CN117207003A - A kind of intelligent processing equipment for pipe fittings - Google Patents

Abstract

The invention relates to the technical field of pipe fitting machining, in particular to intelligent pipe fitting machining equipment which comprises a frame body, a first motor, a polishing disc, a shifting mechanism and a fixing mechanism, wherein the shifting mechanism comprises a PLC (programmable logic controller), a driving part, an arc-shaped block, a stress rod, a sliding block, a vertical plate, a transverse plate and two placing parts.

Description

A kind of intelligent processing equipment for pipe fittings

Technical field

The invention relates to the technical field of pipe fitting processing, and in particular to an intelligent pipe fitting processing equipment.

Background technique

Stainless steel pipe fittings are a type of pipe fittings. They are made of stainless steel, so they are called stainless steel pipe fittings. Stainless steel pipe fittings are a general term for various stainless steel pipe connection workpieces. They can be divided into different categories according to shape, use, connection method, etc., with It is easy to install, has high performance and durability, and is widely used in various pipeline construction and installation. During the processing of stainless steel pipe fittings, it is usually necessary to polish the end face. When polishing the end face of stainless steel pipe fittings that need to be polished, , usually pipe fittings grinding and processing equipment is used for grinding.

However, when grinding with existing grinding equipment, the pipe fittings are fixed and then manually moved to the grinding disc for grinding, which results in high labor intensity for production personnel.

Contents of the invention

The purpose of the present invention is to provide an intelligent processing equipment for pipe fittings, aiming to solve the problem in the prior art that the existing grinding equipment fixes the pipe fittings and then manually moves the pipe fittings to the grinding disc for grinding, resulting in production Technical problems with high labor intensity for personnel.

In order to achieve the above object, the present invention adopts an intelligent pipe fitting processing equipment, including a frame body, a first motor, a grinding disc, a shifting mechanism and a fixing mechanism. The first motor is installed on the frame body, and the third motor is installed on the frame body. The output end of a motor is fixedly connected to the grinding disc. The shifting mechanism includes a PLC controller, a driving part, an arc block, a force-bearing rod, a slide block, a vertical plate, a horizontal plate and two placing parts. The frame body is provided with a chute, the slide block is slidingly connected to the chute, the driving member is fixedly connected to the frame body, the output end of the driving member is fixedly connected to the arc block, and the arc block is fixedly connected to the frame body. The shape block is provided with a through hole, and the through hole is in an arc shape. One end of the force-bearing rod is fixedly connected to the slider and is located below the slider. The other end of the force-bearing rod is inserted into the In the through hole, the PLC controller is arranged on the frame, the vertical plate and the horizontal plate are fixedly connected to the slider, the vertical plate is located above the slider, and two The placing parts are all arranged on the horizontal plate, the fixing mechanism is arranged on the vertical plate, and the fixing mechanism, the driving part and the first motor are all electrically connected to the PLC control.

Wherein, the fixing mechanism includes a second motor, a disk, a resisting rod, a hollow block and a pressing unit, the vertical plate is provided with a groove, the pressing unit is slidingly connected to the groove, and the hollow block The block is fixedly connected to the pressing unit, the hollow block is provided with a resisting groove, the second motor is fixedly connected to the vertical plate, the output end of the second motor is fixedly connected to the disc, and the resisting One end of the holding rod is fixedly connected to the disc, and the other end of the resisting rod is inserted into the resisting groove.

Wherein, the driving member includes a mounting plate and a third motor, the mounting plate is fixedly connected to the frame, and the third motor is installed on the mounting plate.

Wherein, the pressing unit includes a block and a pressing member, the block is slidingly connected to the groove, and the pressing member is fixedly connected to the block.

Wherein, the intelligent pipe fitting processing equipment also includes a material guide component, and the material guide component is arranged on one side of the frame body.

