CN220497405U - Metal plate bending machine for wind power generation equipment production - Google Patents

Abstract

The utility model discloses a metal plate bending machine for producing wind power generation equipment, which belongs to the technical field of wind power generation equipment production and comprises a supporting component, wherein a driving component is arranged in the supporting component and is connected with a movable component, a plurality of adjusting components are arranged in the movable component, and bending dies are arranged below the plurality of adjusting components; according to the bending machine, the bending die is fixed in the movable plate through the extending adjusting component, the adjusting component and the bending die are in the same way and are separated through the reversing operating component, the bending die can be detached, the operation is simple, the bending machine can detach the bending die only by rotating the operating component, the section shape of the bending die is L-shaped, when the driving component is triggered accidentally by a worker to cause the movable component to move upwards, the bending die is not easy to drop from the upper side of the driving component, the worker is damaged, and the bending die in the bending machine can be completely replaced by the worker.

Description

Metal plate bending machine for wind power generation equipment production

Technical Field

The utility model belongs to the technical field of production of wind power generation equipment, and particularly relates to a metal plate bending machine for production of wind power generation equipment.

Background

It is known that wind power generation equipment mainly absorbs power generated by air flow and converts the power into electric energy, the auxiliary device is widely applied in the field of new energy exploitation, when the equipment is produced and processed, metal plate parts on the equipment are required to be bent, the existing bending mode mainly depends on a bending machine to process, an upper die of the bending machine is used for pressing down a metal plate and pressing the metal plate into a lower die groove, so that the metal plate is bent, and the purpose of bending is achieved.

However, when the existing upper die is detached, a user needs to repeatedly operate the plurality of bolts by using the tool to detach the bolts, the operation is complicated, and after the plurality of bolts for fixing the upper die are detached, the user may step on the control switch of the bending machine by mistake to cause the movable plate connected with the upper die to move upwards, so that the upper die falls from between the lower dies of the movable half box to injure surrounding users by smashing, and therefore, the metal plate bending machine for producing wind power generation equipment is required to solve the problems.

Disclosure of Invention

The utility model aims to provide a metal plate bending machine for producing wind power generation equipment, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a metal sheet bender is used in wind power generation equipment production, includes supporting component, be equipped with drive assembly in the supporting component, drive assembly is connected with movable assembly, be equipped with a plurality of adjusting part in the movable assembly, all have the bending die under a plurality of adjusting part, adjusting part is connected with operating unit, and a plurality of operating unit all establishes in the movable assembly, and a plurality of bending die all establishes in the movable assembly, be equipped with locating component between bending die and the movable assembly.

As a preferred embodiment, the support assembly comprises a support frame, the support frame is connected with the female die, and the driving assembly is arranged in the support frame.

As a preferred implementation mode, the driving assembly comprises an electric push rod, the bottom end of the electric push rod is connected with a push plate, the push plate is connected with a movable assembly, two telescopic rods are connected to the push plate, and the two telescopic rods are arranged in the supporting frame.

As a preferred implementation mode, the movable assembly comprises a movable plate, the movable plate is connected with the push plate, a cavity is formed in the movable plate, the adjusting assembly and the operating assembly are all arranged in the cavity, a placing groove is formed in the front face of the movable plate, the bending die is arranged in the cavity and the placing groove, and the positioning assembly is arranged in the cavity.

As a preferred embodiment, the adjusting component comprises a first bearing, the first bearing is clamped in the cavity, a threaded cylinder is clamped in the first bearing, a threaded rod is connected in the threaded cylinder in a threaded manner, the bottom end of the threaded rod is connected with a clamping plate, the clamping plate is slidably connected in the cavity, the clamping plate is lapped on the bending die, a first gear is clamped outside the threaded cylinder, and the first gear is meshed with the operating component.

As a preferred embodiment, the operation assembly comprises a second bearing, a rotating rod is clamped in the second bearing, two ends of the rotating rod are respectively connected with a second gear and an operation block, and the second gear is meshed with the first gear.

As a preferred implementation mode, the positioning assembly comprises a positioning plate, wherein the positioning plate is connected with the bending die, a positioning groove is slidably connected in the positioning plate, and the positioning groove is formed in the cavity.

