CN112355659A - Corner post bending production line - Google Patents

Abstract

The invention discloses a corner post bending production line, which comprises: the device comprises a working frame, a workpiece pushing mechanism and a workpiece conveying mechanism, wherein a processing waiting area, a processing area and a discharging area are sequentially arranged on the working frame along a linear direction; the chamfering machine is positioned beside the processing area; the feeding device is positioned beside the processing waiting area; the conveying line comprises a first conveying device, a second conveying device and a third conveying device which are arranged along the linear direction, and the conveying starting end of the first conveying device is positioned beside the discharging area; the invention provides a production line capable of continuously chamfering and bending workpieces, which reduces the steps of workpiece transfer, improves the whole processing production efficiency and is more flexible in the control of production rhythm.

Description

Corner post bending production line

Technical Field

The invention relates to plate processing equipment, in particular to a corner post bending production line.

Background

When the corner post is produced, the steps of chamfering, bending and the like are usually carried out, if chamfering is needed, a workpiece needs to be fed to a chamfering machine, the chamfering machine is a special tool for chamfering and beveling the front end surface of a pipeline or a flat plate, the principle of the chamfering machine is that a motor drives an integral rolling and washing cutter head through a speed reducer, milling and chamfering operation is carried out through the rolling of the cutter head, blanking and collecting after chamfering the plate, then transferring the workpiece to a bending machine, bending the workpiece by the bending machine, wherein the bending machine is provided with a cutter capable of moving in a three-dimensional direction, bending the workpiece by using the cutter to obtain a finished product, the workpiece needs to be continuously transferred in the whole process so as to carry out different processing procedures by using different equipment, and in the transfer process, workers need to wait for transferring the workpieces from the previous equipment to the next equipment, so that the whole production and processing process is low in efficiency.

Disclosure of Invention

The invention aims to provide a corner post bending production line, which aims to solve one or more technical problems in the prior art and at least provides a beneficial selection or creation condition.

The solution of the invention for solving the technical problem is as follows:

a corner post bending production line comprises: the device comprises a working frame, a workpiece pushing mechanism and a workpiece conveying mechanism, wherein a processing waiting area, a processing area and a discharging area are sequentially arranged on the working frame along a linear direction, and the workpiece pushing mechanism is provided with a push plate capable of moving back and forth between the processing waiting area and the discharging area; the chamfering machine is positioned beside the processing area; the feeding device is positioned beside the processing waiting area; the conveying line comprises a first conveying device, a second conveying device and a third conveying device which are arranged along the linear direction, the conveying direction of the first conveying device and the conveying direction of the second conveying device are the same as the conveying direction of the third conveying device, and the conveying starting end of the first conveying device is positioned beside the discharging area; and the bending device comprises a bending machine and a mechanical arm, and the bending machine and the mechanical arm are both positioned beside the conveying tail end of the third conveying device.

The technical scheme at least has the following beneficial effects: the workpiece is firstly fed to the processing waiting area by the feeding device, a push plate in the workpiece pushing mechanism can push the workpiece to the processing area from the processing waiting area, then the workpiece positioned on the processing area is chamfered by a chamfering machine beside the processing area, after the chamfering is finished, the workpiece on the processing area is pushed to the discharging area by the workpiece pushing mechanism and then is pushed to the conveying line from the discharging area, the conveying line is divided into a first conveying device, a second conveying device and a third conveying device, products pushed out from the discharging area are pushed onto the first conveying device, and when the workpiece needs to be directly bent, the first conveying device, the second conveying device and the third conveying device can be directly started, so that the products sequentially pass through the first conveying device, the second conveying device and the third conveying device, The second conveying device and the third conveying device are used for transferring the workpieces to the bending machine finally, and storing products pushed out of the discharging area can be carried out so as to further distribute the workpieces conveniently.

As a further improvement of the above technical solution, a plurality of first supporting frame bodies are arranged on the discharging area at intervals in the left-right direction, a second supporting frame body is arranged at a position on the processing area opposite to each first supporting frame body, a third supporting frame body is arranged at a position on the processing waiting area opposite to each second supporting frame body, and a collecting box is arranged below the second supporting frame bodies and provided with a collecting cavity with an upward opening. The structural design of framework can provide the space that drops for work piece waste material, piece etc. that produce man-hour, can directly drop to the below of collection box, collects in the collection cavity, can not pile up on table surface, need not set up clean mechanism in addition again, reduces whole equipment cost.

