CN107282706B

CN107282706B - Efficient bending machine

Info

Publication number: CN107282706B
Application number: CN201710606435.4A
Authority: CN
Inventors: 詹爱平; 贺梅英; 梁爱云; 潘丕吉; 金华
Original assignee: Anhui Keyuan Machinery Co ltd
Current assignee: Anhui Keyuan Machinery Co ltd
Priority date: 2017-07-24
Filing date: 2017-07-24
Publication date: 2023-10-03
Anticipated expiration: 2037-07-24
Also published as: CN107282706A

Abstract

The utility model belongs to the technical field of bending machine equipment structures, and particularly relates to a high-efficiency bending machine, which comprises a bending workbench, a bending base and a bending press block, wherein the bending base and the bending press block are arranged on the bending workbench, the bending press block also comprises a bending connecting part which is arranged on the bending workbench and used for installing and connecting the bending press block, and a repulsive magnetic force driving part which is arranged on the bending workbench and used for driving the bending connecting part to perform a downward bending operation in a magnetic repulsive mode, and a fixing base used for limiting and fixing a material to be bent is further arranged at one end, positioned outside the bending base, of the bending workbench. According to the utility model, the bending base, the bending pressing block, the bending connecting part, the repulsive magnetic driving part and the fixing base are arranged on the bending workbench, so that the purpose of effective bending is achieved. The bending device has the advantages of simple and effective structure, convenient and quick bending operation, good bending effect and suitability for low-strength bending operation.

Description

Efficient bending machine

Technical Field

The utility model belongs to the technical field of bending machine equipment structures, and particularly relates to a high-efficiency bending machine.

Background

Bending machines are a type of machine capable of bending thin plates, in particular metal thin plates, wherein the main structure comprises a clamping mechanism and a bending mechanism applying power, generally wherein the bending mechanism is pushed by a cylinder to achieve a stabilizing effect and ensure a sufficient bending power.

On the other hand, small-size bending machines in the market at present are fewer, and the small-size bending machines generally have the problems of insufficient power and instability, and easily cause bending dislocation and even damage equipment, so that the small-size bending machines with stable performance and good bending effect are urgently needed in the metal material processing and manufacturing industry.

The Chinese patent publication No. CN 204182729U and publication No. 2015.03.04 discloses a steel plate bending machine, which comprises a moving device, a hydraulic device and a bending die, wherein the hydraulic device and the bending die are arranged in the moving device, and universal wheels are arranged at the bottom of the moving device, but bending equipment in the bending machine has the problem of poor bending effect.

Disclosure of Invention

The utility model aims to provide a high-efficiency bending machine, which can achieve the purpose of effective bending by arranging a bending base, a bending pressing block, a bending connecting part, a repulsive magnetic force driving part and a fixing base on a bending workbench. The bending device has the advantages of simple and effective structure, convenient and quick bending operation, good bending effect and suitability for low-strength bending operation.

The utility model adopts the technical proposal that: the utility model provides a high-efficient bender, is in including the workstation of bending, sets up the base of bending on the workstation of bending and the briquetting of bending, still including setting up on the workstation of bending is used for the erection joint the connecting portion of bending, and set up on the workstation of bending and through the magnetic force rejection mode with be used for the drive the repulsive magnetic force drive portion that the connecting portion of bending carries out the bending operation that pushes down, be located on the workstation of bending still be equipped with the unable adjustment base that is used for treating the material of bending outside one end.

The further preferable technical scheme is as follows: the bending base comprises two base mounting blocks arranged on the bending workbench and a base main body which is in threaded connection between the two base mounting blocks, wherein the base main body is arranged between the two base mounting blocks in a retracted manner and forms a placing groove for placing the material to be bent and a bending groove for bending the material to be bent; the bending press block comprises a press block connecting plate arranged at the lower end of the bending connecting part and a press block main body arranged on the side edge of the lower end face of the press block connecting plate.

The further preferable technical scheme is as follows: the bending base, the bending press block and the bending connecting part form a complete bending main body, a plurality of bending main bodies are uniformly arranged on the bending workbench in a circumferential arrangement mode, and the number of the bending main bodies is 4-8.

The further preferable technical scheme is as follows: the bending connection part comprises a bending installation table arranged on the bending workbench, a bending connection column arranged on the bending installation table in a penetrating manner, a connection part magnetic block arranged at the upper end of the bending connection column and used for forming a pair of repulsive magnetic force with the repulsive magnetic force driving part, and a supporting spring arranged between the bending installation table and the connection part magnetic block and used for enabling the bending connection part to enter a bending standby state in a jacking manner through the bending connection column, wherein the bending installation table is arranged on the bending workbench through the installation column, and the bending pressing block is arranged at the upper end and the lower end of the bending connection column.

