CN212240114U - Plate pressing backup plate device - Google Patents

Abstract

The utility model relates to the technical field of machining plates, and discloses a plate pressing backup plate device, which comprises a workbench and a backup plate, wherein the workbench is configured to place plates; the support frame is arranged on the workbench, and the lifting driving piece is arranged on the support frame; the pressing beam is connected to the output end of the lifting driving piece, and the XY-direction moving assembly is arranged on the pressing beam; the XY-direction moving assembly can drive the idler wheel to move in the X direction and the Y direction so as to enable the idler wheel to abut against the side face of the plate arranged on the workbench; the lifting driving piece can drive the pressing beam to press the plate materials abutted by the idler wheels. The utility model provides a material backing plate device is pressed to panel can remove the space of dodging of pressing the roof beam in vertical side, makes the compact structure of material backing plate device is pressed to panel, reduces overall structure volume.

Description

Plate pressing backup plate device

Technical Field

The utility model relates to a machining panel technical field especially relates to a panel presses material backup plate device.

Background

In the prior art, when a plate is cut on a numerical control device, a backup plate is generally used for abutting against the plate to position the plate. And after the plate is positioned, cutting the plate.

As shown in fig. 1, fig. 1 is a schematic structural diagram of a conventional numerical control plate pressing backup plate device, and a positioning plate and a backup plate in the conventional numerical control plate pressing backup plate device on the market are two relatively independent structures.

Specifically, the numerical control plate pressing backup plate device comprises a cross beam 5 located above the workbench 1 and a pressing beam 8 located below the cross beam 5, wherein the cross beam 5 is provided with a motor 3 and a chain belt pulley assembly 4 connected to the output end of the motor 3. The backup plate fixing plate 6 is connected to the output end of the chain belt pulley component 4, the motor 3 drives the chain belt pulley component 4 to transmit, and drives the backup plate fixing plate 6 to move along the horizontal direction, so as to drive the lifting cylinder 7, the side sliding plate 13 and the backup wheel 12 which are connected to the backup plate fixing plate 6 to reciprocate along the horizontal direction simultaneously, and adjust the relative position of the backup wheel 12 and the plate 11 which is placed on the workbench.

The lifting cylinder 7 is fixed on the backup plate fixing plate 6, one end of the side sliding plate 13 is connected with the output end of the lifting cylinder 7, and the other end is connected with the backup wheel 12. Under the effect of motor 3 and lift cylinder 7, the position of adjustment depended wheel 12 in horizontal direction and vertical direction promotes panel 11 through depended wheel 12 and supports and press to being located the guiding ruler 10 on the workstation, and panel 11 is fixed a position in place this moment. After the plate 11 is positioned in place, the pressing beam lifting cylinder 2 on the upright post 9 arranged on the workbench 1 drives the pressing beam 8 to descend, so that the pressing beam 8 presses the positioned plate 11.

When compressing tightly panel 11, pressure roof beam 8 is for crossbeam 5 elevating movement, consequently, need reserve out the dodge space of pressure roof beam 8 elevating movement in vertical direction to guarantee that both can not produce the position and interfere, lead to overall structure occupation space big, the structure is bulky.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a material backup plate device is pressed to panel can remove the space of dodging of pressing the roof beam in vertical side, makes the compact structure of panel material backup plate device, reduces overall structure volume, and the wheel can more be close panel simultaneously, and machine work efficiency also can obtain improving.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a sheet material backing plate device of pressing is provided, includes:

a work bench configured to place a sheet; and a process for the preparation of a coating,

the lifting driving piece is arranged on the support frame; and a process for the preparation of a coating,

the lifting driving part is arranged on the lifting frame and comprises a pressing beam connected to the output end of the lifting driving part and an XY-direction moving assembly arranged on the pressing beam; and the number of the first and second groups,

the XY-direction moving assembly can drive the idler wheel to move in the X direction and the Y direction so as to enable the idler wheel to abut against the side face of the plate arranged on the workbench;

the lifting driving piece can drive the pressing beam to press the plate materials pressed by the idler wheels.

