CN111872166B - Elevator layer door integration equipment is made in production - Google Patents

Abstract

The invention discloses an integrated equipment for manufacturing elevator landing doors, which relates to the field of elevator landing doors. The control main box is welded, the top surface of the bottom support box is horizontally welded with a top support plate, the top surface of the top support plate is evenly clamped with a drive shaft, and the top surface of the top support plate is symmetrically welded with supports side plates, guide wheels are clamped on the sides between the support side plates, a push cylinder is welded vertically upward on the top surface of the support side plate, and a guide column is welded vertically upward on the top surface of the support side plate. The output end of the push cylinder is horizontally welded with a support cross bar. The device of the invention has a simple integrated structure and is easy to operate. It adopts a variety of functions to make the operation more convenient and fast, and at the same time, it is more fast and efficient in the production of elevator doors. The synergistic design makes the processing more accurate and reliable.

Description

Elevator layer door integration equipment is made in production

Technical Field

The invention relates to the technical field of elevator landing doors, in particular to integrated equipment for producing and manufacturing an elevator landing door.

Background

The elevator management system is used for implementing a 'one-dragon' management responsibility system which is comprehensively responsible for elevator manufacturing, installation, maintenance and repair quality of elevator production enterprises, supervising the enterprises to adhere to the first quality and ensuring the safe operation of the elevator. The method is characterized in that measures are practically implemented by combining the requirements of the state on building market and property management, and license-free enterprises cannot produce elevators and are prohibited from selling and purchasing unqualified products and products produced by license-free enterprises; in the elevator operation activities and the elevator bidding process, enterprises are supervised to comply with relevant national regulations, the principles of open, fair, honest credit, equal competition and the like are followed, the illegal competition such as price raising, price pressing and the like is forbidden, and the legal rights and interests of the enterprises and users are maintained; the evaluation and supervision of the quality of the elevator by the user are organized and developed; analysis and processing of elevator-participating safety accidents

When producing to present lift-cabin door, all need punch and bend the effect to the door plant, and this process has all adopted split type design, make and need carry out perfect cooperation when producing go on, just can form accurate nature to the production of the door body, and artificial the multiple operation that carries on operates the condition that makes can have the error and takes place, the not in-place and step formation error of complex has been led to, the door body of producing at last can't be used, the financial resources of enterprise and the loss of manpower have been caused, and can be to the elevator when carrying out the door body installation that has the error and go on the operation along with the improvement condition of danger coefficient, be unfavorable for present social use.

Disclosure of Invention

The invention aims to provide integrated equipment for manufacturing elevator landing doors, which aims to solve the problems that the existing elevator doors in the background art need to be punched and bent, all the procedures adopt split-type design, so that the door bodies can be accurately produced only by perfect matching in the production process, and errors can be caused by artificial multi-procedure operation, so that the matching cannot be achieved and the errors are formed step by step, and finally the manufactured door bodies cannot be used, so that financial and manpower losses of enterprises are caused, and the elevator can be operated along with the improvement of risk coefficients after the error door bodies are installed, so that the existing elevator landing doors are not beneficial to social use. To a problem of (a).

In order to achieve the purpose, the invention provides the following technical scheme:

