CN113618854A

CN113618854A - Multi-head engraving machine

Info

Publication number: CN113618854A
Application number: CN202110923457.XA
Authority: CN
Inventors: 郑海涛
Original assignee: Zhejiang Haokai Cnc Equipment Co ltd
Current assignee: Zhejiang Haokai Cnc Equipment Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2021-11-09

Abstract

The invention relates to a multi-head engraving machine, which comprises a bed body, a cross beam, a tool head frame and more than two engraving heads, wherein the cross beam is arranged on the bed body in a manner of moving back and forth, the tool head frame is arranged on the cross beam in a manner of moving left and right, the multi-head engraving machine also comprises a distance adjusting mechanism for adjusting the distance between the engraving heads, the distance adjusting mechanism comprises a distance adjusting guide rail arranged on the tool head frame along the left and right direction, at least one engraving head is arranged on the distance adjusting guide rail, and the distance adjusting mechanism also comprises a engraving head transverse movement driving structure for driving the engraving heads on the distance adjusting guide rail to move along the distance adjusting guide rail. When the distance between the carving heads needs to be adjusted in work, the carving heads on the distance-adjusting guide rail are driven to move leftwards or rightwards for a certain distance by the transverse moving driving structure of the carving heads, and the distance is adjusted to be a proper distance. Compared with the prior art, the efficiency of carving head spacing adjustment work is improved, manpower is saved, spacing adjustment is accurate, manual measurement is not needed, and machining quality is improved.

Description

Multi-head engraving machine

Technical Field

The invention belongs to the field of woodworking machinery, and particularly relates to a multi-head engraving machine.

Background

The engraving machine is widely applied to the wood industry, the advertising industry, the process industry, the die industry, the building industry, the printing and packaging industry and the decoration industry, and can engrave various materials such as a carpenter board, a density board, an acrylic organic board, a PVC board, a cotton rose board, a two-color board, marble, jade, a fireproof board, a rubber board, glass and the like. The single-head engraving machine can only process one workpiece at a time, and the multi-head engraving machine is provided with a plurality of engraving heads and gravers, so that a plurality of same workpieces can be processed simultaneously, and the work efficiency is improved.

The Chinese utility model discloses a bull engraver (notice No. CN201761267U, notice day: 2011.3.16), including the bed body, Y to crossbeam, a plurality of carving head, inverter cabinet, switch, each direction control module, bed body both sides are equipped with X to the guide rail, Y is fixed on the bed body to crossbeam both ends through X to the guide rail activity, is equipped with the tool rest on the Y to the crossbeam, and the carving head is fixed on the tool rest, and the inside clamp that connects through Z to guide rail and Z to the lead screw that is equipped with of carving head, fixes the sculpture motor that is equipped with the burin on the clamp. When the device works, the control modules in all directions control the engraving head to move, and a plurality of workpieces are machined simultaneously.

The disclosed bull engraver of above-mentioned patent, when Y rotated to the lead screw, each carving head was synchronous motion, and the unable automatically regulated of interval between the carving head, because different work piece widths are different, the carving head interval of needs is also different, therefore often needs manual regulation carving head interval, influences machining efficiency, and manual regulation has the error, influences processingquality.

Disclosure of Invention

The invention aims to provide a multi-head engraving machine, which solves the problem that the spacing between engraving heads on the existing multi-head engraving machine cannot be automatically adjusted.

In order to achieve the purpose, the multi-head engraving machine adopts the following technical scheme: the utility model provides a bull engraver includes the bed body, the crossbeam, tool bit frame and the carving head more than two, the crossbeam can be installed on the bed body with moving back and forth, the tool bit frame can be installed on the crossbeam with moving left and right, the bull engraver still includes the roll adjustment mechanism who is used for adjusting the carving head interval, roll adjustment mechanism includes the roll adjustment guide rail that sets up along left right direction on the tool bit frame, at least one carving head is installed on the roll adjustment guide rail, roll adjustment mechanism still includes the carving head lateral shifting drive structure that is used for driving the carving head on the roll adjustment guide rail and removes along the roll adjustment guide rail.

Has the advantages that: when the distance between the carving heads needs to be adjusted in work, the carving heads on the distance-adjusting guide rails are driven to move leftwards or rightwards for a certain distance by the aid of the transverse moving driving structure of the carving heads, and after the distance is adjusted, the transverse moving driving structure of the carving heads stops working and then starts to process workpieces. Compared with the prior art, the efficiency of carving head spacing adjustment work is improved, manpower is saved, spacing adjustment is accurate, manual measurement is not needed, and machining quality is improved.

Furthermore, the engraving head transverse movement driving structure comprises a distance adjusting screw rod which is arranged on the tool head frame in parallel to the distance adjusting guide rail, the distance adjusting screw rod is provided with a left distance adjusting screw rod section and a right distance adjusting screw rod section which are opposite in thread turning direction, and the engraving head is arranged on the distance adjusting screw rod through a screw rod nut matched with the distance adjusting screw rod.