Preferably, the XY-direction moving assembly includes:

the first X-direction moving assembly is arranged on the pressing beam, the second X-direction moving assembly is connected to the output end of the first X-direction moving assembly, and the output end of the second X-direction moving assembly is connected with the Y-direction moving assembly;

the first X-direction moving assembly can drive the second X-direction moving assembly and the Y-direction moving assembly to synchronously move along the X direction;

the second X-direction moving assembly can drive the Y-direction moving assembly to perform fine adjustment along the X direction until the idler wheel connected to the Y-direction moving assembly is in place in the X direction;

the output end of the Y-direction moving assembly is connected with the idler wheel, and the Y-direction moving assembly can drive the idler wheel to be in place along the Y direction.

Preferably, the second X-direction moving assembly includes:

the cylinder is connected to the first X-direction moving assembly;

the backup plate base is connected with the air cylinder, and the air cylinder can drive the backup plate base to reciprocate along the X direction;

the first sliding assembly is arranged on the backup plate base and is configured to provide guidance for reciprocating motion of the backup plate base along an X direction, and the Y-direction moving assembly is connected to the first sliding assembly.

Preferably, the Y-direction moving assembly includes:

the lifting cylinder is connected to the backup plate base, and the lifting cylinder and the first sliding assembly are respectively positioned on two sides of the backup plate base;

the sliding plate is connected to the output end of the lifting cylinder, the lifting cylinder drives the sliding plate to reciprocate along the Y direction, and the idler wheel is connected to the sliding plate;

and the second sliding assembly is arranged between the backup plate base and the sliding plate and provides guidance for the sliding plate to reciprocate along the Y direction.

Preferably, the first X-direction moving assembly includes:

the X-direction driving piece is arranged on the pressing beam;

and the transmission assembly is arranged on the pressing beam and connected to the output end of the X-direction driving piece, and the second X-direction moving assembly is connected to the transmission assembly.

Preferably, a guiding ruler is arranged on the workbench, one end of the plate abuts against the guiding ruler, and the other end of the plate abuts against the guiding wheel.

Preferably, the support frame is a column arranged on two sides of the workbench, and the column is provided with a lifting driving piece.

The utility model has the advantages that: the utility model discloses well XY is used for controlling the depended wheel edge X, Y to the adjustment position on it to the removal subassembly to make the depended wheel support by the side that is located the sheet material on the workstation.

The XY is to moving the subassembly and setting up on the pressure beam to, when being located the lift driving piece drive pressure beam on the support frame and descend, the pressure beam drives XY on it and moves down to the moving subassembly together, and the depended wheel supports to keep motionless by the sheet material this moment. The pressing beam descends to press the plate. Compared with the prior structure, the XY-direction moving assembly is arranged on the pressing beam, so that the original fixed beam structure is reduced, and enough space can be reserved on the upper part of the pressing beam for other mechanisms or parts to use.

And because of having reduced original fixed beam structure in this embodiment, need not to reserve the working stroke of pressing the roof beam for the XY that is located setting up on the pressure roof beam is closer to its below workstation to the removal subassembly in vertical direction. Therefore, compared with the existing structure, the plate pressing and backing device in the embodiment reduces the size of parts and the assembly requirements of the parts, so that the structure is more compact, and meanwhile, the stroke of the backing wheel reciprocating along the vertical direction is also reduced. The production cost is saved while the equipment installation efficiency is improved.

Drawings

Fig. 1 is a numerical control plate pressing backup plate device in the prior art of the utility model;

fig. 2 is a front view of the plate pressing backup plate device of the present invention;

fig. 3 is a side view of the plate pressing backup plate device of the present invention.