an integrated device for producing and manufacturing an elevator landing door comprises a bottom supporting box, wherein a bottom cushion block is in threaded connection with the bottom surface of the bottom supporting box, a control main box is obliquely welded on one side edge of the bottom supporting box, a top supporting plate is horizontally welded on the top surface of the bottom supporting box, a driving shaft rod is uniformly clamped and connected on the top surface of the top supporting plate, supporting side plates are symmetrically welded on the top surface of the top supporting plate, guide wheels are clamped and connected on the side edges between the supporting side plates, a pushing cylinder is vertically upwards welded on the top surface of the supporting side plates, a guide post is vertically upwards welded on the top surface of the supporting side plates, a supporting cross rod is horizontally welded on the output end of the pushing cylinder, an extending plate is horizontally welded on the side edge between the supporting cross rods, a sliding block is horizontally clamped and connected on the inner side edge of the extending plate, a drilling motor is connected on the top surface of the bolt, and a drilling head is fixedly inserted and connected on the output end of the drilling motor, the top surface of the top supporting plate is vertically upwards welded with a supporting vertical plate, the top end of the supporting vertical plate is horizontally connected with a horizontal transverse plate through a bolt, the top surface of the horizontal transverse plate is vertically connected with a lower air cylinder through a bolt, the output end of the lower air cylinder is horizontally welded with a bent plate, one side of the top surface of the top supporting plate, which is far away from the supporting side plate, is horizontally welded with a sliding side lever, the side edge of the sliding side lever is horizontally provided with a sliding groove, one side edge of the sliding side lever is butted with a driving box body, a stop plate is horizontally arranged between the sliding side edges of the sliding side levers, the inner side edge of the bottom supporting box is connected with an air storage tank through a bolt, the inner side bottom surface of the bottom supporting box is connected with an air compressor through a bolt, the bottom surface of the bottom supporting box is uniformly and vertically provided with a bottom screw hole, the top surface of the guide wheel is vertically inserted with a shaft lever, and the top surface of the top supporting plate is horizontally provided with a bending groove, the top surface of the extension plate is horizontally provided with a sliding groove, the inner side edge of the sliding groove is symmetrically and horizontally provided with a limit groove, clamping strips are symmetrically and fixedly welded on two side edges of the sliding block, clamping grooves are vertically formed in the side edges of the supporting vertical plate, the inner side of the clamping groove is horizontally clamped with a limiting block, the inner side of the driving box body is vertically clamped with a driving main board, the side of the driving main board is connected with a processing warehouse by bolts, one side of the driving box body close to the sliding side rod is provided with a driving wheel, the inner side edge of the sliding groove is clamped with a fastening fixture block, the two ends of the barrier plate are symmetrically and horizontally welded with connecting blocks, a display screen is embedded on one side of the control main box, a setting key is embedded on one side of the control main box, the inside horizontal joint of control main tank has the control mainboard, the inside horizontal joint of control main tank has the processing mainboard.

As a preferred embodiment of the present invention: the number of end cushion block is a plurality of, and a plurality of end cushion blocks peg graft perpendicularly respectively in the inboard side position of end screw hole, and set up through screw thread fixed connection each other, a plurality of end cushion blocks are fixed the bottom surface that sets up at end supporting box respectively and are close to the border position, the end cushion block adopts the preparation of stereoplasm rubber material, the fixed corner position that sets up the support curb plate that is close to the top surface at one side of end supporting box in control main tank, top backup pad level sets up the top surface at end supporting box, and the top surface vertical welding of end supporting box puts at the bottom surface central point of top backup pad.

As a preferred embodiment of the present invention: the number of drive axostylus axostyle is a plurality of, and the opening that the outside limit of a plurality of drive axostylus axostyles runs through the joint groove extends to the top surface position of top backup pad, a plurality of drive axostylus axostyles all with bend the groove at the top surface parallel arrangement each other of top backup pad, a plurality of drive axostylus axostyles and control mainboard set up through electric connection each other, the number of supporting the curb plate is two, and two supporting the curb plate respectively the fixed top surface that sets up at top backup pad is close to both sides limit position, two supporting the curb plate parallel arrangement each other, the leading wheel joint sets up the side and is close to a side limit position of backup pad between two supporting the curb plates.

As a preferred embodiment of the present invention: the number of push cylinder is four, and four push cylinder two double-phase a set of symmetry setting respectively are close to one end position at the top surface of two spinal branch stay curb plates, push cylinder's output is perpendicular upwards to be set up, the guide post is perpendicular to be set up the top surface push cylinder who supports the curb plate between the position, and the top of guide post is perpendicular upwards run through the bottom surface that supports the horizontal pole and extend to top surface outside limit position, the number that supports the horizontal pole is two, and two spinal branch stay horizontal poles are parallel to each other the stack formula arrange at the top surface position that supports the curb plate, the extension board is the top surface position that the level form set up at the top backup pad.

As a preferred embodiment of the present invention: the number of sliding block is the polylith, and the polylith sliding block horizontal joint is in the inboard side position of sliding tray respectively, and the number of drilling motor keeps unanimous with the number of sliding block, and the drilling motor is vertical to the top surface that sets up at the sliding block, and the output of drilling motor runs through the sliding block perpendicularly downwards and extends to the top surface position that the bottom surface set up in the top backup pad, and the bottom vertical welding of supporting the riser is close to both sides limit position at the top surface of top backup pad, and supports the fixed setting position of supporting the riser between curb plate and slip side lever.