As a further improvement of the above technical scheme, a first lifting cylinder is arranged beside the second supporting frame body, the first lifting cylinder is arranged on the working frame, a baffle is arranged on the first lifting cylinder, and the first lifting cylinder can drive the baffle to move up and down. The first lifting cylinder is used for providing driving force for vertical movement, so that the baffle can extend out of or retract into the top surface of the second supporting frame body, and blocking or avoiding of the workpiece is achieved.

As a further improvement of the technical scheme, at least two workpiece pushing mechanisms are arranged in the front-back direction. The workpiece pushing mechanisms can act simultaneously, so that the time for resetting the push plate is reduced, and the workpiece transferring efficiency is improved.

As a further improvement of the above technical solution, the workpiece pushing mechanism includes a first translation cylinder and a translation seat, the first translation cylinder is disposed on the working frame, the translation seat is disposed on the first translation cylinder, the first translation cylinder can drive the translation seat to move back and forth between the first supporting frame body and the third supporting frame body, the push plate is rotatably connected to the translation seat, the rotation axis of the push plate extends in the left-right direction, the rear side surface of the push plate has a guiding section, and the guiding section is inclined forward from bottom to top. When the push pedal need promote the work piece, the push pedal moves forward to the leading flank and the work piece contact of push pedal, the push pedal is located and can not rotate on the translation seat, and when the push pedal resets, the push pedal moves backward, and the guide section contacts with the work piece, and the push pedal makes whole emergence rotation along with the guide of guide section, avoids producing between the work piece to interfere and leads to can not continue rearward movement.

As a further improvement of the above technical solution, the feeding device includes a transfer frame, a second translation cylinder, a first translation plate, a second lifting cylinder, a feeding plate, and a first pneumatic chuck, the transfer frame is disposed on the working frame, the second translation cylinder is disposed on the transfer frame, the first translation plate is disposed on the second translation cylinder, the second translation cylinder can drive the first translation plate to move linearly in a horizontal direction, the second lifting cylinder is disposed on the first translation plate, the feeding plate is disposed on the second lifting cylinder, the second lifting cylinder can drive the feeding plate to move in an up-and-down direction, the first pneumatic chuck is disposed on the feeding plate, and the first pneumatic chuck is connected to a first vacuum pump through a pipeline. Go up the flitch and can carry out translation, elevating movement under the drive of second translation cylinder, second lift cylinder, recycle first pneumatic chuck and adsorb the work piece to with work piece material loading to processing waiting area department.

As a further improvement of the above technical solution, the first conveying device is a first roller conveyor, the second conveying device is a second roller conveyor, and the third conveying device is a third roller conveyor. Namely, the first roller conveyor, the second roller conveyor and the third roller conveyor are used for conveying the workpieces.

As a further improvement of the above technical solution, a material transporting vehicle and a transferring and transferring device are disposed beside the second conveying device, the transferring and transferring device includes a transferring frame, a third translation cylinder, a second translation plate, a third lifting cylinder, a transferring plate, and a second pneumatic chuck, the transferring frame is disposed on the second conveying device, the third translation cylinder is disposed on the transferring frame, the second translation plate is disposed on the third translation cylinder, the third translation cylinder can drive the second translation plate to move horizontally between the second conveying device and the material transporting vehicle, the third lifting cylinder is disposed on the second translation plate, the transferring plate is disposed on the third lifting cylinder, the third lifting cylinder can drive the transferring plate to move vertically, and the second pneumatic chuck is disposed on the transferring plate, the second pneumatic sucker is connected with a second vacuum pump through a pipeline. The transfer plate can be driven by the third translation cylinder and the third lifting cylinder to respectively perform translation and lifting motions, the second pneumatic sucker on the transfer plate sucks up the workpiece, and the workpiece can be transferred to the material transporting vehicle from the second conveying device, so that the workpiece on the second conveying device can be automatically transferred, and the material transporting vehicle can conveniently transfer the transferred workpiece.

As a further improvement of the technical scheme, the bending machine is provided with two bending machines beside the mechanical arm. The mechanical arm can transfer the workpiece to the two bending machines alternately for processing and bending, and the processing efficiency is improved.

As a further improvement of the technical scheme, a blanking roller conveyor is arranged between the two bending machines. The bent workpiece can be transferred to a discharging roller conveyor by a mechanical arm, so that the material stacking is facilitated.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures are only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from them without inventive effort.

FIG. 1 is a side view schematic of the inventive work head;

fig. 2 is an overall top view schematic diagram of the present invention.