Wherein, the material guide assembly includes a material guide plate, a conveyor belt and two limiting rings. The material guide plate is fixedly connected to the frame body and is located on one side of the frame body. The conveyor belt is placed on the Below the material guide plate, the two limiting rings are arranged on the conveyor belt.

Wherein, the frame body is also provided with a rounded corner structure, and the rounded corner structure is provided on the side of the frame body close to the conveyor belt.

An intelligent processing equipment for pipe fittings of the present invention, by setting the shifting mechanism and the fixing mechanism, during specific use, parameters are set on the PLC controller, and the pipe fittings to be processed are placed on two of the On the placement piece, the PLC controller controls the fixing mechanism and the first motor to start. The fixing mechanism fixes the pipe fittings. The first motor drives the grinding disc to rotate. After the fixing is completed, the PLC The controller controls the driving member to start, and the driving member drives the arc-shaped block to rotate. While the arc-shaped block rotates, it drives the through hole to slide on the outer wall of the force-bearing rod. At this time, the arc-shaped block When the shape block rotates, the force-bearing rod is driven to move, the force-bearing rod drives the slider to move in the direction of the grinding disc in the chute, and the slider drives the horizontal plate to move. The pipe fitting is driven to move so that the end surface of the pipe fitting is in contact with the grinding disc for polishing. After the grinding is completed, the driving member rotates in reverse direction to drive the pipe fitting away from the grinding disc. The fixing mechanism no longer fixes the pipe fitting and takes out the pipe fitting. That’s it. In this way, the pipe fittings can be moved more conveniently for grinding, which reduces the labor intensity of production personnel.

Description of the drawings

In order to explain the embodiments of the present invention or the technical solutions in the prior art more clearly, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are only These are some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained based on these drawings without exerting creative efforts.

Figure 1 is a schematic structural diagram of the first embodiment of the present invention.

Figure 2 is a perspective view of the first embodiment of the present invention.

Fig. 3 is a front view of the first embodiment of the present invention.

Fig. 4 is a structural cross-sectional view along line A-A of Fig. 3 of the present invention.

Figure 5 is a schematic structural diagram of the second embodiment of the present invention.

Figure 6 is a schematic structural diagram of the third embodiment of the present invention.

101-frame, 102-first motor, 103-grinding disc, 104-PLC controller, 105-arc block, 106-force rod, 107-sliding block, 108-vertical plate, 109-horizontal plate, 110 -Placement piece, 111-second motor, 112-disc, 113-resistance rod, 114-hollow block, 115-mounting plate, 116-third motor, 117-block, 118-pressure piece, 119- Chute, 120-groove, 121-resistance groove, 122-through hole, 201-guide plate, 202-conveyor belt, 203-limit ring, 204-rounding structure, 301-cover body, 302-pipe , 303-air pump, 304-collection box, 305-force application piece.

Detailed ways

First embodiment:

Please refer to Figures 1 to 4. Figure 1 is a schematic structural diagram of the first embodiment of the present invention, Figure 2 is a perspective view of the first embodiment of the present invention, and Figure 3 is a front view of the first embodiment of the present invention. Fig. 4 is a structural cross-sectional view along line A-A of Fig. 3 of the present invention.

The invention provides an intelligent processing equipment for pipe fittings: it includes a frame body 101, a first motor 102, a grinding disc 103, a shifting mechanism and a fixing mechanism. The shifting mechanism includes a PLC controller 104, a driving part, an arc block 105, Force rod 106, slider 107, vertical plate 108, horizontal plate 109 and two placing parts 110. The fixing mechanism includes a second motor 111, a disc 112, a resisting rod 113, a hollow block 114 and a pressing unit. The driving member includes a mounting plate 115 and a third motor 116, and the pressing unit includes a block 117 and a pressing member 118. The foregoing solution solves the problem of grinding pipe fittings with existing grinding equipment in the prior art. After being fixed, the pipe fittings are manually moved to the grinding disc 103 for grinding, which causes a technical problem of high labor intensity for production personnel.