As a preferred embodiment of the present invention: horizontal diaphragm is the top surface position that horizontal parallel form set up at the top backup pad, the number of air cylinder pushes down is a plurality of, and a plurality of air cylinder push down are parallel form each other and set up the top surface position at the top backup pad, the top surface that the output of a plurality of air cylinder push down runs through horizontal diaphragm perpendicularly downwards extends to the bottom surface position, the board level of bending sets up and supports the position between the riser in the bottom surface of horizontal diaphragm, the slip side lever all keeps unanimous with arranging of supporting the curb plate, the side center line position at two slip side levers is established to the sliding tray horizontal-side, and the sliding tray runs through a side of slip side lever and extends to another side position, the side position of a slip side lever that the driving box set up and run through at the sliding tray.

As a preferred embodiment of the present invention: the both ends of barrier plate perpendicular butt joint is in the side position between two slip side levers, and the bottom surface butt joint of barrier plate is in the top surface position of drive axostylus axostyle, the gas holder is connected the setting through the trachea with the air compressor machine each other, and set up through electric connection between air compressor machine and the control main tank, the inboard top surface and the bottom surface position of supporting the curb plate are pegged graft perpendicularly at the both ends that the leading wheel was kept away from to the axostylus axostyle, the bottom surface position at the board of bending is established to the groove horizontal flat of bending, and be the setting of arranging of stack each other, the top surface central point at the extension board is established to the groove horizontal flat of sliding, screens strip horizontal joint is in the inboard side position of spacing groove.

As a preferred embodiment of the present invention: the screens groove is vertical to seting up side central point between supporting the riser and put, and the number of stopper is two, and two stopper symmetry level welding respectively put at the both ends of horizontal diaphragm, set up through electric connection between drive mainboard, processing storehouse and the drive wheel, and pass through electric connection between drive mainboard and the control mainboard.

As a preferred embodiment of the present invention: the outside limit butt joint of drive wheel keeps away from a side position of barrier plate at the slip side lever, and the open end that the one end level of lock joint fixture block runs through the sliding tray extends to the outside limit, and extends to the perpendicular bolted connection of outside limit end and puts at a side central point of drive box, and the both ends of connecting block are symmetrical respectively and are pegged graft in the inboard side position of the inside sliding tray of two slip side levers, control mainboard and processing mainboard are through electric connection setting each other.

Compared with the prior art, the invention has the beneficial effects that:

1. make more convenience when carrying through design integration, it wastes time and energy to be convenient for the production operation need not to carry out multiple accessory and install, under the control of control mainboard and processing mainboard, let the drive axostylus axostyle of top backup pad top surface rotate, make the door plant that is driving the top surface move and stop after the assigned position, then make under the shrink that promotes the flagpole support horizontal pole and extension board downstream, and make under the effect of direction owner to support the horizontal pole can not take place the skew condition, make the drilling motor that is driving the sliding block top surface when extension board downstream push down the effect, make the drilling head carry out the effect of punching to the door plant of below, let punch and can have the regularization, make and to adapt to various specifications of punching.

2. Then the door plate is driven to move towards the position between the supporting vertical plates under the rotation of the driving shaft lever, meanwhile, the driving mainboard in the driving box body transfers information in the processing warehouse to control, so that the driving wheel is controlled to move at the side edge of the sliding side lever, the blocking plate is driven to move to a specified distance away from the bending plate to stop, then one side of the door plate is abutted against the side edge position of the blocking plate to be stabilized under the transmission of the driving shaft lever, the bending plate is driven to perform downward extrusion motion at the inner side edge of the clamping groove under the downward pressing of the pressing cylinder, the door plate below is extruded to complete the bending effect towards the inside of the bending groove, thus, the multi-size bending effect is performed for a plurality of times, the device is designed and integrated, has simple and convenient structure and convenient operation, and more convenient and rapid operation by adopting a plurality of functions, meanwhile, the elevator door is faster and more efficient in production, and the processing is more accurate and reliable due to the cooperative design.