In the drawings: 100-a working frame, 110-a first supporting frame body, 120-a second supporting frame body, 130-a third supporting frame body, 140-a workpiece pushing mechanism, 141-a push plate, 150-a first lifting cylinder, 151-a baffle, 160-a collecting box, 200-a chamfering machine, 310-a first conveying device, 320-a second conveying device, 330-a third conveying device, 410-a bending machine, 420-a mechanical arm, 510-a material transporting vehicle, 520-a transfer and transfer device and 600-a blanking roller conveyor.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the connection relations mentioned herein do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection accessories according to the specific implementation situation. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Referring to fig. 1 and 2, a corner post bending production line includes: the machining device comprises a working frame 100, wherein a machining waiting area, a machining area and a discharging area are sequentially arranged on the working frame 100 along a linear direction, a workpiece pushing mechanism 140 is further arranged on the working frame 100, and the workpiece pushing mechanism 140 is provided with a push plate 141 capable of moving back and forth between the machining waiting area and the discharging area; a chamfering machine 200 located beside the machining zone; the feeding device is positioned beside the processing waiting area; a conveying line including a first conveying device 310, a second conveying device 320, and a third conveying device 330 arranged in a linear direction, wherein a conveying direction of the first conveying device 310 and a conveying direction of the second conveying device 320 are the same as a conveying direction of the third conveying device 330, and a conveying start end of the first conveying device 310 is located beside the discharging area; and the bending device comprises a bending machine 410 and a mechanical arm 420, and the bending machine 410 and the mechanical arm 420 are positioned beside the conveying end of the third conveying device 330.

As can be seen from the above, the work rack 100 is provided with a processing waiting area for placing a workpiece to be processed, a processing area for placing a workpiece being processed, and a discharging area for placing a processed workpiece, the workpiece is first loaded to the processing waiting area by the loading device, the workpiece can be pushed to the processing area from the processing waiting area by the pushing plate 141 in the workpiece pushing mechanism 140, then the workpiece located on the processing area is chamfered by the chamfering machine 200 beside the processing area, after the chamfering is completed, the workpiece on the processing area is pushed to the discharging area by the workpiece pushing mechanism 140, and then pushed to the conveying line from the discharging area, the conveying line is divided into three parts, namely, a first conveying device 310, a second conveying device 320 and a third conveying device 330, products pushed out from the discharging area are pushed onto the first conveying device 310, and when the workpiece needs to be directly bent, the first conveying device 310, a second conveying device 310, a third conveying device and a fourth conveying device are directly, The second conveying device 320 and the third conveying device 330 enable products to sequentially pass through the first conveying device 310, the second conveying device 320 and the third conveying device 330, and finally the workpiece is transferred to the bending machine 410 through the mechanical arm 420, and the products pushed out of the discharging area can be stored so as to be convenient for further distribution of the workpiece.

In order to facilitate cleaning and collecting of waste materials and debris generated by processing of a workpiece, in this embodiment, a plurality of first support frame bodies 110 are arranged on the discharge area at intervals in the left-right direction, a second support frame body 120 is arranged at a position on the processing area, which is opposite to each first support frame body 110, a third support frame body 130 is arranged at a position on the processing waiting area, which is opposite to each second support frame body 120, a collection box 160 is arranged below the second support frame bodies 120, and the collection box 160 has a collection cavity with an upward opening. The structural design of framework can provide the space that drops for work piece waste material, piece etc. that produce man-hour, can directly drop to the below of collection box 160, collects in collecting the cavity, can not pile up on table surface, need not set up clean mechanism in addition again, reduces whole equipment cost.

In order to avoid the pushing plate 141 pushing the workpiece to pass through the position, in this embodiment, a first lifting cylinder 150 is disposed beside the second supporting frame 120, the first lifting cylinder 150 is disposed on the working frame 100, a baffle 151 is disposed on the first lifting cylinder 150, and the first lifting cylinder 150 can drive the baffle 151 to move up and down. That is, the first lifting cylinder 150 provides a driving force for moving up and down, so that the blocking plate 151 can extend out or retract into the top surface of the second supporting frame 120, thereby blocking or avoiding the workpiece.

As a further embodiment of the workpiece pushing mechanism 140, at least two workpiece pushing mechanisms 140 are arranged in the front-rear direction. The plurality of workpiece pushing mechanisms 140 can simultaneously operate, so that the time for resetting the push plate 141 is reduced, and the efficiency of transferring workpieces is improved.