Compared with the prior art, the utility model has the beneficial effects that:

according to the bending machine, the operation assembly, the adjusting assembly, the movable assembly and the bending die are arranged, the bending die is moved between the adjusting assembly and the movable assembly, the operation assembly is rotated positively, the extending adjusting assembly fixes the bending die in the movable plate, the operation assembly is rotated reversely, the adjusting assembly and the bending die are separated, the bending die can be detached, the operation is simple, the bending machine can detach the bending die only by rotating the operation assembly, the section shape of the bending die is L-shaped, when the driving assembly is triggered accidentally by a worker, the movable assembly moves upwards, the bending die is not easy to drop from the upper side of the driving assembly, the worker is damaged, and the bending die in the bending machine can be replaced completely by the worker;

according to the utility model, the positioning plate and the positioning groove are arranged, so that when the movable bending die drives the positioning plate to move into the positioning groove, the positioning plate and the positioning groove are mutually matched to limit the bending die, the bending die cannot shake during movement, and the bending die can precisely move to the position right below the clamping plate.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of the present utility model;

FIG. 2 is a schematic view of a cross-sectional structure of the present utility model in a top view;

FIG. 3 is a schematic view of a cross-sectional structure of the present utility model in front perspective;

FIG. 4 is a schematic view of an enlarged structure of FIG. 3A according to the present utility model;

FIG. 5 is a schematic diagram of a side view, perspective and cross-sectional structure of the present utility model;

fig. 6 is a schematic diagram of an enlarged structure at B in fig. 5 according to the present utility model.

In the figure: 1. a support assembly; 11. a support frame; 12. a female die; 2. a drive assembly; 21. an electric push rod; 22. a push plate; 23. a telescopic rod; 3. a movable assembly; 31. a movable plate; 32. a cavity; 33. a placement groove; 4. an adjustment assembly; 41. a first bearing; 42. a thread cylinder; 43. a threaded rod; 44. a clamping plate; 45. a first gear; 5. an operating assembly; 51. a second bearing; 52. a rotating lever; 53. a second gear; 54. an operation block; 6. bending a die; 7. a positioning assembly; 71. a positioning plate; 72. and a positioning groove.

Detailed Description

The utility model is further described below with reference to examples.

The following examples are illustrative of the present utility model but are not intended to limit the scope of the utility model. The conditions in the examples can be further adjusted according to specific conditions, and simple modifications of the method of the utility model under the premise of the conception of the utility model are all within the scope of the utility model as claimed.

Referring to fig. 1-6, the utility model provides a metal plate bending machine for wind power generation equipment production, which comprises a support component 1, wherein a driving component 2 is arranged in the support component 1, the support component 1 comprises a support frame 11, the support frame 11 is connected with a female die 12, the driving component 2 is arranged in the support frame 11, the driving component 2 is connected with a movable component 3, the driving component 2 comprises an electric push rod 21, the bottom end of the electric push rod 21 is connected with a push plate 22, and the working electric push rod 21 can drive a movable plate 31 to move through the push plate 22 by arranging the electric push rod 21;

the push plate 22 is connected with the movable assembly 3, the push plate 22 is connected with two telescopic rods 23, the two telescopic rods 23 are arranged in the supporting frame 11, and the telescopic rods 23 can limit the push plate 22 so that the push plate 22 cannot shake during movement, and the push plate 22 can drive the movable plate 31 to move stably along the axial direction of the telescopic rods 23 under the action of the electric push rod 21;

the movable assembly 3 is internally provided with a plurality of adjusting assemblies 4, the movable assembly 3 comprises a movable plate 31, the movable plate 31 is connected with a push plate 22, a cavity 32 is formed in the movable plate 31, the adjusting assemblies 4 and an operating assembly 5 are both arranged in the cavity 32, the front face of the movable plate 31 is provided with a placing groove 33, a bending die 6 is arranged in the cavity 32 and the placing groove 33, a positioning assembly 7 is arranged in the cavity 32, the bending die 6 is arranged below the plurality of adjusting assemblies 4, the adjusting assemblies 4 are connected with the operating assembly 5, the adjusting assemblies 4 comprise first bearings 41, the first bearings 41 are clamped in the cavity 32, threaded barrels 42 are clamped in the first bearings 41, and the first bearings 41 can limit and fix the threaded barrels 42 in the cavity 32 by arranging the first bearings 41;

the threaded cylinder 42 is internally and threadedly connected with the threaded rod 43, and by arranging the threaded cylinder 42 and the threaded rod 43, the threaded rod 43 can be driven to move along the axial direction by the rotating threaded cylinder 42 because the threaded cylinder 42 is internally and threadedly connected with the threaded rod 43;

the bottom end of the threaded rod 43 is connected with the clamping plate 44, the clamping plate 44 is slidably connected in the cavity 32, and by arranging the clamping plate 44 and the cavity 32, the cavity 32 in the movable plate 31 can limit the clamping plate 44 because the clamping plate 44 is slidably connected in the cavity 32, and the threaded rod 43 connected with the clamping plate 44 cannot rotate under the action of the rotating threaded cylinder 42;