In the figure: 1. a work table; 2. a compression beam lifting cylinder; 3. a motor; 4. a chain pulley assembly; 5. a cross beam; 6. a backup plate fixing plate; 7. a lifting cylinder; 8. pressing the beam; 9. a column; 10. a guiding rule; 11. a plate material; 12. a idler wheel; 13. a side slide plate;

10. a work table; 20. a plate material; 30. a support frame; 40. a lifting drive member; 50. pressing the beam;

60. an XY-direction moving component; 601. a first X-direction moving assembly; 611. a motor; 612. a transmission assembly;

602. a second X-direction moving assembly; 621. a cylinder; 622. a backup plate base; 623. a first slide assembly; 6231. a first slide rail; 6232. a first slider;

603. a Y-direction moving component; 631. a lifting cylinder; 632. a sliding plate; 633. a second slide assembly; 6331. a second slide rail; 6332. a second slider;

70. a idler wheel; 80. a guiding rule.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description of the present invention and simplification of description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; either mechanically or electrically. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 2 to 3, the present embodiment provides a plate pressing and backing device, including a working table 10, where the working table 10 is configured to place a plate 20; a support frame 30 arranged on the worktable 10 and a lifting driving piece 40 arranged on the support frame 30; a pressing beam 50 connected to the output end of the lifting driving member 40 and an XY-direction moving assembly 60 arranged on the pressing beam 50; and a cam 70. The idler wheel 70 is connected to an output end of the XY-direction moving assembly 60, and the XY-direction moving assembly 60 can drive the idler wheel 70 to move in the X direction and the Y direction, so that the idler wheel 70 abuts against a side surface of the plate material 20 arranged on the workbench 10. The lifting drive 40 can drive the press beam 50 to press the slab 20 against which the wheels 70 abut.

In this embodiment, the XY-direction moving assembly 60 is used to control the position of the idler wheel 70 thereon to adjust X, Y so that the idler wheel 70 abuts against the side of the slab 20 on the table 10.

The XY-direction moving assembly 60 is disposed on the pressing beam 50, and when the lifting driving member 40 on the supporting frame 30 drives the pressing beam 50 to descend, the pressing beam 50 drives the XY-direction moving assembly 60 thereon to move downward together, and at this time, the idler wheel 70 is kept stationary against the slab 20. The pressing beam 50 descends to press the slab 20. Compared with the prior structure, the XY-direction moving assembly 60 is arranged on the pressing beam 50, so that the original fixed beam structure is reduced, and enough space can be reserved at the upper part of the pressing beam 50 for other mechanisms or components.

And because the original fixed beam structure is reduced in this embodiment, the working stroke of the pressing beam 50 does not need to be reserved in the vertical direction, so that the XY-direction moving assembly 60 arranged on the pressing beam 50 is closer to the workbench 10 below the pressing beam in the vertical direction. Therefore, compared with the existing structure, the plate pressing backup plate device in the embodiment reduces the size of the parts and the assembly requirements of the parts, so that the structure is more compact, and meanwhile, the stroke of the backup wheel 70 reciprocating in the vertical direction is also reduced. The production cost is saved while the equipment installation efficiency is improved.

Preferably, the supporting frame 30 is a column installed at both sides of the worktable 10, and the lifting driving member 40 is installed on the column.

The stand columns arranged on the two sides of the workbench 10 are used as supporting structures of the plate pressing backup plate device, all the structures are directly or indirectly arranged on the stand columns, and the whole structure is stable and simple by using the structural form of the two stand columns. The lifting driving member 40 is respectively arranged at two sides of the pressing beam 50, so that the lifting movement of the pressing beam 50 is more stable.

Preferably, the XY-direction moving assembly 60 includes a first X-direction moving assembly 601 provided on the pressing beam 50 and a second X-direction moving assembly 602 connected to an output end of the first X-direction moving assembly 601. The output end of the second X-direction moving assembly 602 is connected to a Y-direction moving assembly 603. The first X-direction moving assembly 601 can drive the second X-direction moving assembly 602 and the Y-direction moving assembly 603 to move synchronously along the X direction. The second X-direction moving assembly 602 can drive the Y-direction moving assembly 603 to make fine adjustment along the X-direction until the idler wheel 70 connected to the Y-direction moving assembly 603 is in position along the X-direction. The output end of the Y-direction moving assembly 603 is connected with the idler wheel 70, and the Y-direction moving assembly 603 can drive the idler wheel 70 to be in place along the Y direction.