Workpiece pushing mechanism 140 mainly has push pedal 141 that can remove the propelling movement to the work piece, workpiece pushing mechanism 140 includes first translation cylinder and translation seat, first translation cylinder set up in on the workstation 100, the translation seat set up in on the first translation cylinder, first translation cylinder can drive the translation seat is in first braced frame body 110 with round trip movement between the third braced frame body 130, push pedal 141 rotate connect in on the translation seat, push pedal 141's axis of rotation extends along left right direction, push pedal 141's trailing flank has the guide section, the guide section is by lower supreme slope forward. When the push plate 141 needs to push a workpiece, the push plate 141 moves forwards, the front side surface of the push plate 141 is in contact with the workpiece, the push plate 141 is located on the translation seat and cannot rotate, when the push plate 141 is reset, the push plate 141 moves backwards, the guide section is in contact with the workpiece, the push plate 141 rotates integrally along with the guide of the guide section, and the situation that the push plate 141 cannot move backwards continuously due to interference with the workpiece is avoided.

The feeding device is mainly used for feeding a workpiece to the working frame 100, and in this embodiment, the feeding device includes a transfer frame, a second translation cylinder, a first translation plate, a second lifting cylinder, a feeding plate, and a first pneumatic chuck, the transfer frame is disposed on the working frame 100, the second translation cylinder is disposed on the transfer frame, the first translation plate is disposed on the second translation cylinder, the second translation cylinder can drive the first translation plate to linearly move in a horizontal direction, the second lifting cylinder is disposed on the first translation plate, the feeding plate is disposed on the second lifting cylinder, the second lifting cylinder can drive the feeding plate to move in an up-and-down direction, the first pneumatic chuck is disposed on the feeding plate, and the first pneumatic chuck is connected to a first vacuum pump through a pipeline. Go up the flitch and can carry out translation, elevating movement under the drive of second translation cylinder, second lift cylinder, recycle first pneumatic chuck and adsorb the work piece to with work piece material loading to processing waiting area department.

In some embodiments, the first conveyor 310 is a first roller conveyor, the second conveyor 320 is a second roller conveyor, and the third conveyor 330 is a third roller conveyor. Namely, the first roller conveyor, the second roller conveyor and the third roller conveyor are used for conveying the workpieces.

When the production rhythm needs to be controlled, if the workpiece on the second conveying device 320 needs to be discharged and collected, in order to improve the automatic production, in this embodiment, a material transporting vehicle 510 and a transferring and transferring device 520 are disposed beside the second conveying device 320, the transferring and transferring device 520 includes a transfer frame, a third translation cylinder, a second translation plate, a third lifting cylinder, a transferring plate, and a second pneumatic chuck, the transfer frame is disposed on the second conveying device 320, the third translation cylinder is disposed on the transfer frame, the second translation plate is disposed on the third translation cylinder, the third translation cylinder can drive the second translation plate to move horizontally between the second conveying device 320 and the material transporting vehicle 510, the third lifting cylinder is disposed on the second translation plate, the transferring plate is disposed on the third lifting cylinder, the third lifting cylinder can drive the conveying plate to move in the vertical direction, the second pneumatic sucker is arranged on the conveying plate, and the second pneumatic sucker is connected with a second vacuum pump through a pipeline. The transfer plate can be driven by the third translation cylinder and the third lifting cylinder to respectively perform translation and lifting motions, the second pneumatic suction cup on the transfer plate sucks up the workpiece, and the workpiece can be transferred from the second conveying device 320 to the material transporting vehicle 510, so that the workpiece on the second conveying device 320 can be automatically transferred, and the material transporting vehicle 510 can conveniently transfer the transferred workpiece.

In order to further improve the overall production efficiency, in this embodiment, two bending machines 410 are disposed beside the mechanical arm 420. The mechanical arm 420 can alternately transfer the workpiece to the two bending machines 410 for processing and bending, and the processing efficiency is improved.

In order to facilitate the collection of the final workpiece blanking, in this embodiment, a blanking roller conveyor 600 is disposed between two bending machines 410. The bent workpiece can be transferred to the blanking roller conveyor 600 by the mechanical arm 420, so that the stacking is facilitated.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention as set forth in the claims appended hereto.