the clamping plate 44 is lapped on the bending die 6, the first gear 45 is clamped outside the threaded cylinder 42, the first gear 45 is meshed with the operating components 5, the operating components 5 are arranged in the movable component 3, the operating components 5 comprise second bearings 51, rotating rods 52 are clamped in the second bearings 51, and the second bearings 51 can limit and fix the rotating rods 52 in the movable plate 31 through the arrangement of the second bearings 51;

two ends of the rotating rod 52 are respectively connected with the second gear 53 and the operating block 54, and a user can rotate the operating block 54 by inserting a hexagonal wrench into the operating block 54 through the arrangement of the operating block 54;

the second gear 53 is meshed with the first gear 45, and by arranging the first gear 45 and the second gear 53, when the second gear 53 rotates, the rotating second gear 53 can drive the threaded cylinder 42 to rotate in the first bearing 41 through the first gear 45;

the bending die 6 is arranged in the movable assembly 3, a positioning assembly 7 is arranged between the bending die 6 and the movable assembly 3, the positioning assembly 7 comprises a positioning plate 71, the positioning plate 71 is connected with the bending die 6, a positioning groove 72 is slidably connected in the positioning plate 71, and the positioning groove 72 is arranged in the cavity 32.

The working principle and the using flow of the utility model are as follows: when the bending die 6 is required to be used, the bending die 6 is moved into the cavity 32 through the placing groove 33, the moving bending die 6 drives the positioning plate 71 to move into the positioning groove 72, the operating block 54 rotates positively, the rotating operating block 54 drives the second gear 53 to rotate through the rotating rod 52, the rotating second gear 53 drives the threaded cylinder 42 to rotate in the first bearing 41 through the first gear 45, and the rotating threaded cylinder 42 drives the clamping plate 44 to move downwards through the threaded rod 43, and the downwards moving clamping plate 44 contacts with the bending die 6 so as to fix the clamping plate in the movable plate 31.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a metal sheet bender is used in wind power generation equipment production, includes supporting component (1), its characterized in that: be equipped with drive assembly (2) in supporting component (1), drive assembly (2) are connected with movable subassembly (3), be equipped with a plurality of adjusting part (4) in movable subassembly (3), all have bending die (6) under a plurality of adjusting part (4), adjusting part (4) are connected with operating module (5), and a plurality of operating module (5) all are established in movable subassembly (3), and a plurality of bending die (6) all are established in movable subassembly (3), be equipped with locating component (7) between bending die (6) and movable subassembly (3).

2. A sheet metal bending machine for the production of wind power plants according to claim 1, characterized in that: the support assembly (1) comprises a support frame (11), the support frame (11) is connected with the female die (12), and the driving assembly (2) is arranged in the support frame (11).

3. A sheet metal bending machine for the production of wind power plants according to claim 2, characterized in that: the driving assembly (2) comprises an electric push rod (21), the bottom end of the electric push rod (21) is connected with a push plate (22), the push plate (22) is connected with a movable assembly (3), two telescopic rods (23) are connected to the push plate (22), and the two telescopic rods (23) are all arranged in the supporting frame (11).

4. A sheet metal bending machine for the production of wind power plants according to claim 3, characterized in that: the movable assembly (3) comprises a movable plate (31), the movable plate (31) is connected with a push plate (22), a cavity (32) is formed in the movable plate (31), the adjusting assembly (4) and the operating assembly (5) are arranged in the cavity (32), a placing groove (33) is formed in the front face of the movable plate (31), the bending die (6) is arranged in the cavity (32) and the placing groove (33), and the positioning assembly (7) is arranged in the cavity (32).

5. A sheet metal bending machine for the production of wind power plants according to claim 4, characterized in that: the adjusting component (4) comprises a first bearing (41), the first bearing (41) is clamped in the cavity (32), a threaded cylinder (42) is clamped in the first bearing (41), a threaded rod (43) is connected with the threaded cylinder (42) in a threaded mode, the bottom end of the threaded rod (43) is connected with a clamping plate (44), the clamping plate (44) is slidably connected in the cavity (32), the clamping plate (44) is lapped on the bending die (6), a first gear (45) is clamped outside the threaded cylinder (42), and the first gear (45) is meshed with the operating component (5).

6. The metal plate bending machine for producing wind power generation equipment according to claim 5, wherein: the operation assembly (5) comprises a second bearing (51), a rotating rod (52) is clamped in the second bearing (51), two ends of the rotating rod (52) are respectively connected with a second gear (53) and an operation block (54), and the second gear (53) is meshed with the first gear (45).

7. A sheet metal bending machine for the production of wind power plants according to claim 4, characterized in that: the positioning assembly (7) comprises a positioning plate (71), the positioning plate (71) is connected with the bending die (6), a positioning groove (72) is connected in a sliding mode in the positioning plate (71), and the positioning groove (72) is formed in the cavity (32).