CN218695903U - Plate processing device - Google Patents

Abstract

The utility model discloses a panel processingequipment relates to panel processingequipment technical field, panel processingequipment includes: the supporting frame is used for obliquely placing the plate, the length direction of the plate is defined as the X direction, the thickness direction of the plate is defined as the Y direction, and the width direction of the plate is defined as the Z direction; the positioning mechanism is used for positioning the plate and arranged on the supporting frame; the X-direction sliding seat is driven by the X-direction driving device to be in sliding fit with the supporting frame; the Z-direction sliding seat is driven by the Z-direction driving device to be in sliding fit with the X-direction sliding seat; the cutting device is driven by the first Y-direction driving device to be in sliding fit with the Z-direction sliding seat; and the engraving device is in sliding fit with the Z-direction sliding seat under the driving of the second Y-direction driving device. The plate processing device can complete cutting and carving, reduce repeated positioning and improve production efficiency.

Description

Plate processing device

Technical Field

The utility model relates to a panel processingequipment technical field, in particular to panel processingequipment.

Background

The vertical plate grooving machine is a device for grooving or cutting the surface of plates such as aluminum plates, the plates are placed on the inclined plane of the rack and positioned, and after the positions of the plates are determined, the plates are processed by the cutting device under the driving of the power device.

In some manufacturing procedure, after accomplishing the process of fluting or cutting to panel, still need carve panel, carry panel to the engraver from the groover for the manual work at present, accomplish the sculpture process by the engraver after the location, the engraver is mostly horizontal, and area is great, and artifical transport also has the problem that intensity of labour is big, and panel shifts to and need relocate after the new equipment and also reduced production efficiency and machining precision.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a panel processingequipment aims at providing one kind and can accomplish cutting and sculpture, reduce and relapse the location and improve production efficiency's panel processingequipment.

In order to achieve the above object, the utility model provides a plate processing device, plate processing device includes:

the supporting frame is used for obliquely placing the plate, the length direction of the plate is defined as the X direction, the thickness direction of the plate is defined as the Y direction, and the width direction of the plate is defined as the Z direction;

the positioning mechanism is used for positioning the plate and arranged on the supporting frame;

the X-direction sliding seat is driven by the X-direction driving device to be in sliding fit with the supporting frame;

the Z-direction sliding seat is driven by the Z-direction driving device to be in sliding fit with the X-direction sliding seat;

the cutting device is driven by the first Y-direction driving device to be in sliding fit with the Z-direction sliding seat;

and the engraving device is driven by the second Y-direction driving device to be in sliding fit with the Z-direction sliding seat.

Optionally, the X-direction driving device and the Z-direction driving device are a rack and pinion transmission mechanism.

Optionally, the first Y-direction driving device and the second Y-direction driving device are servo cylinders.

Optionally, the positioning mechanism includes a horizontal material supporting assembly and a vertical positioning assembly, the horizontal material supporting assembly is used for supporting the bottom of the plate, and the vertical positioning assembly is used for positioning the side surface of the plate.

Optionally, the cutting device comprises:

the first Y-direction sliding seat is in sliding fit with the Z-direction sliding seat;

the first servo cylinder is arranged on the Z-direction sliding seat, and a piston rod of the first servo cylinder is connected with the first Y-direction sliding seat;

the rotating motor is arranged on the first Y-direction sliding seat;

the driving motor is connected with an output shaft of the rotating motor;

a cutting blade connected with an output shaft of the driving motor;

the first positioning assembly is used for adjusting the cutting depth, and is arranged on the driving motor and close to the cutting blade.

Optionally, the first positioning assembly comprises a first adjusting device and a positioning wheel, and the first adjusting device drives the positioning wheel to move along the Y direction to be close to or far away from the cutting surface of the cutting blade.