The first X-direction moving assembly 601 drives the second X-direction moving assembly 602 and the Y-direction moving assembly 603 to adjust the position of the idler wheel 70 along the X direction, and the idler wheel 70 is coarsely adjusted, so that the requirement on the positioning accuracy of the first X-direction moving assembly 601 is not high.

After the first X-direction moving assembly 601 adjusts the idler wheel 70 to the position, the Y-direction moving assembly 603 drives the idler wheel 70 to descend until the position is close to the worktable 10, that is, the idler wheel 70 is located below the upper surface of the slab 20, so that the idler wheel 70 can abut against the slab 20. The Y-direction moving assembly 603 is arranged on the pressing beam 50, and compared with the prior art, the original fixed beam structure is reduced, and the working stroke of the pressing beam 50 does not need to be reserved in the vertical direction, so that the XY-direction moving assembly 60 arranged on the pressing beam 50 is closer to the workbench 10 below the pressing beam in the vertical direction, and the Y-direction moving assembly 603 is arranged on the pressing beam 50 and moves along with the lifting of the pressing beam 50, and by integrating the two factors, the lifting stroke of the Y-direction moving assembly 603 in the Y-direction is reduced. Meanwhile, the stroke of the Y-direction moving assembly 603 is reduced, and the structure of the Y-direction moving assembly 603 can be simplified, so that the assembly difficulty of the Y-direction moving assembly 603 and other structures connected with the Y-direction moving assembly can be reduced, the production cost of the Y-direction moving assembly 603 is reduced, and the production cost of the plate pressing backup plate device is reduced.

After the Y-direction moving assembly 603 is moved to the right position, the second X-direction moving assembly 602 drives the Y-direction moving assembly 603 and the idler wheel 70 on the Y-direction moving assembly 603 to precisely move in the X direction, so that the idler wheel 70 smoothly abuts against the slab 20. In the abutting process, the idler wheel 70 moves accurately in the X direction and moves slowly, so that the idler wheel 70 is in stable contact with the plate 20, and the plate 20 cannot be impacted.

The XY-direction moving assembly 60 utilizes the first X-direction moving assembly 601 to enable the idler wheel 70 to rapidly move along the X direction, the second X-direction moving assembly 602 has a small moving distance and a slow moving speed, so that the idler wheel 70 is ensured to move from the initial starting position to the movement process of abutting against the plate material 20, the moving speed of the idler wheel 70 is increased, and the working efficiency is improved. Meanwhile, the plate material 20 can be stably abutted, the plate material 20 and the idler wheel 70 are prevented from being damaged, and large noise is prevented from being generated when the idler wheel 70 is abutted against the plate material 20.

Preferably, the first X-direction moving assembly 601 includes an X-direction driving member 611 and a transmission assembly 612, both disposed on the pressing beam 50, wherein the transmission assembly 612 is connected to an output end of the X-direction driving member 611, and the second X-direction moving assembly 602 is connected to the transmission assembly 612. The X-direction driving member 611 can drive the transmission assembly 612 to move, so as to drive the second X-direction moving assembly 602 to move along the X-direction.

By utilizing the structural form of the X-direction driving piece 611 and the transmission assembly 612, the cost is low, the structure is easy to realize, and the requirement of driving the idler wheel 70 to rapidly move to the preset position close to the plate material 20 can be met.

In this embodiment, the X-direction driving member 611 is a motor, which is low in cost, and the second X-direction moving assembly 602 is disposed in the above-mentioned manner, so that the requirement on the positioning accuracy of the motor is not high, and the fault tolerance rate due to inaccurate positioning of the motor can be increased.