Drawings

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

FIG. 1 is a schematic perspective detail view of an integrated elevator landing door manufacturing apparatus;

FIG. 2 is a schematic structural view of a sectional connection detail of a bottom support box of an integrated device for manufacturing a landing door of an elevator;

FIG. 3 is a schematic diagram of a top detail of a bottom support box for an integrated elevator landing door manufacturing apparatus;

FIG. 4 is a schematic diagram of a side view cross-sectional connection detail of an extension panel for producing an integrated elevator landing door manufacturing apparatus;

FIG. 5 is a schematic structural view showing a sectional connection detail of a supporting vertical plate of the integrated device for manufacturing the landing door of the elevator;

FIG. 6 is a schematic diagram of a side view cross-sectional connection detail of a drive housing for an integrated elevator landing door manufacturing apparatus;

fig. 7 is a schematic structural diagram of a section connection detail of a control main box for producing an integrated device for manufacturing an elevator landing door.

In the figure: 1-bottom support box; 2-bottom cushion block; 3-controlling the main box; 4-a top support plate; 5-a drive shaft; 6-supporting the side plate; 7-a guide wheel; 8-pushing the cylinder; 9-a guide post; 10-a support rail; 11-an extension plate; 12-a slider; 13-a drilling motor; 14-a drill bit; 15-supporting a vertical plate; 16-a horizontal transverse plate; 17-a down-pressure cylinder; 18-bending a plate; 19-sliding side bar; 20-a sliding groove; 21-driving the box body; 22-a barrier plate; 23-a gas storage tank; 24-an air compressor; 25-bottom screw holes; 26-shaft lever; 27-bending grooves; 28-a sliding groove; 29-a limiting groove; 30-clamping strips; 31-a clamping groove; 32-a limiting block; 33-driving the main board; 34-a processing library; 35-a driving wheel; 36-buckling fixture blocks; 37-connecting blocks; 38-display screen; 39-set key; 40-a control main board; 41-processing the main board.

