CN216679677U - Automatic metal plate bending and forming equipment - Google Patents

Abstract

The utility model relates to the field of sheet metal bending equipment, and discloses sheet metal automatic bending and forming equipment which comprises a rack, a plate body, a limiting device, a pressing device and a rotating device, wherein the limiting device is arranged on the rack, the plate body is arranged on the limiting device, the pressing device is arranged above the plate body, the rotating device is arranged below the plate body, and the rotating device drives the plate body to rotate around a bending part of the pressing device, so that a sheet metal to be bent is obtained. Through the cooperation of stop device, push down device and rotary device, realized the automatic process of bending to the panel beating, and the panel beating of bending department has realized bending of certain radian under the cooperation of push down device, and every radian of bending is unanimous, and the inhomogeneous condition of angle can not appear in the department of bending, has better bending precision, has improved the quality of bending of product.

Description

Automatic metal plate bending and forming equipment

[ technical field ] A method for producing a semiconductor device

The utility model relates to the field of sheet metal bending equipment, in particular to automatic sheet metal bending and forming equipment.

[ background of the utility model ]

The panel beating equipment of bending is common bending device in the industry, to the board of bending of some precision device, bending device's the effect of bending can to a great extent influence the quality of product, if equipment such as oven, microwave oven, in case its inner bag is bent inhomogeneous, the angle appears the mistake, can lead to the follow-up welding of inner bag to go out the problem, lead to the product inner bag can not continue to use, greatly increased manufacturing cost, the bending mode of current equipment of bending generally all is the right angle bending, the angle of the gained panel beating department of bending of this kind is vertically, lead to its department of bending very easy and the inside friction of colliding with of product, lead to the product to damage, some equipment that can bend into the circular arc still, its rate is not high, the degree of bending of four angles after often appearing bending is inconsistent easily, or the not high problem of precision of bending, lead to the product quality not good products.

[ summary of the utility model ]

The utility model aims to solve the problems and provides automatic metal plate bending and forming equipment, which solves the problem that the quality of a product is influenced because the existing forming equipment is low in bending precision and cannot be bent into a circular arc angle well.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the metal plate automatic bending forming equipment comprises a rack, a plate body, a limiting device, a pressing device and a rotating device, wherein the limiting device is arranged on the rack, the plate body is arranged on the limiting device, the pressing device is arranged above the plate body, the rotating device is arranged below the plate body, and the rotating device drives the plate body to rotate around a bending part of the pressing device, so that a metal plate to be bent is obtained;

the limiting device comprises a first limiting assembly, a second limiting assembly and a third limiting assembly, the second limiting assembly is arranged in the middle of the rack, and the first limiting assembly and the third limiting assembly are arranged on two sides of the second limiting assembly;

the pressing device comprises a first pressing component, a second pressing component and a third pressing component, and the first pressing component, the second pressing component and the third pressing component are respectively arranged above the first limiting component, the second limiting component and the third limiting component;

the rotating device comprises a first rotating assembly, a second rotating assembly, a third rotating assembly and a fourth rotating assembly, the first rotating assembly is arranged on one side of the first limiting assembly far away from the second limiting assembly, the second rotating assembly is arranged on one side of the first limiting assembly far away from the second limiting assembly, the third rotating assembly is arranged on the other side of the second limiting assembly far away from the third limiting assembly, and the fourth rotating assembly is arranged on one side of the third limiting assembly far away from the second limiting assembly.

Preferably, the first limiting assembly comprises a first supporting plate, a first limiting block and a first guide sleeve, the first supporting plate is arranged on the rack, the first limiting block is arranged at two ends of the first supporting plate, and the first guide sleeve is arranged at one side of the first limiting block;

the second limiting assembly comprises a second supporting plate, a second limiting block and a second guide sleeve, the second supporting plate is arranged on one side of the first supporting plate, the second limiting block is arranged on the second supporting plate, and the second guide sleeve is arranged between the two second limiting blocks;

the third limiting assembly comprises a third supporting plate, a third limiting block and a third guide sleeve, the third supporting plate is arranged on one side, away from the first supporting plate, of the second supporting plate, the third limiting block is arranged at two ends of the third supporting plate, and the third guide sleeve is arranged on one side of the third limiting block.

