CN221620616U - Feeding device of full-automatic numerical control machining bending machine - Google Patents

Abstract

The utility model discloses a feeding device of a full-automatic numerical control machining bending machine, which belongs to the technical field of bending machines and comprises a moving assembly, wherein a first adjusting assembly is arranged in the moving assembly, a placing assembly is arranged outside the first adjusting assembly, and a cam is arranged at the top end of the first adjusting assembly; according to the utility model, the first operating adjusting component drives stacked plates to move upwards, and simultaneously the first operating adjusting component drives the cam to rotate, when the uppermost plate moves to one side of the cam, the rotating cam pushes the plate to be between the upper die and the lower die of the bending machine, after the plate is bent, the first adjusting component is continuously controlled to operate, the rotating cam continues to push the plate moving to one side of the cam to the inside of the bending machine and then bending operation is carried out, a user can continuously complete feeding operation without manually carrying the plate, the problem that an operator takes time and labor to take the plate is solved, and the feeding efficiency of the plate is also improved.

Description

Feeding device of full-automatic numerical control machining bending machine

Technical Field

The utility model belongs to the technical field of bending machines, and particularly relates to a feeding device of a full-automatic numerical control machining bending machine.

Background

The numerical control bending machine is a workpiece which is formed by bending a metal plate material in a cold state into various geometric cross-sectional shapes by using a die (a general die or a special die). The sheet forming machine is a sheet forming machine designed for cold-rolled sheet metal processing, and is widely applied to sheet bending processing in the industries of automobile, airplane manufacturing, light industry, shipbuilding, container, elevator, railway vehicle and the like.

The existing bending machine is inconvenient in feeding, because the thin plate needs to be placed at a feeding port of the bending machine, workers need to feed the thin plate in a manual carrying mode, time and labor are wasted, feeding efficiency is low, and therefore a feeding device of a full-automatic numerical control machining bending machine is needed to solve the problems.

Disclosure of utility model

The utility model aims to provide a feeding device of a full-automatic numerical control machining bending machine, so as 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 loading attachment of full-automatic numerical control processing bender, includes the moving assembly, be equipped with first adjusting part in the moving assembly, be equipped with outward and place the subassembly, the top of first adjusting part is equipped with the cam, be equipped with second adjusting part and two slip subassembly in placing the subassembly, second adjusting part is connected with two slip subassemblies, and two slip subassemblies all are connected with spacing subassembly, and two spacing subassemblies all establish on placing the subassembly, one side of placing the subassembly is equipped with two direction subassemblies, and two direction subassemblies are connected with same moving assembly.

As a preferred embodiment, the moving assembly comprises a base, the base is connected with the first adjusting assembly, a protecting shell is connected to the base, the protecting shell is arranged outside the first adjusting assembly, and the base is connected with the two guiding assemblies.

As a preferred embodiment, the first adjusting component comprises a first motor, the first motor is connected to the base, an output shaft of the first motor is connected to a first threaded rod, the first threaded rod is rotatably connected to the inside of the protective shell, the top end of the first threaded rod is connected to the cam, the first threaded rod is externally threaded and connected to a first thread block, and the first thread block is arranged in the placement component.

As a preferred implementation mode, place the subassembly and include the connecting plate, the connecting plate joint is outside first screw thread piece, the connecting plate is connected with the workstation, the workstation is connected with two direction subassemblies, second adjusting part and two slip subassemblies all establish in the workstation, and two spacing subassemblies all establish on the workstation.

As a preferred implementation mode, the second adjusting component comprises a second motor, the second motor is clamped in the workbench, two ends of the second motor are connected with second threaded rods, bearings are arranged at one ends, far away from each other, of the two second threaded rods, the two bearings are clamped in the workbench, and the two second threaded rods are arranged in the sliding component.

As a preferred implementation mode, the sliding assembly comprises a second thread block, the second thread block is in threaded connection with the outside of the second threaded rod, the second thread block is in sliding connection with the sliding hole, the two sliding holes are formed in the workbench, and the second thread block is connected with the limiting assembly.