Optionally, the first adjusting device comprises:

the first bracket is arranged on the driving motor;

the first motor is arranged on the first support, and an output shaft of the first motor is provided with a first synchronous wheel;

the second bracket is arranged on the driving motor and is arranged at a distance from the first bracket;

the first screw rod is rotatably arranged on the second support, a second synchronous wheel is arranged at one end of the first screw rod, and the first synchronous wheel is connected with the second synchronous wheel through a synchronous belt;

the adjusting seat is sleeved on the first screw rod in a threaded manner and is in sliding fit with the second bracket;

the mounting bracket, the one end of mounting bracket is located adjust the seat, the locating wheel is rotationally located the other end of mounting bracket.

Optionally, the engraving device comprises:

the second Y-direction sliding seat is in sliding fit with the Z-direction sliding seat;

the second servo cylinder is arranged on the Z-direction sliding seat, and a piston rod of the second servo cylinder is connected with the second Y-direction sliding seat;

the engraving machine is arranged on the second Y-direction sliding seat and is provided with an engraving machine head for engraving the plate;

the second positioning assembly can be used for adjusting the carving depth, and the second positioning assembly is arranged on the carving machine and close to the carving machine head.

Optionally, the second positioning assembly comprises a second adjusting device and a positioning ball, and the second adjusting device drives the positioning ball to move along the Y direction to be close to or far away from the end face of the engraving head.

Optionally, the second adjusting device comprises:

the third support is arranged on the engraving machine;

the second motor is arranged on the third bracket, and an output shaft of the second motor is provided with a third synchronous wheel;

the rotating seat is arranged on the engraving machine;

the second screw rod is rotatably arranged on the rotating seat, a fourth synchronizing wheel is arranged at one end of the second screw rod, and the fourth synchronizing wheel is connected with the third synchronizing wheel through a synchronous belt;

the adjusting sleeve is provided with a guide part and a thread part, the thread part is sleeved on the second screw rod, the guide part is slidably sleeved on the outer part of the engraving machine head, and the positioning ball is arranged on the guide part.

The utility model discloses technical scheme includes the support frame, positioning mechanism, X is to the sliding seat, Z is to the sliding seat, cutting device and engraving device, positioning mechanism locates the support frame and fixes a position panel, cutting device and engraving device interval are located Z to the sliding seat, and respectively by first Y to drive arrangement and second Y to drive in order to realize Y to sliding, cutting device and engraving device are close to or keep away from panel along Y to sliding promptly, Z is to drive arrangement drive Z to the sliding seat in order to realize Z to the sliding seat Z to sliding on X to the sliding seat, X is to drive arrangement drive X to the sliding seat in order to realize X to the X of sliding seat on the support frame to sliding, owing to adopted and set up the technical means of cutting device and the engraving device of independent action on Z to the sliding seat, can switch corresponding device in order to accomplish corresponding process according to the actual demand, so, it is big effectively to have solved among the prior art that cutting process and the area that the sculpture process was accomplished the existence on different devices, staff intensity of labour is big, the technical problem that production efficiency is low and the machining precision is low, and realized the completion technical problem that can reduce cutting and carve, and location, and production efficiency improve production efficiency repeatedly.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the plate processing device of the present invention;

FIG. 2 is a schematic structural view of the plate processing device of the present invention without a protective cover;

FIG. 3 is a schematic view of the structure of FIG. 2 from another perspective;

FIG. 4 is a schematic structural view of the plate processing device of the present invention;

FIG. 5 is a schematic view of the connection structure of the X-direction sliding seat, the Z-direction sliding seat, the cutting device and the carving device of the present invention;

FIG. 6 is a schematic view of the structure of FIG. 5 from another perspective;

fig. 7 is a schematic structural view of the cutting device and the engraving device of the present invention;

FIG. 8 is a schematic view of the structure of FIG. 7 from another perspective;

FIG. 9 is a schematic view of the structure of FIG. 7 from another perspective;