The transmission assembly 612 includes a first chain wheel disposed on the pressing beam 50, a second chain wheel connected to the output end of the motor, and a chain in transmission fit with the first chain wheel and the second chain wheel. The motor can drive the second X-direction moving assembly 602 connected with the chain to move horizontally through the transmission of the first chain wheel, the second chain wheel and the chain.

In other embodiments, the transmission assembly 612 can also be a belt pulley assembly connected to an output of a motor, which is connected to the belt pulley assembly.

Preferably, the second X-direction moving assembly 602 includes a cylinder 621, a backup base 622, and a first sliding assembly 623, wherein the cylinder 621 is connected to the first X-direction moving assembly 601. The backup base 622 is connected to a cylinder 621, and the cylinder 621 can drive the backup base 622 to reciprocate in the X direction. The first sliding member 623 is disposed on the backup pad base 622, the first sliding member 623 is configured to provide a guide for the backup pad base 622 to reciprocate along the X-direction, and the Y-direction moving member 603 is connected to the first sliding member 623.

The cylinder 621 is used as a driving power source for the second X-directional moving unit 602, and the cylinder 621 is connected to the chain. The air cylinder 621 has high precision, and can precisely control the displacement of the idler wheel 70 moving along the X direction. After the driving member 611 drives the idler wheel 70 to move along the X direction to a position close to the sheet material 20, the cylinder 621 is used to precisely adjust the displacement of the idler wheel 70 along the X direction, the moving stroke of the cylinder 621 for adjusting the idler wheel 70 is small, correspondingly, the cylinder 621 with a large stroke is not required to be selected, and the cost of the cylinder 621 is reduced, so that the cost of the whole sheet material pressing backup plate device is reduced.

In addition, the backup plate base 622 serves as a support structure for the Y-directional moving assembly 603, and the air cylinder 621 drives the backup plate base 622 to move so as to drive the whole Y-directional moving assembly 603 to move. When the second X-direction moving assembly 602 drives the Y-direction moving assembly 603 to move along the X direction, that is, the second X-direction moving assembly 602 drives the Y-direction moving assembly 603 and the backup plate base 622 to move along the X direction, the first sliding assembly 623 provides a guide for the backup plate base 622 to move along the X direction, and the movement precision is ensured.

Specifically, the first sliding assembly 623 includes a first sliding rail 6231 and a first sliding block 6232, which are engaged with each other to slide, the first sliding rail 6231 is mounted on the pressing beam 50, the first sliding rail 6231 is disposed along the X-direction, the first sliding block 6232 is connected to the backup plate base 622, and the backup plate base 622 is connected to the air cylinder 621. The cylinder 621 is connected to the chain, and when the motor stops working, the cylinder 621 drives the backup plate base 622 to move along the X direction, and the first sliding block 6232 slides along the first sliding rail 6231.

The air pressure of the air cylinder 621 is adjusted to make the pressing force of the backup wheel 70 driven by the air cylinder 621 to the plate material 20 different, so that the backup plate requirements of different plate materials 20 can be met.

Preferably, the Y-direction moving assembly 603 includes a lifting cylinder 631, a sliding plate 632, and a second sliding assembly 633, wherein the lifting cylinder 631 is connected to the backup board base 622, and the lifting cylinder 631 and the first sliding assembly 623 are respectively located at two sides of the backup board base 622. The sliding plate 632 is connected to an output end of the elevation cylinder 631, the elevation cylinder 631 drives the sliding plate 632 to reciprocate in the Y direction, and the idler wheels 70 are connected to the sliding plate 632. The second sliding member 633 is disposed between the backup base 622 and the sliding plate 632, and the second sliding member 633 guides the sliding plate 632 to reciprocate in the Y direction.

The lifting cylinder 631 can accurately control the idler wheel 70 to move along the Y direction, the idler wheel 70 can be controlled to move along the Y direction to directly place through the lifting cylinder 631, other structures are not needed, the structure is simple, and the cost is low.

In addition, the lifting cylinder 631 drives the idler wheel 70 on the sliding plate 632 to move, the sliding plate 632 is used as a supporting structure of the idler wheel 70, the structure is simple, the lifting movement is easily controlled by the lifting cylinder 631, the idler wheel 70 is stable in structure, and the shaking cannot occur.