Detailed Description

Referring to fig. 1-2, in the embodiment of the present invention, an integrated device for manufacturing an elevator landing door comprises a bottom support box 1, a bottom pad 2 is screwed to the bottom surface of the bottom support box 1, a control main box 3 is obliquely welded to one side edge of the bottom support box 1, a top support plate 4 is horizontally welded to the top surface of the bottom support box 1, the number of the bottom pad 2 is several, and a plurality of the bottom pads 2 are respectively and vertically inserted into the inner side edge of a bottom screw hole 25 and fixedly connected to each other through screws, the plurality of the bottom pads 2 are respectively and fixedly arranged at the bottom surface of the bottom support box 1 near the edge, the bottom pad 2 is made of hard rubber material, the control main box 3 is fixedly arranged at the corner position of a support side plate 6 near the top surface of one side edge of the bottom support box 1, the top support plate 4 is horizontally arranged at the top surface of the bottom support box 1, and the top surface of the bottom support box 1 is vertically welded to the center position of the bottom support plate 4, the top surface of the top supporting plate 4 is uniformly clamped with a plurality of driving shaft rods 5, the top surface of the top supporting plate 4 is symmetrically welded with supporting side plates 6, guide wheels 7 are clamped between the supporting side plates 6 at the side edges, the number of the driving shaft rods 5 is a plurality, the outer side edges of the plurality of driving shaft rods 5 penetrate through the openings of the clamping grooves and extend to the top surface position of the top supporting plate 4, the plurality of driving shaft rods 5 and the bending grooves 27 are arranged in parallel on the top surface of the top supporting plate 4, the plurality of driving shaft rods 5 and the control main board 40 are electrically connected with each other, the number of the supporting side plates 6 is two, the two supporting side plates 6 are respectively and horizontally symmetrically and fixedly arranged at the positions close to the two side edges of the top supporting plate 4, the two supporting side plates 6 are arranged in parallel with each other, the guide wheels 7 are clamped between the two supporting side plates 6 at the position of one side edge close to the top supporting plate 4, the top surface of the supporting side plates 6 is vertically welded upwards with a pushing cylinder 8, the top surfaces of the supporting side plates 6 are vertically upwards welded with guide posts 9, the output ends of the pushing cylinders 8 are horizontally welded with supporting cross rods 10, side edges between the supporting cross rods 10 are horizontally welded with extension plates 11, the number of the pushing cylinders 8 is four, the four pushing cylinders 8 are respectively symmetrically arranged at positions close to one ends of the top surfaces of the two supporting side plates 6 in a pairwise mode, the output ends of the pushing cylinders 8 are vertically upwards arranged, the guide posts 9 are vertically arranged at positions between the top surfaces of the supporting side plates 6 and the pushing cylinders 8, the top ends of the guide posts 9 vertically upwards penetrate through the bottom surfaces of the supporting cross rods 10 and extend to positions on the outer sides of the top surfaces, the number of the supporting cross rods 10 is two, the two supporting cross rods 10 are mutually parallelly and overlappedly arranged at the positions of the top surfaces of the supporting side plates 6, the extension plates 11 are horizontally arranged at the positions on the top surfaces of the top supporting plates 4, and sliding blocks 12 are horizontally clamped at the inner side edges of the extension plates 11, the top surface of the sliding block 12 is bolted with a drilling motor 13, the number of the sliding blocks 12 is multiple, and the multiple sliding blocks 12 are horizontally clamped at the inner side edge of the sliding groove 28, the number of the drilling motors 13 is consistent with the number of the sliding blocks 12, and the drilling motors 13 are vertically arranged on the top surface of the sliding blocks 12, the output end of the drilling motor 13 vertically penetrates the sliding blocks 12 downwards and extends to the bottom surface to be arranged at the top surface of the top supporting plate 4, the output end of the drilling motor 13 is fixedly inserted with a drilling head 14, the top surface of the top supporting plate 4 is vertically upwards welded with a supporting vertical plate 15, the bottom end of the supporting vertical plate 15 is vertically welded at the top surface of the top supporting plate 4 near the two side edges, the supporting vertical plate 15 is fixedly arranged between the supporting side plate 6 and the sliding side rod 19, the top end bolt of the supporting vertical plate 15 is horizontally connected with a horizontal cross plate 16, the top surface vertical bolt of the horizontal cross plate 16 is connected with a pressing cylinder 17, the horizontal cross plate 16 is horizontally arranged on the top surface of the top support plate 4 in a parallel shape, the number of the lower air cylinders 17 is several, the lower air cylinders 17 are arranged on the top surface of the top support plate 4 in a parallel shape, the output ends of the lower air cylinders 17 vertically penetrate through the top surface of the horizontal cross plate 16 downwards and extend to the bottom surface, the output ends of the lower air cylinders 17 are horizontally welded with bending plates 18, one side of the top surface of the top support plate 4 far away from the support side plate 4 is horizontally welded with sliding side rods 19, the bending plates 18 are horizontally arranged between the bottom support vertical plates 15 of the horizontal cross plate 16, the arrangement of the sliding side rods 19 and the arrangement of the support side plates 6 are consistent, the side of each sliding side rod 19 is horizontally provided with a sliding groove 20, one side of one sliding side rod 19 is butted with a driving box body 21, the sliding groove 20 is horizontally arranged on the side center lines of two sliding side rods 19, one side of the sliding groove 20 penetrating through one sliding side rod 19 extends to the other side, the driving box body 21 is arranged at the side position of the sliding side rod 19 penetrating through the sliding groove 20, a stop plate 22 is horizontally arranged at the side between the sliding side rods 19, an air storage tank 23 is connected with the inner side of the bottom support box 1 through a bolt, an air compressor 24 is connected with the inner side bottom surface of the bottom support box 1 through a bolt, two ends of the stop plate 22 are vertically butted at the side position between the two sliding side rods 19, the bottom surface of the stop plate 22 is butted at the top surface position of the driving shaft rod 5, the air storage tank 23 and the air compressor 24 are connected with each other through an air pipe, the air compressor 24 and the control main box 3 are electrically connected, and a bottom screw hole 25 is uniformly and vertically formed in the bottom surface of the bottom support box 1;

referring to fig. 3-4, in the embodiment of the present invention, an integrated device for manufacturing an elevator landing door is provided, wherein a shaft rod 26 is vertically inserted into a top surface of a guide wheel 7, a bending groove 27 is horizontally formed in a top surface of a top support plate 4, a sliding groove 28 is horizontally formed in a top surface of an extension plate 11, two ends of the shaft rod 26, which are far away from the guide wheel 7, are vertically inserted into top surfaces and bottom surfaces of inner sides of support side plates 6, the bending grooves 27 are horizontally formed in bottom surfaces of the bending plates 18 and are arranged in a stacked manner, the sliding groove 28 is horizontally formed in a center position of the top surface of the extension plate 11, limiting grooves 29 are horizontally formed in inner side edges of the sliding groove 28, clamping strips 30 are fixedly welded to two side edges of a sliding block 12, and the clamping strips 30 are horizontally clamped in inner side edges of the limiting grooves 29;

