugging head (732) upward, thereby separating the plugging head (732) from the evacuation port, and then through the evacuation The vacuum glass formed by the edge sealing of the lower glass and the upper glass is evacuated with the device (74) and the suction pipe (741). After completion, the third lifting device is used to make the circular shell (731) and the iron plate (733) ) and the sealing head (732) moves downward, so that the sealing head (732) re-blocks the evacuation port, thereby obtaining the finished vacuum glass; The eighth step is to take the material and drive the screw rod (13) to rotate through the second driving device, thereby moving the placement table (2) to the right to the right side of the frame box (8), and then turn on the first electromagnet (25) circuit, and utilizes the repulsive force generated between the first electromagnet (25) and the first magnetic plate (23) to move the top plate (22) upward, and then performs an ejection movement on the vacuum glass finished product, and then the ejected vacuum Finished glass is removed and stored.