FIG. 10 is a schematic view of the structure of FIG. 7 from a further perspective;

the reference numbers illustrate:

a plate processing apparatus 100; a support frame 10; a horizontal material holding component 21; a vertical positioning assembly 22; an X-direction slide base 30; an X-direction drive device 31; a Z-direction sliding seat 40; a Z-direction driving device 41; a cutting device 50; a first Y-direction slide base 51; a first servo cylinder 52; a rotating motor 53; a drive motor 54; a cutting blade 55; a first positioning component 56; a first regulating device 561; a first support 5611; a first electric machine 5612; a second bracket 5613; a first lead screw 5614; an adjustment seat 5615; a mounting bracket 5616; a positioning wheel 562; an engraving device 60; a second Y-direction slide base 61; a second servo cylinder 62; an engraving machine 63; a second positioning assembly 64; the second adjusting device 641; a third bracket 6411; a second motor 6412; a rotating seat 6413; a second lead screw 6414; an adjustment sleeve 6415; a detent ball 642.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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 efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back, 8230; \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a panel processingequipment 100 under the condition of accomplishing panel location, can cut process or sculpture process to panel.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

In the embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 3, the plate processing apparatus 100 includes a support frame 10, a positioning mechanism, an X-direction sliding seat 30, a Z-direction sliding seat 40, a cutting device 50 and an engraving device 60, wherein a plate is obliquely placed on the support frame 10, the length direction of the plate is defined as the X direction, the thickness direction of the plate is the Y direction, and the width direction of the plate is the Z direction; the positioning mechanism is used for positioning the plate and is arranged on the support frame 10; the X-direction sliding seat 30 is driven by the X-direction driving device 31 to be in sliding fit with the support frame 10; the Z-direction sliding seat 40 is driven by the Z-direction driving device 41 to be in sliding fit with the X-direction sliding seat 30; the cutting device 50 is driven by the first Y-direction driving device to be in sliding fit with the Z-direction sliding seat 40; the engraving device 60 is driven by the second Y-direction driving device to be in sliding fit with the Z-direction sliding seat 40.

It can be understood that, the cutting device 50 and the engraving device 60 are disposed on the Z-direction sliding seat 40 at intervals, and are driven by the X-direction driving device 31 and the Z-direction driving device 41 to move synchronously to any position of the plate, the first Y-direction driving device drives the cutting device 50 to slide with the Z-direction sliding seat 40 to approach or separate from the plate, the second Y-direction driving device drives the engraving device 60 to slide with the Z-direction sliding seat 40 to approach or separate from the plate, i.e., the movement of the cutting device 50 and the engraving device 60 in the Y-direction is driven by different driving devices, so as to accomplish the completion of different processes, the plate processing device 100 is further provided with a positioning mechanism for positioning the plate, as shown in fig. 4, after the plate is placed on the supporting frame 10, the positioning mechanism can position the plate, after the plate is positioned, the cutting process or the engraving process can be performed on the plate according to the actual processing requirement, the positioning is not required to be repeated when the process is switched, i.e., two processes can be completed by one-time positioning, the processing precision is improved, and the labor intensity is reduced.

The utility model discloses technical scheme includes support frame 10, positioning mechanism, X is to sliding seat 30, Z is to sliding seat 40, cutting device 50 and engraving device 60, positioning mechanism locates support frame 10 and fixes a position panel, cutting device 50 and engraving device 60 interval are located Z to sliding seat 40, and respectively by first Y to drive arrangement and second Y to the drive arrangement drive in order to realize Y to sliding, cutting device 50 and engraving device 60 are close to or keep away from panel along Y to sliding promptly, Z drives Z to sliding seat 40 in order to realize Z to sliding seat 40Z to sliding on X to sliding seat 30, X drives X to sliding seat 30 in order to realize X to sliding seat 30X on support frame 10 to sliding to drive arrangement 31, owing to adopted and set up the technical means of cutting device 50 and engraving device 60 of independent action on Z to sliding seat 40, can switch corresponding device in order to accomplish corresponding process according to the actual demand, so, effectively solved among the prior art cutting process and the sculpture process and accomplish the area that exists on different devices, and then the big work efficiency of production is big, and the low production technology problem of production efficiency has been accomplished to the location repeatedly, and the positioning technology problem.