Preferably, the first downward pressing assembly comprises a first lifting driver, a first connecting plate, a first arc-shaped pressing plate and first guide pillars, the first lifting driver is arranged at the top of the rack, the first connecting plate is arranged at the bottom of the first lifting driver, the first arc-shaped pressing plate is arranged at the bottom of the first connecting plate, the first guide pillars are arranged at the bottom of the first connecting plate, and the first guide pillars are located on two sides of the first arc-shaped pressing plate.

Preferably, the second pressing assembly comprises a second lifting driver, a second connecting plate, a second arc-shaped pressing plate and a second guide pillar, the second lifting driver is arranged at the top of the rack, the second connecting plate is arranged at the bottom of the second lifting driver, the second arc-shaped pressing plates are respectively arranged at the bottoms of two sides of the second connecting plate, which are close to the first limiting assembly and the second limiting assembly, and the second guide pillar is arranged between the two second arc-shaped pressing plates.

Preferably, the third pressing assembly includes a third lifting driver, a third connecting plate, a third arc-shaped pressing plate and a third guide pillar, the third lifting driver is disposed at the top of the rack, the third connecting plate is disposed at the bottom of the third lifting driver, the third arc-shaped pressing plate is disposed at the bottom of the third connecting plate, the third guide pillar is disposed at the bottom of the third connecting plate, and the third guide pillar is located on two sides of the third arc-shaped pressing plate.

Preferably, the first rotating assembly comprises a first mounting plate, a first rotating driver, a first rotating plate, a first bearing assembly and a first auxiliary block, the first mounting plate is arranged at the bottom of the rack, the first rotating driver is connected to one side of the first mounting plate, the first rotating plate is arranged at the top of the first rotating driver, the first bearing assembly is arranged on each of two sides of the first rotating plate, the bottom of the first bearing assembly is connected with the rack, and the first auxiliary block is symmetrically arranged on the first rotating plate.

Preferably, the second rotating assembly comprises a second mounting plate, a second rotating driver, a second rotating plate and a second bearing assembly, the second mounting plate is arranged at the bottom of the rack, the second rotating driver is connected to one side of the second mounting plate, the second rotating plate is arranged at the top of the second rotating driver, the second bearing assembly is arranged on both sides of the second rotating plate, and the bottom of the second bearing assembly is connected with the rack.

Preferably, the third rotating assembly comprises a third mounting plate, a third rotating driver, a third rotating plate and a third bearing assembly, the third mounting plate is arranged at the bottom of the rack, the third rotating driver is connected to one side of the third mounting plate, the third rotating plate is arranged at the top of the third rotating driver, the third bearing assembly is arranged on both sides of the third rotating plate, and the bottom of the third bearing assembly is connected to the rack.

Preferably, the fourth rotating assembly comprises a fourth mounting plate, a fourth rotating driver, a fourth rotating plate and a fourth bearing assembly, the fourth mounting plate is arranged at the bottom of the rack, the fourth rotating driver is connected to one side of the fourth mounting plate, the fourth rotating plate is arranged at the top of the fourth rotating driver, the fourth bearing assembly is arranged on both sides of the fourth rotating plate, and the bottom of the fourth bearing assembly is connected to the rack.

The contribution of the utility model lies in: according to the utility model, through the matching of the limiting device, the pressing device and the rotating device, the automatic metal plate bending process is realized, the bent part of the bent metal plate realizes the bending with a certain radian under the matching of the pressing device, the radian of each bent part is consistent, the condition of uneven angle can not occur at the bent part, the bending precision is better, and the bending quality of a product is improved.