referring to fig. 5-7, in the embodiment of the present invention, an integrated device for manufacturing an elevator landing door is provided, wherein a vertical side of a supporting vertical plate 15 is vertically provided with two retaining grooves 31, an inner side of each retaining groove 31 is horizontally clamped with a limiting block 32, the retaining groove 31 is vertically provided at a central position of a side between the supporting vertical plates 15, the two limiting blocks 32 are symmetrically and horizontally welded at two ends of a horizontal transverse plate 16, an inner side of a driving box 21 is vertically clamped with a driving main plate 33, a side bolt of the driving main plate 33 is connected with a processing warehouse 34, a side of the driving box 34 close to a sliding side lever 19 is provided with a driving wheel 35, an inner side of the sliding groove 20 is clamped with a clamping block 36, an outer side of the driving wheel 35 is abutted to a side of the sliding side lever 19 far away from the blocking plate 22, one end of the clamping block 36 horizontally penetrates through an open end of the sliding groove 20 and extends to an outer side, and extend to perpendicular bolted connection of outside limit end and put at a side central point of drive box 21, the both ends symmetry horizontal welding of barrier plate 22 has connecting block 37, a side of control main tank 3 is inlayed and is had display screen 38, a side of control main tank 3 is inlayed and is had set key 39, the inside horizontal joint of control main tank 3 has control mainboard 40, drive mainboard 33, it sets up through electric connection between storehouse 34 and the drive wheel 35 to handle, and pass through electric connection between drive mainboard 33 and the control mainboard 40, the inside horizontal joint of control main tank 3 has processing mainboard 41, the both ends of connecting block 37 are symmetrical respectively pegged graft in the inboard side position of the inside sliding tray 20 of two slip side levers 19, control mainboard 40 sets up through electric connection with processing mainboard 41 each other.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The working principle of the invention is as follows:

the elevator door panel is horizontally conveyed to a position on one side of the top surface of a top supporting plate 4, when the elevator door panel runs to a position between supporting side plates 6, the door panel is guided to the central position of the top supporting plate 4 under the rolling action of a guide wheel 7, then a setting key 39 on the top surface of a control main box 3 is set, under the control of a control main board 40 and a processing main board 41, a driving shaft lever 5 on the top surface of the top supporting plate 4 is rotated, the door panel driving the top surface is driven to move to a specified position and then stops, a supporting cross rod 10 and an extension plate 11 move downwards under the contraction of a push flag rod 8, the supporting cross rod 10 cannot deviate under the action of a guide main 9, a drilling motor 13 driving the top surface of a sliding block 12 is pressed downwards when the extension plate 11 moves downwards, and a drilling head 14 is used for drilling the door panel below, make to drive the door plant to supporting the position operation between the riser 15 under the rotation of driving shaft pole 5 after having beaten the hole, the information of calling out is controlled in processing storehouse 34 inside at the inside drive mainboard 33 of drive box 21 simultaneously, make control drive wheel 35 and move the effect at the side of slip side lever 19, it stops to drive stop plate 22 to move apart from the appointed distance of 18 boards of bending simultaneously, then make one side top of door plant stabilize at the side position of stop plate 18 under the transmission of driving shaft pole 5, make to drive under the pushing down of air cylinder 17 and make and drive the inboard edge of board 18 of bending at clamping groove 31 and carry out extrusion motion downwards, make to extrude the inside effect of accomplishing the bending to bending groove 27 of the door plant of below, so carry out the effect of bending of many sizes many times.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (9)