The further preferable technical scheme is as follows: the bending connection part further comprises a spring installation seat which is arranged on the bending installation table and sleeved with the bending connection column to be used for installing and fixing the supporting spring, and a spring installation groove for placing the supporting spring is formed in the upper end face of the spring installation seat.

The further preferable technical scheme is as follows: the bending connecting part further comprises a limiting plate which is arranged on the mounting column and used for limiting and fixing the bending connecting column in the up-and-down moving operation, and a limiting hole is formed in the limiting plate.

The further preferable technical scheme is as follows: the bending installation table is provided with an installation hole for the bending connection column to pass through, the vertical ring surface of the limit hole and the installation hole is provided with a rolling ball body for the bending connection column to move up and down, and the rolling ball body is arranged in the ring surface installation groove.

The further preferable technical scheme is as follows: the repulsive magnetic force driving part comprises a driving gear motor arranged in the middle of the bending mounting table, a rotating plate arranged on the driving gear motor, and a rotating magnetic block arranged on the lower end face of the two ends of the rotating plate and used for driving the bending connecting part to perform downward bending operation in a magnetic repulsive mode, and a storage battery connected with the driving gear motor is further arranged on the bending mounting table.

The further preferable technical scheme is as follows: the lower end faces of the two ends of the rotating plate are respectively provided with a magnetic block mounting groove used for mounting the rotating magnetic blocks, and the rotating magnetic blocks are bonded and arranged in the magnetic block mounting grooves.

The further preferable technical scheme is as follows: the fixing base comprises a fixing base main body arranged on the outer side of the bending base and a fixing hole which is arranged on the fixing base main body and used for being inserted and fixed with the material to be bent, and the height of the fixing hole is equal to that of the placing groove.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural diagram of a bending base and a bending press block in the present utility model.

Fig. 3 is a schematic view of the fixing base of the present utility model.

Fig. 4 is a schematic view of a position structure of a spring mounting base according to the present utility model.

FIG. 5 is a schematic view showing the position structure of the roller body according to the present utility model.

FIG. 6 is a schematic view of the position of the rotating magnetic block according to the present utility model.

Detailed Description

The following description is of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model.

Examples: as shown in fig. 1, 2, 3, 4, 5 and fig. 6, a high-efficiency bending machine comprises a bending workbench 1, a bending base 2 and a bending press block 3 which are arranged on the bending workbench 1, a bending connecting part 4 which is arranged on the bending workbench 1 and used for installing and connecting the bending press block 3, and a repulsive magnetic driving part 5 which is arranged on the bending workbench 1 and used for driving the bending connecting part 4 to perform pushing and bending operation in a magnetic repulsive mode, wherein a fixing base 6 used for limiting and fixing a material 7 to be bent is further arranged at one end, outside the bending base 2, of the bending workbench 1.

In this embodiment, the bending base 2 is disposed on the bending workbench 1, the bending press block 3 is disposed on the bending connection portion 4, and the bending press block 3 is disposed above the bending base 2 by a certain distance, so that the material 7 to be bent can be smoothly placed on the bending base 2 to perform smooth bending operation.

On the other hand, a pair of repulsive magnetic forces, namely homopolar repulsive, exist between the repulsive magnetic force driving part 5 and the bending connecting part 4, when the repulsive magnetic force driving part 5 drives and rotates, the bending connecting part 4 is pressed down by the repulsive magnetic force to complete one bending operation, and a plurality of the bending connecting parts 4 are sequentially and circularly pressed down to complete the bending operation of all the materials 7 to be bent on the bending machine, so that the bending machine has the advantage of high efficiency.

The bending base 2 comprises two base mounting blocks 201 arranged on the bending workbench 1 and a base main body 202 which is arranged between the two base mounting blocks 201 in a screwed mode, wherein the base main body 202 is arranged between the two base mounting blocks 201 in a retracted mode and forms a placing groove 203 for placing the material 7 to be bent and a bending groove 204 for bending the material 7 to be bent; the bending press block 3 comprises a press block connecting plate 301 arranged at the lower end of the bending connecting part 4 and a press block main body 302 arranged on the side edge of the lower end face of the press block connecting plate 301.

In this embodiment, the method for matching the bending base 2 and the bending press block 3 is as follows: firstly, the material 7 to be bent is placed in the placing groove 203, one end of the material 7 to be bent protrudes inwards to prepare for being bent and then enter the bending groove 204, wherein the width and the height of the placing groove 203 and the bending groove 204 are equal, and the width and the thickness of the material 7 to be bent are equal; secondly, the bending press block 3 is driven downwards, the material 7 to be bent forms an arc bending shape in the bending groove 204, and the outer surface of the material 7 to be bent is flush with the surface of the bending base 2, so that the bending press block 3 can smoothly move up and down without deflection, and the effective bending effect of the bending machine is ensured.