[ description of the drawings ]

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

FIG. 2 is a schematic view of the structure of FIG. 1 with the plate removed;

FIG. 3 is a schematic structural view of a first limiting assembly, a second limiting assembly, a third limiting assembly and a frame according to the present invention;

FIG. 4 is a schematic view of the first hold-down assembly of the present invention;

FIG. 5 is a schematic view of a second hold-down assembly of the present invention;

FIG. 6 is a schematic view of a third hold-down assembly of the present invention;

FIG. 7 is a schematic view of the first rotating assembly of the present invention;

FIG. 8 is a schematic structural view of a second rotating assembly of the present invention;

FIG. 9 is a schematic structural view of a third rotating assembly of the present invention;

FIG. 10 is a schematic view of a fourth rotating assembly of the present invention;

wherein: the plate pressing device comprises a frame 10, a plate body 20, a limiting device 30, a pressing device 40 and a rotating device 50;

the first limiting component 31, the first supporting plate 311, the first limiting block 312, the first guide sleeve 313, the second limiting component 32, the second supporting plate 321, the second limiting block 322, the second guide sleeve 323, the third limiting component 33, the third supporting plate 331, the third limiting block 332, the third guide sleeve 333, the first pressing component 41, the first lifting driver 411, the first connecting plate 412, the first arc-shaped pressing plate 413, the first guide pillar 414, the second pressing component 42, the second lifting driver 421, the second connecting plate 422, the second arc-shaped pressing plate 423, the second guide pillar 424, the third pressing component 43, the third lifting driver 431, the third connecting plate 432, the third arc-shaped pressing plate 433, the third guide pillar 434, the first rotating component 51, the first mounting plate 511, the first rotating driver 512, the first rotating plate 513, the first bearing component 514, the first auxiliary block 515, the second rotating component 52, the second mounting plate 521, the first bearing component 514, the second auxiliary block 515, the second rotating component, A second rotary actuator 522, a second rotary plate 523, a second bearing assembly 524, a third rotary assembly 53, a third mounting plate 531, a third rotary actuator 532, a third rotary plate 533, a third bearing assembly 534, a third auxiliary block 535, a fourth rotary assembly 54, a fourth mounting plate 541, a fourth rotary actuator 542, a fourth rotary plate 543, a fourth bearing assembly 544, a fourth auxiliary block 545.

[ detailed description ] embodiments

The following examples are further illustrative and supplementary to the present invention and do not limit the present invention in any way.

As shown in fig. 1-10, the automatic sheet metal bending and forming apparatus includes a frame 10, a sheet body 20, a limiting device 30, a pressing device 40, and a rotating device 50, wherein the limiting device 30 is disposed on the frame 10, the sheet body 20 is disposed on the limiting device 30, the pressing device 40 is disposed above the sheet body 20, the rotating device 50 is disposed below the sheet body 20, and the rotating device 50 drives the sheet body 20 to rotate around a bending portion of the pressing device 40, so as to obtain a sheet metal to be bent;

the limiting device 30 comprises a first limiting component 31, a second limiting component 32 and a third limiting component 33, the second limiting component 32 is arranged in the middle of the rack 10, and the first limiting component 31 and the third limiting component 33 are arranged on two sides of the second limiting component 32;

the pressing device 40 comprises a first pressing component 41, a second pressing component 42 and a third pressing component 43, and the first pressing component 41, the second pressing component 42 and the third pressing component 43 are respectively arranged above the first limiting component 31, the second limiting component 32 and the third limiting component 33;

the rotating device 50 includes a first rotating component 51, a second rotating component 52, a third rotating component 53 and a fourth rotating component 54, the first rotating component 51 is disposed on a side of the first limiting component 31 away from the second limiting component 32, the second rotating component 52 is disposed between the first limiting component 31 and the second limiting component 32, the third rotating component 53 is disposed between the second limiting component 32 and the third limiting component 33, and the fourth rotating component 54 is disposed on a side of the third limiting component 33 away from the second limiting component 32.