Specifically, the second sliding assembly 633 comprises a second sliding rail 6331 and a second sliding block 6332, which are matched to slide, and the second sliding rail 6331 is mounted on the sliding plate 632 and arranged along the Y direction. The second slider 6332 is disposed on the backup base 622. When the pressing beam 50 descends, the idler wheel 70 always abuts against the plate material 20, the idler wheel 70 is in a static state relative to the workbench 10, and the idler wheel 70 is in a floating state relative to the pressing beam 50. That is, during the descending process of the pressing beam 50, the lifting cylinder 631 retracts, and drives the sliding plate 632 and the second sliding rail 6331 to move, and the second sliding rail 6331 slides relative to the second sliding block 6332.

Preferably, a guiding rule 80 is arranged on the working platform 10, one end of the plate material 20 abuts against the guiding rule 80, and the other end abuts against the guiding wheel 70. A guiding rule 80 is provided on the table 10 to facilitate positioning of a side surface of the slab 20 placed thereon.

Preferably, the supporting frame 30 is a column installed at both sides of the worktable 10, and the lifting driving member 40 is installed on the column.

The embodiment also provides a plate pressing backup plate method, which is used for pressing the plate by using the plate pressing backup plate device and specifically comprises the following steps:

s1, starting the plate pressing and backing device, and driving the backing wheel 70 on the XY-direction moving assembly 60 to abut against the side face of the plate 20 according to the width of the plate 20 placed on the workbench 10;

and S2, the lifting driving element 40 drives the pressing beam 50, the XY-direction moving assembly 60 on the pressing beam 50 descends until the XY-direction moving assembly abuts against the plate material 20, and the idler wheel 70 always abuts against the side surface of the plate material 20 in the descending process of the pressing beam 50.

After the plate pressing backup plate device is started, the XY-direction moving assembly 60 drives the backup wheel 70 on the XY-direction moving assembly to abut against the side face of the plate 20, the lifting driving element 40 drives the pressing beam 50 to descend, the plate 20 is pressed tightly, and two actions of backup plate and pressing plate are achieved. When the pressing beam 50 descends, the XY-direction moving assembly 60 on the pressing beam is driven to synchronously descend, compared with the prior art, the occupied space of the pressing beam 50 in the vertical direction is reduced, the structure is more compact, the stroke of the XY-direction moving assembly 60 in the vertical direction is reduced, and the working efficiency is improved.

Preferably, step S1 includes:

s11, according to the width of the sheet material 20 placed on the workbench 10, the first X-direction moving assembly 601 of the XY-direction moving assembly 60 drives the second X-direction moving assembly 602 of the XY-direction moving assembly 60 and the Y-direction moving assembly 603 of the XY-direction moving assembly 60 to move along the X direction until the idler wheel 70 mounted on the Y-direction moving assembly 603 moves to the positioning position of the edge of the sheet material 20 along the X direction;

s12, stopping the first X-direction moving component 601, and driving the idler wheel 70 to descend along Y to a preset distance away from the table top of the workbench 10 by the Y-direction moving component 603;

and S13, stopping the Y-direction moving assembly 603, and driving the Y-direction moving assembly 603 and the idler wheel 70 to synchronously move along the X direction by the second X-direction moving assembly 602 so that the idler wheel 70 abuts against the side face of the plate material 20.