The bending base 2, the bending press block 3 and the bending connecting part 4 form a complete bending main body, a plurality of bending main bodies are uniformly arranged on the bending workbench 1 in a circumferential arrangement mode, and the number of the bending main bodies is 4-8.

In this embodiment, the number and positions of the bending base 2 and the bending press block 3 are not only consistent, but also the opening angles and the vertical horizontal lengths of the bending base 2 and the bending press block are equal, so that after the bending base and the bending press block are completely attached and contacted, the material 7 to be bent can be pressed into the placing groove 203 and the bending groove 204, and the effective bending operation is completed.

The bending connection part 4 comprises a bending installation table 401 arranged on the bending workbench 1, a bending connection column 402 penetrating through the bending installation table 401, a connection part magnetic block 403 arranged at the upper end of the bending connection column 402 and used for forming a pair of repulsive magnetic force with the repulsive magnetic force driving part 5, and a supporting spring 404 arranged between the bending installation table 401 and the connection part magnetic block 403 and used for enabling the bending connection part 4 to enter a bending standby state in a jacking mode of the bending connection column 402, wherein the bending installation table 401 is arranged on the bending workbench 1 through an installation column 405, and the bending pressing block 3 is arranged at the upper end and the lower end of the bending connection column 402.

In this embodiment, when the bending connection portion 4 is in an idle state, the supporting spring 404 pushes up the connection portion magnetic block 403, and the bending connection column 402 and the bending press block 3 are together located at a higher position; when the repulsive magnetic force driving portion 5 is located at the repulsive driving position above the connecting portion magnetic force block 403, the connecting portion magnetic force block 403 is pressed down by repulsive magnetic force to drive the bending press block 3 to move towards the bending base 2 so as to complete bending operation, and the bending machine has the advantages of being rapid and effective.

The bending connection part 4 further comprises a spring mounting seat 406 which is arranged on the bending mounting table 401 and sleeved with the bending connection column 402 to be used for mounting and fixing the supporting spring 404, and a spring mounting groove 407 used for placing the supporting spring 404 is formed in the upper end face of the spring mounting seat 406.

In this embodiment, the height distance between the spring mounting base 406 and the connecting portion magnetic block 403 is appropriate, so that the bending press block 3 can be ensured to perform a sufficient bending distance downwards, and the spring strength of the supporting spring 404 is matched, so that the bending press block 3 is prevented from colliding with the bending workbench 1.

The bending connection portion 4 further includes a limiting plate 408 disposed on the mounting post 405 and used for limiting and fixing the vertical movement operation of the bending connection post 402, and a limiting hole 409 is disposed on the limiting plate 408.

The bending mounting table 401 is provided with a mounting hole 4010 for the bending connecting column 402 to pass through, vertical annular surfaces of the limiting hole 409 and the mounting hole 4010 are provided with a rolling ball body 4011 for the bending connecting column 402 to move up and down, and the rolling ball body 4011 is arranged in an annular surface mounting groove 4012.

In this embodiment, the ball 4011 makes the horizontal clamping accuracy of the limiting hole 409 and the mounting hole 4010 to the bent connection column 402 higher, and reduces the friction between the limiting hole 409 and the mounting hole 4010 and the bent connection column 402, so that the downward bending movement of the bent connection column 402 has the advantage of high efficiency and stability.

The repulsive magnetic force driving portion 5 includes a driving gear motor 501 disposed in the middle of the bending mounting table 401, a rotating plate 502 disposed on the driving gear motor 501, and a rotating magnetic block 503 disposed on a lower end surface of two ends of the rotating plate 502 and configured to drive the bending connection portion 4 to perform a downward bending operation by a magnetic force repulsive manner, and a storage battery 504 connected to the driving gear motor 501 is further disposed on the bending mounting table 401. The lower end surfaces of the two ends of the rotating plate 502 are respectively provided with a magnetic block mounting groove 505 for mounting the rotating magnetic block 503, and the rotating magnetic block 503 is bonded and arranged in the magnetic block mounting grooves 505.

In this embodiment, two rotating magnetic blocks 503 are respectively disposed at two ends of the rotating plate 502 to ensure uniformity of stress on the rotating plate 502, and on the other hand, the rotating magnetic blocks 503 rotate along with the rotating plate 502, alternately rotate to a position above the connecting portion magnetic blocks 403, and perform a pressing and bending operation by repulsive magnetic force.

The fixing base 6 comprises a fixing base main body 601 arranged on the outer side of the bending base 2, and a fixing hole 602 which is arranged on the fixing base main body 601 and used for being inserted and fixed with the material 7 to be bent, wherein the height of the fixing hole 602 is equal to that of the placing groove 203.