Claims (10)

1. The utility model provides a corner post production line of bending which characterized in that: the method comprises the following steps:

the automatic feeding device comprises a working frame (100), wherein a processing waiting area, a processing area and a discharging area are sequentially arranged on the working frame (100) along a linear direction, a workpiece pushing mechanism (140) is further arranged on the working frame (100), and the workpiece pushing mechanism (140) is provided with a push plate (141) capable of moving back and forth between the processing waiting area and the discharging area;

a chamfering machine (200) located beside the machining zone;

the feeding device is positioned beside the processing waiting area;

the conveying line comprises a first conveying device (310), a second conveying device (320) and a third conveying device (330) which are arranged along a straight line direction, the conveying direction of the first conveying device (310) and the conveying direction of the second conveying device (320) are the same as the conveying direction of the third conveying device (330), and the conveying starting end of the first conveying device (310) is located beside the discharging area;

and the bending device comprises a bending machine (410) and a mechanical arm (420), and the bending machine (410) and the mechanical arm (420) are both positioned beside the conveying tail end of the third conveying device (330).

2. The corner post bending production line according to claim 1, characterized in that: the automatic feeding device is characterized in that a plurality of first supporting frame bodies (110) are arranged on the discharging area at intervals in the left-right direction, second supporting frame bodies (120) are arranged at positions, opposite to the first supporting frame bodies (110), on the processing area, third supporting frame bodies (130) are arranged at positions, opposite to the second supporting frame bodies (120), on the processing waiting area, collecting boxes (160) are arranged below the second supporting frame bodies (120), and the collecting boxes (160) are provided with collecting cavities with upward openings.

3. The corner post bending production line according to claim 2, characterized in that: the side of second braced frame body (120) is provided with first lift cylinder (150), first lift cylinder (150) set up in on work frame (100), be provided with baffle (151) on first lift cylinder (150), first lift cylinder (150) can drive baffle (151) up-and-down motion.

4. The corner post bending production line according to claim 2, characterized in that: the workpiece pushing mechanisms (140) are arranged at least two in the front-back direction.

5. The corner post bending production line according to claim 2, characterized in that: work piece push mechanism (140) include first translation cylinder and translation seat, first translation cylinder set up in on workstation (100), the translation seat set up in on the first translation cylinder, first translation cylinder can drive the translation seat is in first braced frame body (110) with round trip movement between third braced frame body (130), push pedal (141) rotate connect in on the translation seat, the axis of rotation of push pedal (141) extends along left right direction, the trailing flank of push pedal (141) has the guide section, the guide section is by lower supreme slope forward.

6. The corner post bending production line according to claim 1, characterized in that: the feeding device comprises a transfer frame, a second translation cylinder, a first translation plate, a second lifting cylinder, a feeding plate and a first pneumatic sucker, wherein the transfer frame is arranged on the working frame (100), the second translation cylinder is arranged on the transfer frame, the first translation plate is arranged on the second translation cylinder, the second translation cylinder can drive the first translation plate to linearly move along the horizontal direction, the second lifting cylinder is arranged on the first translation plate, the feeding plate is arranged on the second lifting cylinder, the second lifting cylinder can drive the feeding plate to move along the vertical direction, the first pneumatic sucker is arranged on the feeding plate, and the first pneumatic sucker is connected with a first vacuum pump through a pipeline.

7. The corner post bending production line according to claim 1, characterized in that: the first conveyor (310) is a first roller conveyor, the second conveyor (320) is a second roller conveyor, and the third conveyor (330) is a third roller conveyor.

8. The corner post bending production line according to claim 1, characterized in that: a material transporting vehicle (510) and a transferring and transferring device (520) are arranged beside the second conveying device (320), the transferring and transferring device (520) comprises a transferring frame, a third translation cylinder, a second translation plate, a third lifting cylinder, a transferring plate and a second pneumatic sucker, the transferring frame is arranged on the second conveying device (320), the third translation cylinder is arranged on the transferring frame, the second translation plate is arranged on the third translation cylinder, the third translation cylinder can drive the second translation plate to horizontally move between the second conveying device (320) and the material transporting vehicle (510), the third lifting cylinder is arranged on the second translation plate, the transferring plate is arranged on the third lifting cylinder, the third lifting cylinder can drive the transferring plate to move along the up-down direction, and the second pneumatic sucker is arranged on the transferring plate, the second pneumatic sucker is connected with a second vacuum pump through a pipeline.

9. The corner post bending production line according to claim 1, characterized in that: two bending machines (410) are arranged beside the mechanical arm (420).

10. The corner post bending production line according to claim 9, wherein: and a blanking roller conveyor (600) is arranged between the two bending machines (410).

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