Preferably, step S2 includes:

s21, the lifting/lowering driving device 40 drives the pressing beam 50 and the lifting/lowering cylinders 631 of the first X-direction moving assembly 601, the second X-direction moving assembly 602 and the Y-direction moving assembly 603 on the pressing beam 50 to synchronously descend;

meanwhile, the idler wheel 70 always abuts against the slab 20, and the second sliding assembly 633 of the Y-directional moving assembly 603 enables the sliding plate 632 of the Y-directional moving assembly 603 to slide relatively with respect to the backup plate base 622 of the second X-directional moving assembly 602. Specifically, when the pressing beam 50 descends, the second slide rail 6331 and the second slider 6331 slide relative to each other, so that the slide plate 632 slides relative to the backup base 622.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a sheet material backing plate device, its characterized in that includes:

a work bench (10) configured to place a slab (20); and a process for the preparation of a coating,

a support frame (30) arranged on the workbench (10) and a lifting driving piece (40) arranged on the support frame (30); and a process for the preparation of a coating,

a pressing beam (50) connected with the output end of the lifting driving piece (40) and an XY-direction moving assembly (60) arranged on the pressing beam (50); and the number of the first and second groups,

the idler wheel (70) is connected to the output end of the XY-direction moving assembly (60), and the XY-direction moving assembly (60) can drive the idler wheel (70) to move along the X direction and the Y direction so that the idler wheel (70) abuts against the side face of the plate (20) arranged on the workbench (10);

the lifting driving piece (40) can drive the pressing beam (50) to press the plate (20) abutted by the idler (70).

2. A sheet material pressing backup plate device according to claim 1, wherein said XY-direction moving assembly (60) comprises:

a first X-direction moving assembly (601) arranged on the pressing beam (50) and a second X-direction moving assembly (602) connected to the output end of the first X-direction moving assembly (601), wherein the output end of the second X-direction moving assembly (602) is connected with the Y-direction moving assembly (603);

the first X-direction moving assembly (601) can drive the second X-direction moving assembly (602) and the Y-direction moving assembly (603) to synchronously move along the X direction;

the second X-direction moving assembly (602) can drive the Y-direction moving assembly (603) to finely adjust along the X direction until the idler wheel (70) connected to the Y-direction moving assembly (603) is in place in the X direction;

the output end of the Y-direction moving assembly (603) is connected with the idler wheel (70), and the Y-direction moving assembly (603) can drive the idler wheel (70) to be in place along the Y direction.

3. The sheet material pressing backup plate device according to claim 2, wherein said second X-direction moving assembly (602) comprises:

a cylinder (621) connected to the first X-direction moving assembly (601);

the backup plate base (622) is connected to the air cylinder (621), and the air cylinder (621) can drive the backup plate base (622) to reciprocate along the X direction;

a first sliding assembly (623) disposed on the backup base (622), the first sliding assembly (623) configured to provide guidance for reciprocating motion of the backup base (622) along an X-direction, the Y-direction moving assembly (603) connected to the first sliding assembly (623).

4. A sheet material pressing backup plate device according to claim 3, wherein said Y-direction moving assembly (603) comprises:

the lifting cylinder (631) is connected to the backup plate base (622), and the lifting cylinder (631) and the first sliding assembly (623) are respectively positioned on two sides of the backup plate base (622);

a sliding plate (632) connected to an output end of the lifting cylinder (631), wherein the lifting cylinder (631) drives the sliding plate (632) to reciprocate along the Y direction, and the idler wheel (70) is connected to the sliding plate (632);

and the second sliding assembly (633) is arranged between the backup plate base (622) and the sliding plate (632), and the second sliding assembly (633) provides guidance for reciprocating motion of the sliding plate (632) along the Y direction.

5. The sheet material pressing backup plate device according to claim 3, wherein said first X-direction moving assembly (601) comprises:

an X-direction driving member (611) attached to the pressure beam (50);

and the transmission assembly (612) is arranged on the pressing beam (50) and connected to the output end of the X-direction driving piece (611), and the second X-direction moving assembly (602) is connected to the transmission assembly (612).

6. The plate pressing and backing device according to any one of claims 1-5, wherein a guiding rule (80) is arranged on the working table (10), one end of the plate (20) abuts against the guiding rule (80), and the other end abuts against the guiding wheel (70).

7. A plate pressing and backing device according to any one of claims 1-5, wherein said supporting frame (30) is an upright column arranged on both sides of said working table (10), and said upright column is provided with a lifting driving member (40).

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