CN218744082U - Rear positioning device of full-servo numerical control bending machine - Google Patents

Abstract

The utility model relates to a panel beating equipment technical field, and a positioner behind full servo numerical control bender is disclosed, drive L axle lead screw through L axle motor, make the panel beating cardboard move about can, use through the cooperation of Z axle motor with gear and belt and drive Z axle lead screw, make the panel beating cardboard move from top to bottom, use through the cooperation of Y axle motor with gear and pinion rack and drive Y axle guide rail, make the panel beating cardboard can carry out the seesaw, use through the cooperation of Z axle deceleration inductor and Z axle speed reducer simultaneously, the cooperation of Y axle deceleration inductor and Y axle speed reducer is used and the setting of installation L axle deceleration inductor, it is high to have realized back positioning accuracy, it is fast and have whereabouts self-locking function's effect, thereby be favorable to improving the bending size precision of bending the product, the qualification rate is improved, and the production efficiency is improved.

Description

Rear positioning device of full-servo numerical control bending machine

Technical Field

The utility model relates to a sheet metal processing equipment technical field specifically is a positioner behind full servo numerical control bender.

Background

The bending machine is a machine capable of bending thin plates, and mainly structurally comprises a support, a workbench and a clamping plate, wherein the workbench is arranged on the support and comprises a base and a pressing plate, the base is connected with the clamping plate through a hinge and comprises a seat shell, a coil and a cover plate, the coil is arranged in a recess of the seat shell, and the cover plate covers the top of the recess. When the clamping device is used, the coil is electrified by the lead, and the attraction is generated on the pressing plate after the coil is electrified, so that the thin plate between the pressing plate and the base is clamped. Due to the adoption of electromagnetic force clamping, the pressing plate can meet the requirements of various workpieces, the workpieces with side walls can be machined, the operation is very simple and convenient, the rear positioning precision of most of bending machines in the market at present is low, the speed is low, the automation degree is low, the operation is difficult, the product yield is low, only a few coarse metal plates with low requirements can be machined, the speed is low, the production efficiency is low, the automation degree is low, the labor and the energy consumption of workers are large, the production efficiency of the metal plates is influenced, and the rear positioning device for the full-servo numerical control bending machine is low in practicability.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a positioner behind full servo numerical control bender possesses stable, accurate, high-speed, the advantage of good regulation, and the back positioning accuracy who has solved the above-mentioned bender is low, and speed is slow, and degree of automation is low, the difficult problem of operation.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a positioner behind full servo numerical control bender, the positive both sides at the back of L axle guide rail all are provided with Z axle guide rail, two the equal sliding connection in one side that the Z axle guide rail is close to each other has Z axle slide, the top sliding connection of L axle guide rail has L axle slide, the equal threaded connection in both sides at the positive and back of L axle slide has with Z axle slide fixed connection's Z axle lead screw, two the equal sliding connection in top of Z axle guide rail has Y axle guide rail, the inside of Y axle guide rail is installed respectively with Z axle motor and Z axle speed reducer that Z axle lead screw cooperation was used, one side fixed mounting of Z axle guide rail has Z axle speed reduction inductor, the top sliding connection of Y axle guide rail has Y axle slide, one side fixed mounting of Y axle slide has Y axle speed reducer and Y axle motor respectively, the opposite side bolt of Y axle slide has the dog block subassembly, one side fixed mounting of Y axle guide rail has Y axle speed reduction inductor, the inside fixed mounting of L axle guide rail has L axle motor, the output fixed connection of L axle motor has L axle slide threaded connection with L axle slide one side, one side of L axle speed reduction inductor is installed.

Preferably, one side of the L-axis guide rail is bolted with an L-axis baffle, one side of the Y-axis guide rail is bolted with a Y-axis stop dog, and elastic coatings are bonded on one sides of the Y-axis stop dog and the L-axis baffle.

Preferably, the surface of the Z-axis screw rod is sleeved with a lifting cushion block fixedly connected with the Y-axis guide rail, and the lifting cushion block is made of elastic materials.

Preferably, a plurality of sliding grooves with different sizes are formed in the top of the L-axis guide rail and one side of the Y-axis guide rail.

Compared with the prior art, the beneficial effects of the utility model are as follows:

the utility model discloses a L axle motor drives L axle screw, make the panel beating cardboard can control and move, use the cooperation through Z axle motor and gear and belt and drive Z axle screw, make the panel beating cardboard can move from top to bottom, use the drive Y axle guide rail through the cooperation of Y axle motor and gear and pinion rack, make the panel beating cardboard can carry out the seesaw, use through the cooperation of Z axle deceleration inductor and Z axle speed reducer simultaneously, the cooperation of Y axle deceleration inductor and Y axle speed reducer is used and the setting of installation L axle deceleration inductor, it is high to have realized back positioning accuracy, fast and have whereabouts self-locking function's effect, thereby be favorable to improving the bending size precision of the product of bending, the qualification rate is improved, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention;

fig. 3 is a side sectional view of the present invention.