Automatic former that bends of panel beating has mainly included frame 10, plate body 20, stop device 30, push down device 40 and rotary device 50, stop device 30 includes first spacing subassembly 31, spacing subassembly 32 of second and third 33, push down device 40 includes first push down subassembly 41, second push down subassembly 42 and third push down subassembly 43, rotary device 50 includes first rotating assembly 51, second rotating assembly 52, third rotating assembly 53 and fourth rotating assembly 54, through each spacing subassembly, push down the cooperation of subassembly and rotating assembly, the bending of plate body 20 has been realized, and it all is the arc structure to ensure the department of buckling.

Specifically, when a sheet metal, that is, the plate body 20, needs to be bent, the plate body 20 is first placed on the first limiting assembly 31, the second limiting assembly 32 and the third limiting assembly 33 (the first limiting assembly 31, the second limiting assembly 32 and the third limiting assembly 33 are respectively provided with the first limiting block 312, the second limiting block 322 and the third limiting block 332), the three limiting blocks are all used for fixing and limiting the plate body 20, it is ensured that the plate body 20 can be stably arranged on the limiting device 30 and cannot move left and right, after the plate body 20 is fixed on the limiting device 30, the first pressing assembly 41, the second pressing assembly 42 and the third pressing assembly 43 of the pressing device 40 start to descend until the column plate body 20 is pressed from above, it is ensured that the plate body 20 cannot move up and down, after the plate body 20 is fixed by the pressing device 40, the first rotating assembly 51 in the rotating device 50 starts to work, specifically, the first rotating driver 512 of the first rotating assembly 51 drives the first rotating plate 513 to rotate around the first shaft The bearing assembly 514 rotates, the first auxiliary block 515 rotates along with the first rotating plate 513, and since the first pressing assembly 41 presses the plate body 20 of the first limiting assembly 31 against the column, the plate body 20 under the first pressing assembly 41 does not move, but the plate body 20 which is not pressed against the column rotates along with the first rotating plate 513 and rotates along the first arc-shaped pressing plate 413, so that the plate body 20 of an arc-shaped part is bent.

When the first rotating assembly 51 moves, the fourth rotating assembly 54 also starts to rotate, and since only a small part of the plate body 20 above the fourth rotating assembly 54 is not pressed by the third pressing assembly 43 (the part is just enough to be bent by the third arc-shaped pressing plate 433), the plate body 20 at the position rotates along the third arc-shaped pressing plate 433 under the driving of the third rotating assembly 53 (the specific bending rotation process is similar to the bending process of the first rotating assembly 51, and the bending part at the position and the bending part described below are not described in detail), so that the plate body 20 at the position is bent to a certain radian.

After the first rotating assembly 51 and the fourth rotating assembly 54 simultaneously bend the plate body 20, the first pressing assembly 41 and the third pressing assembly 43 are lifted up, so that the plate body 20 cannot be continuously pressed, the second pressing assembly 42 maintains the original pressing state, at this time, the third rotating assembly 53 starts to operate, and the third rotating assembly 53 rotates the third rotating plate 533, so that the plate body 20 on the right side of the second pressing assembly 42 (i.e., the portion originally pressed by the third pressing assembly 43) is bent around the second arc-shaped pressing plate 423.

After the third rotating assembly 53 finishes bending the plate body 20, the second rotating assembly 52 starts to move, so that the plate body 20 on the left side of the second pressing assembly 42 (namely, the part pressed by the original first pressing assembly 41) is bent around the second arc-shaped pressing plate 423, and all bent metal plates are obtained, and at the moment, the second pressing assembly 42 is lifted again, so that a worker can take the bent metal plates out of the forming equipment, and then the bending work of the next plate body 20 is started.

According to the utility model, through the matching of the limiting device 30, the pressing device 40 and the rotating device 50, the automatic bending process of the sheet metal is realized, the bent part of the bent sheet metal is bent at a certain radian under the matching of the pressing device 40, the radian of each bent part is consistent, the condition of uneven angle at the bent part is avoided, the bending precision is better, and the bending quality of the product is improved.