As a preferred implementation mode, the limiting assembly comprises a limiting plate, the limiting plate is connected with the second threaded block, the limiting plate is lapped on the workbench, and a plurality of rotating columns are arranged in the limiting plate.

As a preferred embodiment, the guide assembly comprises a guide sleeve, the guide sleeve is connected with the workbench, a guide rod is connected in a sliding manner in the guide sleeve, and the bottom end of the guide rod is connected with the base.

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

According to the utility model, a plurality of stacked plates are placed on the placement component through the first adjustment component, the cam, the placement component, the second adjustment component, the sliding component and the limiting component, the working first adjustment component drives the stacked plates to move upwards, the working first adjustment component drives the cam to rotate, when the upward-moving placement component drives the uppermost plate to move to one side of the cam, and the rotating cam contacts with the plate, the rotating cam pushes the plate to one side so as to push the plate to the position between an upper die and a lower die of the bending machine contacted with the placement component, after the plate is bent, the first adjustment component is continuously controlled to work, when the upward-moving placement component drives the stacked plates to move to one side of the cam, the rotating cam continuously pushes the plate to the inside of the bending machine and then carries out bending operation, and a user can continuously complete feeding operation without manually carrying the plate, so that the problem that an operator takes the plate and wastes time and labor is solved, and the feeding efficiency of the plate is also improved;

According to the utility model, the second threaded rod, the second threaded blocks, the limiting plates and the rotating columns are arranged, the second motor is controlled to work, the two second threaded blocks which are close to each other drive the plurality of rotating columns to contact with stacked plates through the limiting plates so as to limit the stacked plates on the workbench, when the rotating cams push the stacked plates, the plates can drive the plurality of rotating columns to rotate, so that the plates cannot deviate during movement, the plates can accurately move between an upper die and a lower die of the bending machine, and errors caused by deviation are not easy to occur when the plates moving into the bending machine are bent.

Drawings

FIG. 1 is a schematic diagram of a front perspective view of the present utility model;

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

Fig. 3 is a schematic diagram of a cross-sectional structure of a side view perspective of the present utility model.

In the figure: 1. a moving assembly; 11. a base; 12. a protective shell; 2. a first adjustment assembly; 21. a first motor; 22. a first threaded rod; 23. a first threaded block; 3. a cam; 4. placing the assembly; 41. a connecting plate; 42. a work table; 5. a second adjustment assembly; 51. a second motor; 52. a second threaded rod; 53. a bearing; 6. a sliding assembly; 61. a second threaded block; 62. a slide hole; 7. a limit component; 71. a limiting plate; 72. rotating the column; 8. a guide assembly; 81. a guide sleeve; 82. a guide rod.

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. 1-3, the utility model provides a feeding device of a full-automatic numerical control processing bending machine, which comprises a moving assembly 1, wherein a first adjusting assembly 2 is arranged in the moving assembly 1, the moving assembly 1 comprises a base 11, the base 11 is connected with the first adjusting assembly 2, a protecting shell 12 is connected to the base 11, the protecting shell 12 is arranged outside the first adjusting assembly 2, the base 11 is connected with two guiding assemblies 8, a placing assembly 4 is arranged outside the first adjusting assembly 2, a cam 3 is arranged at the top end of the first adjusting assembly 2, the first adjusting assembly 2 comprises a first motor 21, the first motor 21 is connected to the base 11, an output shaft of the first motor 21 is connected with a first threaded rod 22, the first threaded rod 22 is rotatably connected in the protecting shell 12, and the protecting shell 12 can limit and fix the first threaded rod 22 above the first motor 21 by arranging the protecting shell 12;

The top end of the first threaded rod 22 is connected with a cam 3, and by arranging the cam 3, the rotating cam 3 can push a plate placed on the workbench 42;