Furthermore, the distance-adjusting screw rod is also provided with a middle section of the distance-adjusting screw rod arranged between the left section and the right section of the distance-adjusting screw rod, and the middle section of the distance-adjusting screw rod is a polished rod structure for installing the engraving head at the middle position.

Furthermore, the number of the distance adjusting guide rails is two, the two distance adjusting guide rails are arranged at intervals up and down, the distance adjusting screw rod is arranged between the two distance adjusting guide rails, the transverse moving driving structure of the engraving head further comprises a distance adjusting screw rod driving motor, and the distance adjusting screw rod driving motor is in transmission connection with one end of the distance adjusting screw rod.

Furthermore, the roll adjustment mechanism further comprises an engraving head mounting seat arranged on the roll adjustment guide rail, the engraving head mounting seat comprises two sliders which are arranged on the two roll adjustment guide rails in a halving mode, an engraving head mounting plate is arranged at the top of each slider, a screw nut is arranged on the bottom surface of each engraving head mounting plate, and each engraving head is respectively arranged on the corresponding engraving head mounting plate.

Furthermore, the tool bit frame is provided with a limiting screw of the engraving head mounting seat for stopping the screw nut so as to prevent the engraving head mounting seat from sliding out of the distance-adjusting guide rail.

Further, the multi-head engraving machine further comprises a beam mounting seat arranged between the bed body and the beam, the beam mounting seat is installed on the beam guide rail in a guiding mode, the beam mounting seat is provided with a mounting seat vertical plate for mounting a beam driving mechanism and a mounting seat supporting plate horizontally arranged at the top of the mounting seat vertical plate, a beam supporting column used for supporting the beam is arranged at the top of the mounting seat supporting plate, the mounting seat supporting plate extends forwards and/or backwards out of the beam supporting column, and a pressing wheel installing structure for installing a pressing wheel of the engraving machine is arranged on the part, extending out of the beam supporting column, of the mounting seat supporting plate.

Furthermore, one side of mount pad backup pad aligns with the mount pad riser in the front-back direction, the opposite side surpasss the mount pad riser, is equipped with a vertical baffle respectively in the front side and the rear side of mount pad riser on the bottom surface of mount pad backup pad, and the bull engraver is still including being used for installing in order to cover the inside mount pad oversheath of crossbeam mount pad with crossbeam actuating mechanism between two vertical baffles.

Furthermore, the number of the pinch roller mounting structures is two, one of the pinch roller mounting structures is arranged between the two vertical partition plates, and the other pinch roller mounting structure is arranged on the outer side of the two vertical partition plates.

Furthermore, the beam supporting column is provided with a supporting column central hole with a central line extending up and down, and the beam bottom plate and the mounting base supporting plate are respectively provided with a communicating hole for being in butt joint with the supporting column central hole.

Drawings

FIG. 1 is a first perspective view of a multi-head engraver according to an embodiment of the present invention;

FIG. 2 is a second perspective view of the multi-head engraving machine of the present invention (with the outer cover of the mounting base hidden);

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a first schematic view of the assembly of the beam, the head frame and the engraving head;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a second schematic view of the assembly of the beam, the head frame and the engraving head;

FIG. 7 is a schematic structural view of an outer shroud of the mounting base;

FIG. 8 is a schematic structural view of a distance-adjusting screw rod;

FIG. 9 is a first schematic structural view of the beam mount;

fig. 10 is a second schematic structural view of the beam mount.

In the figure: 100-bed body, 200-beam, 300-tool head frame, 400-engraving head, 410-engraving motor, 510-X guide structure, 511-X guide rail, 512-X drive mechanism, 520-Y guide mechanism, 530-Z guide mechanism, 610-distance adjusting guide rail, 620-distance adjusting screw rod, 621-distance adjusting screw rod left section, 622-distance adjusting screw rod right section, 623-distance adjusting screw rod middle section, 630-engraving head mounting seat, 631-sliding block, 632-engraving head mounting plate, 633-screw rod nut, 640-distance adjusting screw rod drive motor, 650-engraving head mounting seat limit screw, 700-beam mounting seat, 710-mounting seat vertical plate, 720-mounting seat support plate, 721-pinch roller mounting structure, 730-beam support column, 710-mounting seat vertical plate, 720-mounting seat support plate, 721-pinch roller mounting structure, 731-support column center hole, 740-vertical partition plate, 750-mounting base outer protective cover.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

A multi-head engraving machine, as shown in fig. 1 to 10, comprises a bed 100, a beam 200, a tool bit holder 300 and five engraving heads 400, wherein the beam 200 is mounted on the bed 100 through an X-direction guide 510 in a manner of moving back and forth, the tool bit holder 300 is mounted on the beam 200 through a Y-direction guide 520 in a manner of moving left and right, and the engraving heads 400 comprise an engraving motor 410 and a Z-direction guide 530 for driving the engraving motor 410 to move up and down.