1. The integrated equipment for producing and manufacturing the elevator landing door comprises a bottom supporting box (1) and is characterized in that a bottom cushion block (2) is connected to the bottom surface of the bottom supporting box (1) in a threaded mode, a control main box (3) is welded to one side edge of the bottom supporting box (1) in an inclined mode, a top supporting plate (4) is welded to the top surface of the bottom supporting box (1) in a horizontal mode, a driving shaft rod (5) is uniformly clamped to the top surface of the top supporting plate (4), supporting side plates (6) are symmetrically welded to the top surface of the top supporting plate (4), guide wheels (7) are clamped to the side edges between the supporting side plates (6), a pushing cylinder (8) is welded to the top surface of each supporting side plate (6) vertically and upwards, a guide column (9) is welded to the top surface of each supporting side plate (6) vertically and upwards, and a supporting cross rod (10) is welded to the output end of each pushing cylinder (8) horizontally, the side edge of the support cross rod (10) is horizontally welded with an extension plate (11), the inner side edge of the extension plate (11) is horizontally clamped with a sliding block (12), the top surface of the sliding block (12) is in bolted connection with a drilling motor (13), the output end of the drilling motor (13) is fixedly inserted with a drilling head (14), the top surface of the top support plate (4) is vertically upwards welded with a support vertical plate (15), the top end of the support vertical plate (15) is horizontally connected with a horizontal transverse plate (16), the top surface of the horizontal transverse plate (16) is vertically in bolted connection with a pressing cylinder (17), the output end of the pressing cylinder (17) is horizontally welded with a bending plate (18), one side of the top surface of the top support plate (4) far away from the support side plate (6) is horizontally welded with a sliding side rod (19), and the side edge of the sliding side rod (19) is horizontally provided with a sliding groove (20), one side of each sliding side rod (19) is butted with a driving box body (21), a stop plate (22) is horizontally arranged on the side between the sliding side rods (19), an air storage tank (23) is connected with the inner side of the bottom support box (1) through a bolt, an air compressor (24) is connected with the inner side bottom of the bottom support box (1) through a bolt, a bottom screw hole (25) is uniformly and vertically formed in the bottom of the bottom support box (1), a shaft rod (26) is vertically inserted into the top surface of the guide wheel (7), a bending groove (27) is horizontally formed in the top surface of the top support plate (4), a first sliding groove (28) is horizontally formed in the top surface of the extension plate (11), a limiting groove (29) is horizontally formed in the inner side edge of the first sliding groove (28), clamping strips (30) are fixedly welded on the two side edges of the sliding block (12) symmetrically, and the clamping strips (30) are horizontally clamped at the position of the limiting groove (29), the side edge of the supporting vertical plate (15) is vertically provided with a clamping groove (31), the inner side edge of the clamping groove (31) is horizontally clamped with two limiting blocks (32), the two limiting blocks (32) are respectively symmetrically and horizontally welded at two end positions of the bending plate (18), the inner side edge of the driving box body (21) is vertically clamped with a driving main plate (33), the side edge of the driving main plate (33) is in bolted connection with a processing library (34), one side edge of the driving box body (21) close to the sliding side rod (19) is provided with a driving wheel (35), the inner side edge of the sliding groove (20) is clamped with a fastening clamping block (36), one end of the fastening clamping block (36) horizontally penetrates through the open end of the sliding groove (20) and extends to the outer side edge, and extends to the center position of one side edge of the driving box body (21) through the vertical bolt at the outer side edge end, the both ends symmetry horizontal welding of barrier plate (22) has connecting block (37), the both ends of connecting block (37) are symmetrical respectively and are pegged graft in the inboard side position of the inside sliding tray (20) of two slip side levers (19), one side of control main tank (3) is inlayed and is had display screen (38), one side of control main tank (3) is inlayed and is had set up key (39), the inside horizontal joint of control main tank (3) has control mainboard (40), the inside horizontal joint of control main tank (3) has processing mainboard (41).

2. The integrated equipment for producing the elevator landing door according to claim 1, wherein the number of the bottom cushion blocks (2) is several, the bottom cushion blocks (2) are respectively and vertically inserted into the inner side edge positions of the bottom screw holes (25) and are fixedly connected with each other through threads, the bottom cushion blocks (2) are respectively and fixedly arranged at the bottom surfaces of the bottom support boxes (1) close to the edge positions, the bottom cushion blocks (2) are made of hard rubber materials, the control main box (3) is fixedly arranged at the corner positions of the support side plates (6) at one side edges of the bottom support boxes (1) close to the top surfaces, the top support plates (4) are horizontally arranged on the top surfaces of the bottom support boxes (1), and the top surfaces of the bottom support boxes (1) are vertically welded at the center positions of the bottom surfaces of the top support plates (4).