The first threaded rod 22 is externally connected with a first threaded block 23 through threads, the first threaded block 23 is arranged in the placement component 4, a second adjusting component 5 and two sliding components 6 are arranged in the placement component 4, the placement component 4 comprises a connecting plate 41, the connecting plate 41 is clamped outside the first threaded block 23, the connecting plate 41 is connected with a workbench 42, the workbench 42 is connected with two guide components 8, the second adjusting component 5 and the two sliding components 6 are arranged in the workbench 42, two limiting components 7 are arranged on the workbench 42, the second adjusting component 5 is connected with the two sliding components 6, the second adjusting component 5 comprises a second motor 51, the second motor 51 is clamped in the workbench 42, two ends of the second motor 51 are connected with second threaded rods 52, bearings 53 are arranged at the ends, far away from the two second threaded rods 52, of the two bearings 53 are clamped in the workbench 42, and the second threaded rods 52 can be limited and fixed in the workbench 42 through the bearings 53;

The two second threaded rods 52 are arranged outside the sliding assembly 6, the two sliding assemblies 6 are connected with the limiting assembly 7, the sliding assembly 6 comprises second threaded blocks 61, the second threaded blocks 61 are in threaded connection outside the second threaded rods 52, and the two second threaded rods 52 which rotate in the same direction drive the two second threaded blocks 61 to be close to or far away from each other due to the fact that the threaded directions of the two second threaded rods 52 are opposite;

The second threaded block 61 is slidably connected in the sliding hole 62, and by arranging the second threaded block 61 and the sliding hole 62, the sliding hole 62 can limit the second threaded block 61 because the second threaded block 61 is slidably connected in the sliding hole 62, so that the second threaded block 61 cannot rotate under the action of rotating the second threaded rod 52, and the second threaded block 61 can stably move along the axial direction of the second threaded rod 52 under the action of rotating the second threaded rod 52;

The two sliding holes 62 are formed in the workbench 42, the second threaded block 61 is connected with the limiting assembly 7, the two limiting assemblies 7 are arranged on the placing assembly 4, the limiting assembly 7 comprises a limiting plate 71, the limiting plate 71 is connected with the second threaded block 61, the limiting plate 71 is lapped on the workbench 42, a plurality of rotating columns 72 are arranged in the limiting plate 71, and by arranging the rotating columns 72, the rotating columns 72 are arranged between the limiting plate 71 and a plate material, when the plate material moves under the pushing of the rotating cam 3, the plate material drives the plurality of rotating columns 72 to roll in the limiting plate 71, and friction between the limiting plate 71 and the plate material is reduced by the rotating columns 72;

One side of placing the subassembly 4 is equipped with two guiding components 8, two guiding components 8 are connected with same removal subassembly 1, guiding component 8 includes uide bushing 81, uide bushing 81 is connected with workstation 42, sliding connection has guide bar 82 in uide bushing 81, the bottom and the base 11 of guide bar 82 are connected, through setting up uide bushing 81 and guide bar 82, because of sliding connection has guide bar 82 in uide bushing 81, guide bar 82 and uide bushing 81 mutually support the accessible workstation 42 and connecting plate 41 and carry out spacingly to first screw thread piece 23 for first screw thread piece 23 can not rotate under the effect of rotating first threaded rod 22, make first screw thread piece 23 can drive workstation 42 through connecting plate 41 under the effect of rotating first threaded rod 22 along the steady motion of axial direction of first threaded rod 22.

The working principle and the using flow of the utility model are as follows: placing a plurality of stacked plates on a workbench 42, pushing the device, enabling the workbench 42 in the device to be in contact with a bending machine, controlling a second motor 51 to work, enabling the working motor to drive two second threaded blocks 61 to be close to each other through two second threaded rods 52, enabling the two second threaded blocks 61 to be close to each other, enabling the limiting assemblies 7 to be close to each other, limiting the stacked plates on the workbench 42 through the two limiting assemblies 7 to be close to each other, controlling a first motor 21 to work, enabling the working first motor 21 to drive a cam 3 to rotate through the first threaded rod 22, enabling the rotating first threaded rod 22 to drive the stacked plates to move upwards through the workbench 42, enabling the working first threaded rod 22 to drive the cam 3 to rotate at the same time, enabling the rotating cam 3 to push the plates to one side when the workbench 42 which moves upwards drives the uppermost plate to one side of the cam 3, enabling the rotating cam 3 to be in contact with the plates, controlling the first motor 21 to stop working, enabling the working bending machine to operate the stacked plates, enabling the bending machine to bend the plates to move upwards, and enabling the bending machine to move upwards after the bending machine to move out of the first threaded rod 21 to move upwards, and continuing bending machine operation after bending the plates are controlled to move upwards, and bending machine 3 moves to move to one side after bending machine is moved to the plate 3 to move up to the upper die 3.