For this specific embodiment, the first motor 102 is installed on the frame 101, the output end of the first motor 102 is fixedly connected to the grinding disc 103, and the first motor 102 drives the grinding disc. 103 rotates, and the end surface of the pipe comes into contact with the grinding disc 103 for grinding.

Among them, the frame body 101 is provided with a chute 119, the slide block 107 is slidingly connected to the chute 119, the driving member is fixedly connected to the frame body 101, and the output end of the driving member is connected to the chute 119. The arc-shaped block 105 is fixedly connected. The arc-shaped block 105 is provided with a through hole 122. The through hole 122 is in an arc shape. One end of the force-bearing rod 106 is fixedly connected to the slider 107 and is located on the slider. Below the block 107, the other end of the force rod 106 is inserted into the through hole 122. The PLC controller 104 is arranged on the frame 101. The vertical plate 108 and the horizontal plate 109 are both Fixedly connected to the slider 107, the vertical plate 108 is located above the slider 107, the two placing pieces 110 are both arranged on the horizontal plate 109, and the fixing mechanism is arranged on the vertical plate. 108, the fixing mechanism, the driving member and the first motor 102 are all electrically connected to the PLC control. By arranging the shifting mechanism and the fixing mechanism, during specific use, when the The parameters are set on the PLC controller 104, and the pipe fittings to be processed are placed on the two placing parts 110. The PLC controller 104 controls the fixing mechanism and the first motor 102 to start, and the fixing mechanism The pipe fitting is fixed, and the first motor 102 drives the grinding disc 103 to rotate. After the fixation is completed, the PLC controller 104 controls the driving member to start, and the driving member drives the arc block 105 to rotate. The arc-shaped block 105 drives the through hole 122 to slide on the outer wall of the force-receiving rod 106 while rotating. At this time, the arc-shaped block 105 drives the force-receiving rod 106 to move while rotating. The force-receiving rod 106 moves. 106 drives the slider 107 to move in the direction of the grinding disc 103 in the chute 119. The slider 107 drives the horizontal plate 109 to move, thereby driving the pipe fitting to move, so that the end surface of the pipe fitting is in contact with the grinding plate 103. The disc 103 comes into contact for grinding. After the grinding is completed, the driving member rotates in reverse to drive the pipe fitting away from the grinding disc 103. The fixing mechanism no longer fixes the pipe fitting, and the pipe fitting can be taken out. In this way, it can be more convenient It drives the pipe fittings to move for grinding, which reduces the labor intensity of production personnel.

Secondly, the vertical plate 108 is provided with a groove 120, the pressing unit is slidingly connected to the groove 120, the hollow block 114 is fixedly connected to the pressing unit, and the hollow block 114 is provided with a resisting groove 121 , the second motor 111 is fixedly connected to the vertical plate 108, the output end of the second motor 111 is fixedly connected to the disc 112, and one end of the resisting rod 113 is fixedly connected to the disc 112 , the other end of the resisting rod 113 is inserted into the resisting groove 121. When it is necessary to fix the pipe, the second motor 111 is turned on, and the output end of the second motor 111 drives the disc. 112 rotates, the disc 112 drives the resisting rod 113 to slide in the resisting groove 121, and the resisting rod 113 drives the hollow block 114 to move while sliding in the resisting groove 121. The hollow block 114 drives the pressing unit downward to compress and fix the pipe fittings.

At the same time, the mounting plate 115 is fixedly connected to the frame 101, and the third motor 116 is installed on the mounting plate 115. By arranging the mounting plate 115 and the third motor 116, it is possible to pass the The mounting plate 115 installs the third motor 116 on the frame 101 .

In addition, the block 117 is slidingly connected to the groove 120, and the pressing member 118 is fixedly connected to the block 117. By arranging the block 117 and the pressing member 118, in the hollow When the block 114 moves, the hollow block 114 drives the pressing member 118 to compress the pipe fitting.