3. Integrated equipment for producing elevator landing doors according to claim 1, characterized in that the number of said driving shafts (5) is several, the outer side edges of the plurality of driving shaft levers (5) penetrate through the openings of the clamping grooves and extend to the top surface of the top supporting plate (4), the plurality of driving shaft levers (5) and the bending grooves (27) are arranged in parallel on the top surface of the top supporting plate (4), the plurality of driving shaft levers (5) and the control main board (40) are electrically connected, the number of the supporting side plates (6) is two, and two support curb plates (6) are respectively fixed in horizontal symmetry and are set up the top surface of top backup pad (4) and be close to both sides limit position, and two support curb plates (6) parallel arrangement each other, leading wheel (7) joint setting is in two support curb plates (6) between the side limit is close to a side limit position of top backup pad (4).

4. The integrated equipment for producing the elevator landing door according to claim 1, wherein the number of the pushing cylinders (8) is four, the four pushing cylinders (8) are symmetrically arranged on the top surfaces of the two supporting side plates (6) in a group two by two respectively and close to one end, the output ends of the pushing cylinders (8) are vertically arranged upwards, the guide posts (9) are vertically arranged between the pushing cylinders (8) on the top surfaces of the supporting side plates (6), the top ends of the guide posts (9) vertically and upwards penetrate through the bottom surfaces of the supporting cross rods (10) and extend to the outer side of the top surfaces, the number of the supporting cross rods (10) is two, the two supporting cross rods (10) are arranged on the top surfaces of the supporting side plates (6) in a mutually parallel and overlapped mode, and the extension plate (11) is horizontally arranged on the top surface of the top supporting plate (4).

5. The integrated equipment for producing the elevator landing door as claimed in claim 1, wherein the number of the sliding blocks (12) is multiple, the sliding blocks (12) are horizontally clamped at the inner side positions of the sliding grooves I (28), the number of the drilling motors (13) is consistent with the number of the sliding blocks (12), the drilling motors (13) are vertically arranged on the top surfaces of the sliding blocks (12), the output ends of the drilling motors (13) vertically penetrate through the sliding blocks (12) downwards and extend to the bottom surfaces to be arranged on the top surfaces of the top supporting plates (4), the bottom ends of the supporting vertical plates (15) are vertically welded on the top surfaces of the top supporting plates (4) and are close to the two side positions, and the supporting vertical plates (15) are fixedly arranged between the supporting side plates (6) and the sliding side rods (19).

6. The integrated equipment for producing the elevator landing door according to claim 1, wherein the horizontal cross plate (16) is horizontally arranged on the top surface of the top support plate (4) in parallel, the number of the lower air cylinders (17) is several, the lower air cylinders (17) are arranged on the top surface of the top support plate (4) in parallel, the output ends of the lower air cylinders (17) vertically penetrate through the top surface of the horizontal cross plate (16) downwards to extend to the bottom surface, the bending plate (18) is horizontally arranged between the bottom support vertical plates (15) of the horizontal cross plate (16), the arrangement of the sliding side rods (19) and the support side plates (6) are kept consistent, the sliding grooves (20) are horizontally arranged on the side center lines of the two sliding side rods (19), and the sliding grooves (20) penetrate through one side edge of one sliding side rod (19) to extend to the other side edge position, the driving box body (21) is arranged at the side position of one sliding side rod (19) penetrated by the sliding groove (20).

7. The integrated equipment for producing the elevator landing door is characterized in that two ends of the blocking plate (22) are vertically butted at the side position between the two sliding side rods (19), the bottom surface of the blocking plate (22) is butted at the top surface position of the driving shaft rod (5), the air storage tank (23) and the air compressor (24) are connected and arranged through air pipes, the air compressor (24) and the control main box (3) are electrically connected, two ends, far away from the guide wheel (7), of the shaft rod (26) are vertically plugged at the top surface and the bottom surface position of the inner side of the supporting side plate (6), the bending groove (27) is horizontally arranged at the bottom surface position of the bending plate (18) and arranged in a superposed mode, and the first sliding groove (28) is horizontally arranged at the center position of the top surface of the extension plate (11).

8. The integrated equipment for producing the landing doors of the elevators as claimed in claim 1, wherein the blocking slot (31) is vertically opened at the center of the side edge between the supporting vertical plates (15), the driving main board (33), the processing warehouse (34) and the driving wheel (35) are electrically connected, and the driving main board (33) is electrically connected with the control main board (40).

9. The integrated equipment for producing the landing door of the elevator according to claim 1, wherein the outside edge of the driving wheel (35) abuts against a side edge of the sliding side lever (19) far away from the blocking plate (22), and the control main plate (40) and the processing main plate (41) are electrically connected with each other.

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