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 (8)

1. Feeding device of full-automatic numerical control processing bender, including moving subassembly (1), its characterized in that: be equipped with first adjusting part (2) in moving part (1), place subassembly (4) outside first adjusting part (2), the top of first adjusting part (2) is equipped with cam (3), be equipped with second adjusting part (5) and two slip subassembly (6) in placing subassembly (4), second adjusting part (5) are connected with two slip subassembly (6), and two slip subassembly (6) all are connected with spacing subassembly (7), and two spacing subassembly (7) all are established on placing subassembly (4), one side of placing subassembly (4) is equipped with two direction subassemblies (8), and two direction subassemblies (8) are connected with same moving part (1).

2. The loading device of the full-automatic numerical control machining bending machine according to claim 1, wherein: the movable assembly (1) comprises a base (11), the base (11) is connected with the first adjusting assembly (2), a protective shell (12) is connected to the base (11), the protective shell (12) is arranged outside the first adjusting assembly (2), and the base (11) is connected with the two guiding assemblies (8).

3. The loading device of the full-automatic numerical control machining bending machine according to claim 2, wherein: the first adjusting component (2) comprises a first motor (21), the first motor (21) is connected to the base (11), an output shaft of the first motor (21) is connected with a first threaded rod (22), the first threaded rod (22) is rotationally connected in the protective shell (12), the top end of the first threaded rod (22) is connected with the cam (3), a first threaded rod (22) is externally connected with a first threaded block (23), and the first threaded block (23) is arranged in the placement component (4).

4. A loading attachment of full-automatic numerical control machining bender according to claim 3, wherein: place subassembly (4) including connecting plate (41), connecting plate (41) joint is outside first screw thread piece (23), connecting plate (41) are connected with workstation (42), workstation (42) are connected with two direction subassemblies (8), second adjusting part (5) and two slip subassemblies (6) all establish in workstation (42), and two spacing subassemblies (7) all establish on workstation (42).

5. The loading attachment of full-automatic numerical control machining bender of claim 4, wherein: the second adjusting component (5) comprises a second motor (51), the second motor (51) is clamped in the workbench (42), two ends of the second motor (51) are connected with second threaded rods (52), bearings (53) are arranged at one ends, far away from each other, of the two second threaded rods (52), the two bearings (53) are clamped in the workbench (42), and the two second threaded rods (52) are arranged in the sliding component (6) outwards.

6. The loading attachment of full-automatic numerical control machining bender of claim 5, wherein: the sliding assembly (6) comprises a second threaded block (61), the second threaded block (61) is in threaded connection with the outside of the second threaded rod (52), the second threaded block (61) is in sliding connection with the sliding holes (62), the two sliding holes (62) are formed in the workbench (42), and the second threaded block (61) is connected with the limiting assembly (7).

7. The loading device of the full-automatic numerical control machining bending machine according to claim 6, wherein: the limiting assembly (7) comprises a limiting plate (71), the limiting plate (71) is connected with the second threaded block (61), the limiting plate (71) is lapped on the workbench (42), and a plurality of rotating columns (72) are arranged in the limiting plate (71).

8. The loading attachment of full-automatic numerical control machining bender of claim 4, wherein: the guide assembly (8) comprises a guide sleeve (81), the guide sleeve (81) is connected with the workbench (42), a guide rod (82) is connected in a sliding manner in the guide sleeve (81), and the bottom end of the guide rod (82) is connected with the base (11).