Using the intelligent processing equipment for pipe fittings in this embodiment, by setting the shifting mechanism and the fixing mechanism, during specific use, parameters are set on the PLC controller 104, and the pipe fittings to be processed are placed on both sides. On each of the placing parts 110, the PLC controller 104 controls the fixing mechanism and the first motor 102 to start, the fixing mechanism fixes the pipe fittings, and the first motor 102 drives the grinding disc 103 to rotate. , after the fixation is completed, the PLC controller 104 controls the driving member to start, the driving member drives the arc block 105 to rotate, and the arc block 105 drives the through hole 122 to rotate in the The outer wall of the force-receiving rod 106 slides. At this time, the arc-shaped block 105 rotates and drives the force-receiving rod 106 to move. The force-receiving rod 106 drives the slider 107 toward the sliding groove 119 . The direction of the grinding disc 103 moves, and the slider 107 drives the horizontal plate 109 to move, thereby driving the pipe fitting to move, so that the end surface of the pipe fitting contacts the grinding disc 103 for grinding. After the grinding is completed, the driving member rotates in the opposite direction. The pipe fittings are driven away from the grinding disc 103, and the fixing mechanism no longer fixes the pipe fittings. The pipe fittings can be taken out. In this way, the pipe fittings can be more conveniently moved for grinding, which reduces the labor intensity of the production personnel. When it is necessary to polish the pipe fittings, When the pipe fitting is fixed, the second motor 111 is turned on, and the output end of the second motor 111 drives the disc 112 to rotate, and the disc 112 drives the resisting rod 113 in the resisting groove 121 Sliding, the resisting rod 113 drives the hollow block 114 to move while sliding in the resisting groove 121. The hollow block 114 drives the pressing unit to move downward to compress and fix the pipe fittings. By setting the The mounting plate 115 and the third motor 116 enable the third motor 116 to be installed on the frame 101 through the mounting plate 115 .

Second embodiment:

Based on the first embodiment, please refer to FIG. 5 , which is a schematic structural diagram of the second embodiment of the present invention.

The invention provides an intelligent processing equipment for pipe fittings and further includes a material guide assembly, which includes a guide plate 201, a conveyor belt 202 and two limiting rings 203.

For this specific embodiment, the guide assembly is provided on one side of the frame 101. By providing the guide assembly, the polished pipe can be guided and transported to the next process.

Among them, the material guide plate 201 is fixedly connected to the frame body 101 and is located on one side of the frame body 101. The conveyor belt 202 is placed below the material guide plate 201, and the two limiting rings 203 are all arranged on the conveyor belt 202. The polished pipe fittings flow to the conveyor belt 202 through the guide plate. The conveyor belt 202 transports the pipe fittings to the downward moving process. The two limiting rings 203 can The pipe is limited to prevent it from falling off the conveyor belt 202 .

Secondly, the rounded corner structure 204 is provided on the side of the frame body 101 close to the conveyor belt 202. By providing the rounded corner structure 204, the frame body 101 can be prevented from damaging the pipe fittings.

Using an intelligent pipe fitting processing equipment in this embodiment, the polished pipe fittings flow to the conveyor belt 202 through the guide plate. The conveyor belt 202 transports the pipe fittings to the downward movement process. The two limiting rings 203 The pipe fittings can be limited to prevent them from falling off the conveyor belt 202. By providing the rounded corner structure 204, the frame body 101 can be prevented from damaging the pipe fittings.

Third embodiment:

Based on the second embodiment, please refer to FIG. 6 , which is a schematic structural diagram of the third embodiment of the present invention.

The invention provides an intelligent pipe fitting processing equipment, which also includes a cover body 301, a pipe 302, an air pump 303, a collection box 304 and a force applying member 305.

For this specific embodiment, the cover 301 is arranged on the frame 101 and covers the grinding disc 103. Both ends of the pipe 302 are connected to the cover 301 and the collection box 304 respectively. , the air pump 303 is arranged on the pipe 302. When polishing, the air pump 303 is started, and the air pump 303 extracts the waste generated by polishing through the pipe 302 and sends it to the collection box 304. Inside, this can prevent waste chips from flying and facilitate subsequent processing.