To be further described, the first limiting component 31 includes a first supporting plate 311, a first limiting block 312 and a first guide sleeve 313, the first supporting plate 311 is disposed on the rack 10, the first limiting block 312 is disposed at two ends of the first supporting plate 311, and the first guide sleeve 313 is disposed at one side of the first limiting block 312;

the second limiting component 32 comprises a second supporting plate 321, a second limiting block 322 and a second guide sleeve 323, the second supporting plate 321 is arranged on one side of the first supporting plate 311, the second limiting block 322 is arranged on the second supporting plate 321, and the second guide sleeve 323 is arranged between the two second limiting blocks 322;

the third limiting component 33 includes a third supporting plate 331, a third limiting block 332 and a third guiding sleeve 333, the third supporting plate 331 is disposed on one side of the second supporting plate 321 far away from the first supporting plate 311, the third limiting block 332 is disposed at two ends of the third supporting plate 331, and the third guiding sleeve 333 is disposed on one side of the third limiting block 332.

The first limiting component 31, the second limiting component 32 and the third limiting component 33 jointly play a role in fixing the plate body 20, each limiting block on each limiting component is used for limiting the plate body 20, the guide sleeve is used for being matched with the first pressing device 41, the second pressing device 42 and the third pressing device 43 above, a guiding effect is achieved, the pressing device 40 can not shake, and the situation of dislocation cannot occur.

To be more specific, the first pressing assembly 41 includes a first lifting driver 411, a first connecting plate 412, a first arc-shaped pressing plate 413, and a first guide post 414, the first lifting driver 411 is disposed at the top of the frame 10, the first connecting plate 412 is disposed at the bottom of the first lifting driver 411, the first arc-shaped pressing plate 413 is disposed at the bottom of the first connecting plate 412, the first guide post 414 is disposed at the bottom of the first connecting plate 412, and the first guide post 414 is disposed at two sides of the first arc-shaped pressing plate 413.

To be further described, the second pressing assembly 42 includes a second lifting driver 421, a second connecting plate 422, a second arc-shaped pressing plate 423 and a second guide pillar 424, the second lifting driver 421 is disposed at the top of the frame 10, the second connecting plate 422 is disposed at the bottom of the second lifting driver 421, the second arc-shaped pressing plates 423 are disposed at the bottoms of two sides of the second connecting plate 422 respectively close to the first limiting assembly 31 and the second limiting assembly 32, and the second guide pillar 424 is disposed between the two second arc-shaped pressing plates 423.

In a further description, the third pressing assembly 43 includes a third lifting driver 431, a third connecting plate 432, a third arc-shaped pressing plate 433, and a third guide pillar 434, the third lifting driver 431 is disposed at the top of the frame 10, the third connecting plate 432 is disposed at the bottom of the third lifting driver 431, the third arc-shaped pressing plate 433 is disposed at the bottom of the third connecting plate 432, the third guide pillar 434 is disposed at the bottom of the third connecting plate 432, and the third guide pillar 434 is located at two sides of the third arc-shaped pressing plate 433.

The main purpose of the pressing device 40 is to press the plate body 20, and by controlling the pressing and lifting of different pressing devices 40 at different time periods, the subsequent rotating device 50 can bend the plate body 20 on the limiting device 30 conveniently, and the specific bending process sequence is described above and will not be described again here.

In a further illustration, the first rotating assembly 51 includes a first mounting plate 511, a first rotating driver 512, a first rotating plate 513, a first bearing assembly 514 and a first auxiliary block 515, the first mounting plate 511 is disposed at the bottom of the rack 10, the first rotating driver 512 is connected to one side of the first mounting plate 511, the first rotating plate 513 is disposed at the top of the first rotating driver 512, the first bearing assembly 514 is disposed at both sides of the first rotating plate 513, the bottom of the first bearing assembly 514 is connected to the rack 10, and the first auxiliary block 515 is symmetrically disposed on the first rotating plate 513.