In the embodiment of the present invention, as shown in fig. 1, fig. 2, fig. 3, fig. 5, and fig. 6, the X-direction driving device 31 and the Z-direction driving device 41 are rack and pinion mechanisms. The rack and pinion transmission mechanism is a common mechanical transmission mechanism and has the characteristics of stable operation, high reliability and the like, taking an X-direction driving device 31 as an example, an X-direction rack is arranged at the top of the support frame 10, an X-direction motor is arranged on an X-direction sliding seat 30, an X-direction gear meshed with the X-direction rack is arranged on an output shaft of the X-direction motor, when the X-direction motor is started, the X-direction gear is meshed with the X-direction rack and transmits along the X-direction rack, so that the sliding fit of the X-direction sliding seat 30 and the support frame 10 is realized, in order to reduce friction force and improve guiding precision, a sliding block guide rail structure is further arranged between the support frame 10 and the X-direction sliding seat 30, a guide rail is arranged at the top of the support frame 10 and is parallel to the X-direction rack, a sliding block is arranged on the X-direction sliding seat 30, a roller wheel is arranged at a position, close to the lower part of the X-direction sliding seat 30, the roller is contacted with a position, and the roller is matched with the support frame 10 in a rolling way in the sliding process of the X-direction sliding seat 30. The Z-direction driving device 41 is the same as the X-direction driving device 31, and is a gear and rack transmission mechanism, and the detailed structure thereof is not described herein.

In an embodiment of the present invention, the first Y-direction driving device and the second Y-direction driving device are servo cylinders. Has the characteristic of high precision.

In the embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 3, the positioning mechanism includes a horizontal material supporting component 21 and a vertical positioning component 22, the horizontal material supporting component 21 is used for supporting the bottom of the plate, and the vertical positioning component 22 is used for positioning the side of the plate. The horizontal material supporting assembly 21 is provided with a plurality of positions which are arranged at intervals along the X direction and are close to the lower part of the support frame 10, the horizontal material supporting assembly 21 and the vertical positioning assembly 22 are arranged to position two adjacent side faces of the plates, the positioning precision can be improved, the plates are placed in the same position at each time, repeated positioning is not needed, and the cutting device 50 is convenient to process the plates.

In the embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the cutting device 50 includes a first Y-direction sliding seat 51, a first servo cylinder 52, a rotating motor 53, a driving motor 54, a cutting blade 55 and a first positioning assembly 56, wherein the first Y-direction sliding seat 51 is in sliding fit with the Z-direction sliding seat 40; the first servo cylinder 52 is arranged on the Z-direction sliding seat 40, and a piston rod of the first servo cylinder 52 is connected with the first Y-direction sliding seat 51; the rotating motor 53 is arranged on the first Y-direction sliding seat 51; the driving motor 54 is connected with an output shaft of the rotating motor 53; the cutting blade 55 is connected to an output shaft of the drive motor 54; a first positioning assembly 56 is provided for adjusting the depth of the cut, the first positioning assembly 56 being provided to the drive motor 54 adjacent to the cutting blade 55.

The utility model discloses in, first Y is the flat structure to sliding seat 51, first Y is to being equipped with the guide rail slider structure between sliding seat 51 and the Z to the sliding seat 40, Z is located to first servo cylinder 52 and is kept away from one side of panel to sliding seat 40, first servo cylinder 52 drives first Y and removes to sliding seat 51, in order to drive rotating motor 53, driving motor 54, cutting blade 55 and first locating component 56 are close to or keep away from panel in step, wherein, rotating motor 53 is used for adjusting cutting blade 55's cutting angle, make cutting blade 55 can carry out horizontal cut, vertical cut or arbitrary angle cutting to panel, driving motor 54 is used for driving cutting blade 55's fast rotation, the realization is cut panel, first locating component 56 is used for adjusting the degree of depth of cutting.