In this embodiment, with the base 2 of bending is the middle part fulcrum, the outer end of bending workstation 1 axial passes through unable adjustment base main part 601 and fixed orifices 602 are used for fixing wait to bend material 7, the inner axial end of bending workstation 1, through the dynamics of bending down of briquetting 3, guarantee the effect of bending for wait to bend material 7 and be in it can be effectively fixed to bend on the base 2 to bend, stabilize and bend.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims

1. The utility model provides a high-efficient bender, is in including bending workstation (1), setting bending base (2) and briquetting (3) of bending on bending workstation (1), its characterized in that: the bending machine comprises a bending workbench (1), a bending connection part (4) and a base main body (202), wherein the bending connection part (4) is arranged on the bending workbench (1) and used for installing and connecting a bending press block (3), the repulsive magnetic driving part (5) is arranged on the bending workbench (1) and used for driving the bending connection part (4) to perform a pushing-down bending operation in a magnetic repulsive mode, a fixed base (6) used for limiting and fixing a material to be bent is further arranged at one end of the bending workbench (1) on the outer side of the bending base (2), the bending base (2) comprises two base installation blocks (201) arranged on the bending workbench (1), and the base main body (202) is arranged between the two base installation blocks (201) in a screwed mode, and the base main body (202) is arranged between the two base installation blocks (201) in a shrinking mode and forms a placing groove (203) used for placing the material to be bent and a bending groove (204) used for bending the material to be bent; the bending press block (3) comprises a press block connecting plate (301) arranged at the lower end of the bending connecting part (4) and press block main bodies (302) arranged on the side edge of the lower end face of the press block connecting plate (301), wherein the bending base (2), the bending press block (3) and the bending connecting part (4) form a complete bending main body, a plurality of bending main bodies are uniformly arranged on the bending workbench (1) in a circumferential arrangement manner, and the number of the bending main bodies is 4-8; the bending connection part (4) comprises a bending installation table (401) arranged on the bending workbench (1), a bending connection column (402) penetrating through the bending installation table (401), a connection part magnetic block (403) arranged at the upper end of the bending connection column (402) and used for forming a pair of repulsive magnetic force with the repulsive magnetic force driving part (5), and a supporting spring (404) arranged between the bending installation table (401) and the connection part magnetic block (403) and used for enabling the bending connection part (4) to enter a bending standby state in a jacking mode of the bending connection column (402), wherein the bending installation table (401) is arranged on the bending workbench (1) through the installation column (405), and the bending pressing block (3) is arranged at the upper end and the lower end of the bending connection column (402); the repulsive magnetic force driving part (5) comprises a driving gear motor (501) arranged in the middle of the bending mounting table (401), a rotating plate (502) arranged on the driving gear motor (501), and a rotating magnetic block (503) arranged on the lower end surfaces of two ends of the rotating plate (502) and used for driving the bending connecting part (4) to conduct downward bending operation in a magnetic repulsive mode, wherein a storage battery (504) connected with the driving gear motor (501) is further arranged on the bending mounting table (401), the rotating magnetic block (503) rotates along with the rotating plate (502) and alternately rotates to the position above the magnetic block (403) of the connecting part, and the downward bending operation is conducted through repulsive magnetic force.

2. A high efficiency bending machine as defined in claim 1, wherein: the bending connection part (4) further comprises a spring installation seat (406) which is arranged on the bending installation table (401) and sleeved with the bending connection column (402) to be used for installing and fixing the supporting spring (404), and a spring installation groove (407) used for placing the supporting spring (404) is formed in the upper end face of the spring installation seat (406).

3. A high efficiency bending machine as defined in claim 1, wherein: the bending connecting portion (4) further comprises a limiting plate (408) which is arranged on the mounting column (405) and used for limiting and fixing the bending connecting column (402) in an up-and-down moving operation, and a limiting hole (409) is formed in the limiting plate (408).

4. A high efficiency bending machine according to claim 3, wherein: the bending installation table (401) is provided with an installation hole (4010) for enabling the bending connection column (402) to penetrate through installation, the vertical annular surface of the limiting hole (409) and the installation hole (4010) is provided with a rolling ball body (4011) for moving the bending connection column (402) up and down, and the rolling ball body (4011) is arranged in the annular surface installation groove (4012).

5. A high efficiency bending machine as defined in claim 1, wherein: the rotary magnetic block mounting grooves (505) for mounting the rotary magnetic blocks (503) are formed in the lower end faces of the two ends of the rotary plate (502), and the rotary magnetic blocks (503) are arranged in the magnetic block mounting grooves (505) in a bonding mode.

6. A high efficiency bending machine as defined in claim 1, wherein: the fixing base (6) comprises a fixing base main body (601) arranged on the outer side of the bending base (2), and a fixing hole (602) which is arranged on the fixing base main body (601) and used for being inserted and fixed with the material to be bent, wherein the height of the fixing hole (602) is equal to that of the placing groove (203).