The second rotating assembly 52 includes a second mounting plate 521, a second rotating driver 522, a second rotating plate 523 and a second bearing assembly 524, the second mounting plate 521 is disposed at the bottom of the frame 10, the second rotating driver 522 is connected to one side of the second mounting plate 521, the second rotating plate 523 is disposed at the top of the second rotating driver 522, the second bearing assembly 524 is disposed at both sides of the second rotating plate 523, and the bottom of the second bearing assembly 524 is connected to the frame 10.

The third rotating assembly 53 includes a third mounting plate 531, a third rotating driver 532, a third rotating plate 533 and a third bearing assembly 534, the third mounting plate 531 is disposed at the bottom of the rack 10, the third rotating driver 532 is connected to one side of the third mounting plate 531, the third rotating plate 533 is disposed at the top of the third rotating driver 532, the third bearing assembly 534 is disposed on both sides of the third rotating plate 533, and the bottom of the third bearing assembly 534 is connected to the rack 10.

The fourth rotating assembly 54 includes a fourth mounting plate 541, a fourth rotating driver 542, a fourth rotating plate 543 and a fourth bearing assembly 544, the fourth mounting plate 541 is disposed at the bottom of the rack 10, the fourth rotating driver 542 is connected to one side of the fourth mounting plate 541, the fourth rotating plate 543 is disposed at the top of the fourth rotating driver 542, the fourth bearing assemblies 544 are disposed on two sides of the fourth rotating plate 543, and the bottoms of the fourth bearing assemblies 544 are connected to the rack 10.

The four different rotating devices 50 are used for upwards jacking the plate body 20 on the limiting device 30, so that the plate body 20 is extruded with the arc-shaped pressing plate on the side of the pressing device 40, the bent angle is the arc-shaped plate body 20, the rotating time of each rotating assembly needs to be rotated according to a preset program, and the rotating angle can be controlled by the program.

Although the present invention has been described with reference to the above embodiments, the scope of the present invention is not limited thereto, and modifications, substitutions and the like of the above members are intended to fall within the scope of the claims of the present invention without departing from the spirit of the present invention.

Claims (10)

1. Automatic former that bends of panel beating, its characterized in that: the metal plate bending device comprises a frame, a plate body, a limiting device, a pressing device and a rotating device, wherein the limiting device is arranged on the frame, the plate body is arranged on the limiting device, the pressing device is arranged above the plate body, the rotating device is arranged below the plate body, and the rotating device drives the plate body to wind a bending part of the pressing device to rotate, so that a required metal plate to be bent is obtained.

2. The automatic sheet metal bending and forming equipment according to claim 1, characterized in that: the limiting device comprises a first limiting assembly, a second limiting assembly and a third limiting assembly, the second limiting assembly is arranged in the middle of the rack, and the first limiting assembly and the third limiting assembly are arranged on two sides of the second limiting assembly;

the pressing device comprises a first pressing component, a second pressing component and a third pressing component, and the first pressing component, the second pressing component and the third pressing component are respectively arranged above the first limiting component, the second limiting component and the third limiting component;

the rotating device comprises a first rotating assembly, a second rotating assembly, a third rotating assembly and a fourth rotating assembly, the first rotating assembly is arranged on one side of the first limiting assembly far away from the second limiting assembly, the second rotating assembly is arranged on one side of the first limiting assembly far away from the second limiting assembly, the third rotating assembly is arranged on the other side of the second limiting assembly far away from the third limiting assembly, and the fourth rotating assembly is arranged on one side of the third limiting assembly far away from the second limiting assembly.

3. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the first limiting assembly comprises a first supporting plate, a first limiting block and a first guide sleeve, the first supporting plate is arranged on the rack, the first limiting block is arranged at two ends of the first supporting plate, and the first guide sleeve is arranged on one side of the first limiting block;

the second limiting assembly comprises a second supporting plate, a second limiting block and a second guide sleeve, the second supporting plate is arranged on one side of the first supporting plate, the second limiting block is arranged on the second supporting plate, and the second guide sleeve is arranged between the two second limiting blocks;

the third limiting assembly comprises a third supporting plate, a third limiting block and a third guide sleeve, the third supporting plate is arranged on one side, away from the first supporting plate, of the second supporting plate, the third limiting block is arranged at two ends of the third supporting plate, and the third guide sleeve is arranged on one side of the third limiting block.

4. The automatic sheet metal bending and forming equipment according to claim 2, wherein: the first downward pressing assembly comprises a first lifting driver, a first connecting plate, a first arc-shaped pressing plate and first guide pillars, the first lifting driver is arranged at the top of the rack, the first connecting plate is arranged at the bottom of the first lifting driver, the first arc-shaped pressing plate is arranged at the bottom of the first connecting plate, the first guide pillars are arranged at the bottom of the first connecting plate, and the first guide pillars are located on two sides of the first arc-shaped pressing plate.

5. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the second pressing assembly comprises a second lifting driver, a second connecting plate, a second arc-shaped pressing plate and a second guide pillar, the second lifting driver is arranged at the top of the rack, the second connecting plate is arranged at the bottom of the second lifting driver, the second arc-shaped pressing plate is arranged at the bottom of the second connecting plate, which is close to the two sides of the first limiting assembly and the second limiting assembly respectively, and the second guide pillar is arranged between the two second arc-shaped pressing plates.

6. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the third pressing assembly comprises a third lifting driver, a third connecting plate, a third arc-shaped pressing plate and a third guide pillar, the third lifting driver is arranged at the top of the rack, the third connecting plate is arranged at the bottom of the third lifting driver, the third arc-shaped pressing plate is arranged at the bottom of the third connecting plate, the third guide pillar is arranged at the bottom of the third connecting plate, and the third guide pillar is positioned on two sides of the third arc-shaped pressing plate.

7. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the first rotating assembly comprises a first mounting plate, a first rotating driver, a first rotating plate, a first bearing assembly and a first auxiliary block, the first mounting plate is arranged at the bottom of the rack, the first rotating driver is connected to one side of the first mounting plate, the first rotating plate is arranged at the top of the first rotating driver, the first bearing assembly is arranged on each of two sides of the first rotating plate, the bottom of the first bearing assembly is connected with the rack, and the first auxiliary block is symmetrically arranged on the first rotating plate.

8. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the second rotating assembly comprises a second mounting plate, a second rotating driver, a second rotating plate and a second bearing assembly, the second mounting plate is arranged at the bottom of the rack, the second rotating driver is connected to one side of the second mounting plate, the second rotating plate is arranged at the top of the second rotating driver, the second bearing assembly is arranged on two sides of the second rotating plate, and the bottom of the second bearing assembly is connected with the rack.

9. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the third rotating assembly comprises a third mounting plate, a third rotating driver, a third rotating plate and a third bearing assembly, the third mounting plate is arranged at the bottom of the rack, one side of the third mounting plate is connected with the third rotating driver, the top of the third rotating driver is provided with the third rotating plate, the two sides of the third rotating plate are provided with the third bearing assembly, and the bottom of the third bearing assembly is connected with the rack.

10. The automatic sheet metal bending and forming equipment according to claim 2, wherein the automatic sheet metal bending and forming equipment comprises: the fourth rotating assembly comprises a fourth mounting plate, a fourth rotating driver, a fourth rotating plate and a fourth bearing assembly, the fourth mounting plate is arranged at the bottom of the rack, the fourth rotating driver is connected to one side of the fourth mounting plate, the fourth rotating driver is arranged at the top of the fourth rotating driver, the fourth rotating plate is arranged on two sides of the fourth rotating plate, the fourth bearing assembly is arranged on two sides of the fourth rotating plate, and the bottom of the fourth bearing assembly is connected with the rack.

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