In the embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the first positioning assembly 56 includes a first adjusting device 561 and a positioning wheel 562, and the first adjusting device 561 drives the positioning wheel 562 to move along the Y direction to approach or be away from the cutting surface of the cutting blade 55. The distance between the lateral surface of locating wheel 562 and the cutting plane of cutting blade 55 is cutting depth, and first adjusting device 561 drives locating wheel 562 to be close to or keep away from the panel face, changes the distance between the lateral surface of locating wheel 562 and the cutting plane of cutting blade 55 promptly, and then adjusts cutting depth, and in cutting process, locating wheel 562 contacts and roll cooperation with panel, and locating wheel 562 plays limiting displacement for the cutting depth everywhere of panel is unanimous.

In an embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the first adjusting device 561 includes a first support 5611, a first motor 5612, a second support 5613, a first screw 5614, an adjusting seat 5615 and a mounting frame 5616, wherein the first support 5611 is disposed on the driving motor 54; the first motor 5612 is arranged on the first support 5611, and an output shaft of the first motor 5612 is provided with a first synchronous wheel; the second support 5613 is provided to the driving motor 54, and is spaced apart from the first support 5611; the first screw 5614 is rotatably arranged on the second support 5613, one end of the first screw 5614 is provided with a second synchronous wheel, and the first synchronous wheel is connected with the second synchronous wheel through a synchronous belt; the adjusting seat 5615 is threadedly sleeved on the first screw rod 5614 and slidably engaged with the second bracket 5613; one end of the mounting frame 5616 is arranged on the adjusting seat 5615, and the positioning wheel 562 is rotatably arranged on the other end of the mounting frame 5616.

The utility model discloses in, first motor 5612 drives first lead screw 5614 through synchronous belt drive's mode and rotates for second support 5613, at first lead screw 5614 pivoted in-process, adjust seat 5615 and mounting bracket 5616 and slide along first lead screw 5614's direction to drive locating wheel 562 and be close to or keep away from panel, the distance between the lateral surface of locating wheel 562 and cutting blade 55's the cutting plane is cutting depth promptly, through the mode that the lead screw was adjusted, can improve cutting device 50's machining precision.

In the embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the engraving device 60 includes a second Y-direction sliding seat 61, a second servo cylinder 62, an engraving machine 63 and a second positioning assembly 64, wherein the second Y-direction sliding seat 61 is in sliding fit with the Z-direction sliding seat 40; the second servo cylinder 62 is arranged on the Z-direction sliding seat 40, and a piston rod of the second servo cylinder 62 is connected with the second Y-direction sliding seat 61; the engraving machine 63 is arranged on the second Y-direction sliding seat 61, and the engraving machine 63 is provided with an engraving machine 63 head for engraving the plate; a second positioning assembly 64 may be used to adjust the depth of the engravings, the second positioning assembly 64 being located on the engraver 63, adjacent the head of the engraver 63.

The utility model discloses in, second Y is dull and stereotyped structure to sliding seat 61, second Y is equipped with the rail block structure to between sliding seat 61 and the Z to the sliding seat 40, Z is located to sliding seat 40 and is kept away from one side of panel to second servo cylinder 62, second servo cylinder 62 drive second Y removes to sliding seat 61 to drive engraver 63 and second locating component 64 and be close to or keep away from panel in step, wherein, engraver 63 is used for realizing the sculpture process of panel, second locating component 64 is used for adjusting glyptic degree of depth.