The force-applying member 305 is fixedly connected to the collection box 304, and is sent to the force-applying member 305 to facilitate the movement of the collection box 304.

Using the intelligent processing equipment for pipe fittings in this embodiment, when polishing, the air pump 303 is started, and the air pump 303 extracts the waste generated by polishing through the pipe 302 and sends it to the collection box 304. This can prevent the waste chips from flying and facilitate subsequent processing. By sending them to the force applying member 305, the collection box 304 can be moved easily.

What is disclosed above is only a preferred embodiment of the present invention. Of course, it cannot be used to limit the scope of the present invention. Those of ordinary skill in the art can understand all or part of the processes for implementing the above embodiments and according to the rights of the present invention. Equivalent changes to the requirements still fall within the scope of the invention.

Claims (7)

1. The intelligent pipe fitting processing equipment comprises a frame body, a first motor and a polishing disc, wherein the first motor is arranged on the frame body, the output end of the first motor is fixedly connected with the polishing disc, the intelligent pipe fitting processing equipment is characterized in that,

the device also comprises a shifting mechanism and a fixing mechanism;

the shifting mechanism comprises a PLC controller, a driving piece, an arc-shaped block, a stress rod, a sliding block, a vertical plate, a transverse plate and two placing pieces, wherein the frame body is provided with a sliding groove, the sliding block is in sliding connection with the sliding groove, the driving piece is fixedly connected with the frame body, the output end of the driving piece is fixedly connected with the arc-shaped block, the arc-shaped block is provided with a through hole, the through hole is arc-shaped, one end of the stress rod is fixedly connected with the sliding block and is located below the sliding block, the other end of the stress rod is inserted into the through hole, the PLC controller is arranged on the frame body, the vertical plate and the transverse plate are both fixedly connected with the sliding block, the vertical plate is located above the sliding block, the two placing pieces are both arranged on the transverse plate, the fixing mechanism is arranged on the vertical plate, and the driving piece and the first motor are both electrically connected with the PLC controller.

2. The intelligent pipe machining equipment according to claim 1, wherein,

the fixing mechanism comprises a second motor, a disc, a supporting rod, a hollow block and a pressing unit, wherein the vertical plate is provided with a groove, the pressing unit is in sliding connection with the groove, the hollow block is fixedly connected with the pressing unit, the hollow block is provided with a supporting groove, the second motor is fixedly connected with the vertical plate, the output end of the second motor is fixedly connected with the disc, one end of the supporting rod is fixedly connected with the disc, and the other end of the supporting rod is inserted into the supporting groove.

3. The intelligent pipe machining equipment according to claim 2, wherein,

the driving piece comprises a mounting plate and a third motor, wherein the mounting plate is fixedly connected with the frame body, and the third motor is mounted on the mounting plate.

4. The intelligent pipe machining apparatus according to claim 3, wherein,

the compressing unit comprises a block body and a compressing piece, wherein the block body is in sliding connection with the groove, and the compressing piece is fixedly connected with the block body.

5. The intelligent pipe machining apparatus according to claim 4, wherein,

the intelligent pipe fitting processing equipment further comprises a material guiding assembly, and the material guiding assembly is arranged on one side of the frame body.

6. The intelligent pipe machining apparatus according to claim 5, wherein,

the guide assembly comprises a guide plate, a conveyor belt and two limiting rings, wherein the guide plate is fixedly connected with the frame body and is positioned on one side of the frame body, the conveyor belt is arranged below the guide plate, and the two limiting rings are arranged on the conveyor belt.

7. The intelligent pipe machining apparatus according to claim 6, wherein,

the frame body is also provided with a rounding structure, and the rounding structure is arranged on one side, close to the conveying belt, of the frame body.