In the figure: 1. an L-axis guide rail; 2. a Z-axis guide rail; 3. a Z-axis slide plate; 4. an L-axis slide plate; 5. a Z-axis lead screw; 6. a Y-axis guide rail; 7. a Y-axis slide plate; 8. a stop block assembly; 9. a Y-axis reducer; 10. a Y-axis motor; 11. A Y-axis deceleration sensor; 12. an L-axis motor; 13. an L-axis lead screw; 14. an L-axis deceleration sensor; 15. a Z-axis deceleration sensor; 16. a Y-axis stop block; 17. lifting the cushion block; 18. an L-axis baffle; 19. a Z-axis motor; 20. And a Z-axis speed reducer.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, 2 and 3, a rear positioning device of a full-servo numerical control bending machine comprises an L-axis guide rail 1, Z-axis guide rails 2 are arranged on both sides of the front surface and the back surface of the L-axis guide rail 1, a Z-axis sliding plate 3 is slidably connected to one side of each of the two Z-axis guide rails 2 close to each other, an L-axis sliding plate 4 is slidably connected to the top of the L-axis guide rail 1, Z-axis screws 5 fixedly connected to the Z-axis sliding plates 3 are threadedly connected to both sides of the front surface and the back surface of the L-axis sliding plate 4, a Y-axis guide rail 6 is slidably connected to the tops of the two Z-axis guide rails 2, a Z-axis motor 19 and a Z-axis speed reducer 20 are respectively installed inside the Y-axis guide rail 6 and used in cooperation with the Z-axis screws 5, a Z-axis speed reduction sensor 15 is fixedly installed on one side of the Z-axis guide rail 2, a Y-axis sliding plate 7 is slidably connected to the top of the Y-axis guide rail 6, a Y-axis speed reducer 9 and a Y-axis motor 10 are respectively fixedly installed on one side of the Y-axis sliding plate 7, a stop block assembly 8 is bolted to the other side of the Y-axis sliding plate 7, an L-axis sliding plate 12 is fixedly installed on one side of the L-axis guide rail 1, an L-axis induction motor 12 is fixedly connected to the L-axis sliding plate 12, and connected to the L-axis slide bar 4, and connected to the L-axis slide bar 12, and the L-axis slide bar.

Furthermore, an L-axis baffle 18 is bolted on one side of the L-axis guide rail 1, a Y-axis baffle 16 is bolted on one side of the Y-axis guide rail 6, elastic coatings are bonded on one sides of the Y-axis baffle 16 and the L-axis baffle 18, and the Y-axis baffle 16 and the L-axis baffle 18 are arranged to limit the sliding of the sliding device.

Furthermore, the surface of the Z-axis screw 5 is sleeved with a lifting cushion block 17 fixedly connected with the Y-axis guide rail 6, the lifting cushion block 17 is made of elastic materials, and the buffer during lifting can be reduced by arranging the lifting cushion block 17.

Further, a plurality of chutes with different sizes are formed in the top of the L-axis guide rail 1 and one side of the Y-axis guide rail 6, and guide rails with different sizes can be installed for use by arranging the plurality of chutes with different sizes.

The working principle is as follows: when a user needs to accurately position a metal plate, firstly, the L-axis motor 12 drives the L-axis lead screw 13 to enable the L-axis motor to slide at the top of the L-axis guide rail 1 to drive the metal plate clamping plate to move left and right, then the Z-axis motor 19 is matched with a gear and a belt to drive the Z-axis lead screw 5 to enable the Z-axis sliding plate 3 to slide between the Z-axis guide rail 2 to drive the metal plate clamping plate to move up and down, then the Y-axis motor 10 is matched with the gear and a toothed plate to drive the Y-axis guide rail 6 to enable the Y-axis sliding plate 7 to slide with the Y-axis guide rail 6 to drive the metal plate clamping plate to move back and forth, when the back positioning needs to be automatically locked, the Z-axis speed reducer 20 is enabled to move up and down to be automatically locked through the Z-axis speed reducer 15 transmission signal, the Y-axis speed reducer 9 is enabled to move back and forth through the Y-axis speed reducer 11 transmission signal, and the L-axis speed reducer 14 is enabled to move left and right.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising one of 8230; \8230;" 8230; "does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

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

Claims (4)

1. The utility model provides a positioner behind full servo numerical control bender, includes L axle guide rail (1), its characterized in that: the L-axis guide rail comprises an L-axis guide rail (1), Z-axis guide rails (2) are arranged on the front side and the back side of the L-axis guide rail (1), two Z-axis sliding plates (3) are slidably connected to one sides of the Z-axis guide rails (2) close to each other, an L-axis sliding plate (4) is slidably connected to the top of the L-axis guide rail (1), Z-axis screws (5) fixedly connected with the Z-axis sliding plates (3) and two Z-axis guide rails (6) are threadedly connected to the two sides of the front side and the back side of the L-axis sliding plates (4), Z-axis motors (19) and Z-axis speed reducers (20) matched with the Z-axis screws (5) are respectively installed in the Y-axis guide rail (6), Z-axis speed reduction inductors (15) are fixedly installed on one sides of the Z-axis guide rails (2), Y-axis sliding plates (7) are slidably connected to the top of the Y-axis guide rail (6), Y-axis sliding plates (7) are fixedly installed on one sides of the Y-axis sliding plates (7) respectively, Y-axis speed reducers (9) and Y-axis motors (12) are fixedly installed on the other sides of the L-axis sliding plates (12) connected with L-axis guide rails (6), and L-axis guide rails (12) and L-axis bearings (13), and an L-axis deceleration sensor (14) is fixedly mounted on one side of the L-axis motor (12).

2. The rear positioning device of full-servo numerical control bending machine according to claim 1, characterized in that: one side of the L-axis guide rail (1) is bolted with an L-axis baffle (18), one side of the Y-axis guide rail (6) is bolted with a Y-axis stop block (16), and one sides of the Y-axis stop block (16) and the L-axis baffle (18) are both bonded with an elastic coating.

3. The rear positioning device of the full-servo numerical control bending machine according to claim 1, characterized in that: and a lifting cushion block (17) fixedly connected with the Y-axis guide rail (6) is sleeved on the surface of the Z-axis screw rod (5) in a sticking manner, and the lifting cushion block (17) is made of elastic material.

4. The rear positioning device of full-servo numerical control bending machine according to claim 1, characterized in that: a plurality of sliding grooves different in size are formed in the top of the L-axis guide rail (1) and one side of the Y-axis guide rail (6).

Images