The utility model discloses in, cutting device 50 and engraving device 60 are alternative work, when cutting process to panel, then first servo cylinder 52 drive first Y removes toward the direction of being close to panel to sliding seat 51, and second servo cylinder 62 drive second Y removes toward the direction of keeping away from panel to sliding seat 61, avoid engraving device 60 to cause the influence to cutting process, when engraving process to panel, then second servo cylinder 62 drive second Y removes toward the direction of being close to panel to sliding seat 61, and first servo cylinder 52 drive first Y removes toward the direction of keeping away from panel to sliding seat 51, avoid cutting device 50 to cause the influence to engraving process.

In the embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the second positioning assembly 64 includes a second adjusting device 641 and a positioning ball 642, and the second adjusting device 641 drives the positioning ball 642 to move along the Y direction to be close to or far from the end surface of the head of the engraving machine 63. The distance between the positioning ball 642 and the front side end face of the head of the engraving machine 63 is the engraving depth, the second adjusting device 641 drives the positioning ball 642 to be close to or far away from the plate surface, namely, the distance between the positioning ball 642 and the front side end face of the head of the engraving machine 63 is changed, so that the engraving depth is adjusted, in the engraving process, the positioning ball 642 is in contact with and in rolling fit with the plate, and the positioning ball 642 plays a limiting role, so that the engraving depths of all parts of the plate are consistent.

In an embodiment of the present invention, as shown in fig. 7, 8, 9 and 10, the second adjusting device 641 comprises a third bracket 6411, a second motor 6412, a rotating seat 6413, a second screw 6414 and an adjusting sleeve 6415, wherein the third bracket 6411 is provided on the engraving machine 63; the second motor 6412 is arranged on the third bracket 6411, and an output shaft of the second motor 6412 is provided with a third synchronous wheel; the rotating seat 6413 is arranged on the engraving machine 63; the second screw rod 6414 is rotatably arranged on the rotating seat 6413, one end of the second screw rod 6414 is provided with a fourth synchronizing wheel, and the fourth synchronizing wheel is connected with the third synchronizing wheel through a synchronous belt; the adjusting sleeve 6415 has a guiding portion and a threaded portion, the threaded portion is threadedly sleeved on the second screw 6414, the guiding portion is slidably sleeved on the outside of the head of the engraving machine 63, and the positioning ball 642 is disposed on the guiding portion.

The utility model discloses in, second motor 6412 passes through synchronous belt drive's mode and drives second lead screw 6414 and rotates for rotating seat 6413, at second lead screw 6414 pivoted in-process, adjusting collar 6415 slides along second lead screw 6414's direction, wherein, the direction is relative to engraver 63 head back-and-forth movement, screw thread portion is relative to second lead screw 6414 back-and-forth movement, thereby it is close to or keeps away from panel to drive location ball 642, the distance between the front side terminal surface of location ball 642 and engraver 63 head is the sculpture degree of depth promptly, mode through the lead screw regulation, can improve engraving device 60's machining precision.

The utility model discloses in, as shown in fig. 1 and fig. 3, Z is still equipped with the protection casing that is used for sheltering from cutting device 50 and engraving device 60 to sliding seat 40, and the protection casing plays dustproof effect, avoids the metal fines that cutting or sculpture in-process produced to influence the normal work of motor or rail block structure.

The above is only the optional embodiment of the present invention, and not limiting the patent scope of the present invention, all under the inventive concept of the present invention, the equivalent structure transformation made by the contents of the specification and the attached drawings is utilized, or the direct/indirect application is included in other related technical fields in the patent protection scope of the present invention.

Claims (10)

1. A sheet processing apparatus, characterized in that the sheet processing apparatus comprises:

the supporting frame is used for obliquely placing the plate, the length direction of the plate is defined as the X direction, the thickness direction of the plate is defined as the Y direction, and the width direction of the plate is defined as the Z direction;

the positioning mechanism is used for positioning the plate and arranged on the supporting frame;

the X-direction sliding seat is driven by the X-direction driving device to be in sliding fit with the supporting frame;

the Z-direction sliding seat is driven by the Z-direction driving device to be in sliding fit with the X-direction sliding seat;

the cutting device is driven by the first Y-direction driving device to be in sliding fit with the Z-direction sliding seat;

and the engraving device is in sliding fit with the Z-direction sliding seat under the driving of the second Y-direction driving device.

2. The sheet processing apparatus as defined in claim 1 wherein, said X-direction drive means and said Z-direction drive means are rack and pinion mechanisms.

3. The sheet processing apparatus as claimed in claim 1, wherein said first Y-direction driving means and said second Y-direction driving means are servo cylinders.

4. The sheet processing apparatus as claimed in claim 1, wherein said positioning mechanism comprises a horizontal supporting member for supporting the bottom of the sheet and a vertical positioning member for positioning the side of the sheet.

5. A sheet processing apparatus as set forth in claim 3, wherein said cutting means includes:

the first Y-direction sliding seat is in sliding fit with the Z-direction sliding seat;

the first servo cylinder is arranged on the Z-direction sliding seat, and a piston rod of the first servo cylinder is connected with the first Y-direction sliding seat;

the rotating motor is arranged on the first Y-direction sliding seat;

the driving motor is connected with an output shaft of the rotating motor;

a cutting blade connected with an output shaft of the driving motor;

the first positioning assembly is used for adjusting the cutting depth and is arranged on the driving motor and close to the cutting blade.

6. The sheet processing apparatus as set forth in claim 5, wherein said first positioning member includes a first adjusting device and a positioning wheel, said first adjusting device driving said positioning wheel to move in the Y direction to approach or move away from the cutting surface of said cutting blade.

7. The sheet processing apparatus as set forth in claim 6, wherein said first adjusting means includes:

the first bracket is arranged on the driving motor;

the first motor is arranged on the first support, and an output shaft of the first motor is provided with a first synchronous wheel;

the second bracket is arranged on the driving motor and is arranged at a distance from the first bracket;

the first screw rod is rotatably arranged on the second support, a second synchronous wheel is arranged at one end of the first screw rod, and the first synchronous wheel is connected with the second synchronous wheel through a synchronous belt;

the adjusting seat is sleeved on the first screw rod in a threaded manner and is in sliding fit with the second bracket;

the mounting bracket, the one end of mounting bracket is located adjust the seat, the locating wheel is rotationally located the other end of mounting bracket.

8. The sheet processing apparatus as defined in claim 3 wherein, said engraving means comprises:

the second Y-direction sliding seat is in sliding fit with the Z-direction sliding seat;

the second servo cylinder is arranged on the Z-direction sliding seat, and a piston rod of the second servo cylinder is connected with the second Y-direction sliding seat;

the engraving machine is arranged on the second Y-direction sliding seat and is provided with an engraving machine head for engraving the plate;

the second positioning assembly can be used for adjusting the carving depth, and the second positioning assembly is arranged on the carving machine and close to the carving machine head.

9. The sheet processing apparatus of claim 8 wherein said second positioning assembly includes a second adjustment device and a positioning ball, said second adjustment device driving said positioning ball in a Y-direction to move toward or away from an end face of said engraver head.

10. The sheet processing apparatus as claimed in claim 9, wherein said second adjusting means comprises:

the third support is arranged on the engraving machine;

the second motor is arranged on the third support, and an output shaft of the second motor is provided with a third synchronizing wheel;

the rotating seat is arranged on the engraving machine;

the second screw rod is rotatably arranged on the rotating seat, a fourth synchronizing wheel is arranged at one end of the second screw rod, and the fourth synchronizing wheel is connected with the third synchronizing wheel through a synchronous belt;

the adjusting sleeve is provided with a guide part and a thread part, the thread part is sleeved on the second screw rod, the guide part is slidably sleeved on the outer part of the engraving machine head, and the positioning ball is arranged on the guide part.

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