The multi-head engraving machine further comprises a distance adjusting mechanism for adjusting the distance between the engraving heads 400, the distance adjusting mechanism comprises distance adjusting guide rails 610 arranged on the tool head frame 300 in the left-right direction, the number of the distance adjusting guide rails 610 is two, the two distance adjusting guide rails 610 are arranged at intervals from top to bottom, five engraving head mounting seats 630 are arranged on the distance adjusting guide rails 610, each engraving head mounting seat 630 comprises two sliding blocks 631 arranged on the two distance adjusting guide rails 610 in a halving mode, the tops of the sliding blocks 631 are provided with engraving head mounting plates 632 of a rectangular structure, and each engraving head 400 is respectively mounted on the corresponding engraving head mounting plate 632. The pitch mechanism also includes a engraving head lateral movement drive structure for driving the engraving head 400 to move along the pitch guide 610.

The engraving head lateral movement driving structure comprises a distance adjusting screw 620 arranged on the tool head frame 300 in parallel to the distance adjusting guide rail 610, wherein the distance adjusting screw 620 is provided with a distance adjusting screw left section 621, a distance adjusting screw right section 622 and a distance adjusting screw middle section 623. The middle section 623 of the distance-adjusting screw rod is of a polished rod structure. The thread turning direction of the left section 621 of the distance-adjusting screw rod is opposite to that of the right section 622 of the distance-adjusting screw rod, and a screw nut 633 matched with the distance-adjusting screw rod 620 is arranged on the bottom surface of the engraving head mounting plate 632.

One of the engraving heads 400 is installed on the middle section 623 of the distance adjusting screw rod, and the remaining four engraving heads 400 are divided into two groups and installed on the left section 621 and the right section 622 of the distance adjusting screw rod respectively. The engraving head lateral movement driving structure further comprises a distance adjusting screw rod driving motor 640, and the distance adjusting screw rod driving motor 640 is in transmission connection with one end of the distance adjusting screw rod 620. In addition, the tool head frame 300 is provided with an engraving head mounting seat limit screw 650 for stopping the screw nut 633 so as to prevent the engraving head mounting seat 630 from sliding out of the distance adjusting guide rail 610.

When the distance between the engraving heads 400 needs to be adjusted in work, a distance adjusting button on the control cabinet is pressed, the distance adjusting screw rod driving motor 640 is started, the two engraving heads on the left side and the engraving heads on the right side move in opposite directions or in back directions under the driving of the distance adjusting screw rod 620, the position of the engraving head 400 in the middle position is fixed, the distance adjusting screw rod driving motor 640 stops working after the distance is adjusted, and the engraving machine starts to process workpieces. Compared with the prior art, the efficiency of carving head spacing adjustment work is improved, manpower is saved, spacing adjustment is accurate, manual measurement is not needed, and machining quality is improved.

The multi-head engraving machine further comprises engraving machine pressing wheels (omitted in the drawing) and a cross beam mounting seat 700 arranged between the bed body 100 and the cross beam 200, the cross beam mounting seat 700 is installed on the X-direction guide rails 511 in a guiding mode, the cross beam mounting seat 700 is provided with a mounting seat vertical plate 710 for installing the X-direction driving mechanism 512 and a mounting seat supporting plate 720 horizontally arranged at the top of the mounting seat vertical plate 710, and a cross beam supporting column 730 used for supporting the cross beam 200 is arranged at the top of the mounting seat supporting plate 750.

Engraver pinch roller generally sets up in pairs, sets up respectively at the front side and the rear side of carving head 400, and engraver pinch roller and crossbeam 200 synchronous movement in the work for compress tightly the work piece near carving head 400, the engraver pinch roller generally includes the pinch roller and sets up the clamping ring on the pinch roller, and the clamping ring has a plurality ofly, and each clamping ring sets up at the interval side by side on pinch roller axis extending direction. The mounting base support plate 720 extends backward beyond the beam support column 730, and a pressing wheel mounting structure 721 for mounting a pressing wheel of the engraving machine is arranged on the portion of the mounting base support plate 720 extending beyond the beam support column 730.

The preceding side of mount backup pad 720 aligns with the preceding side of mount riser 710, and mount backup pad 720 back side is to surpassing mount riser 710 back side, is equipped with a vertical baffle 740 respectively in the front side and the rear side of mount riser 710 on the bottom surface of mount backup pad 720, and the bull engraver is still including being used for installing between two vertical baffles 740 in order to cover X to actuating mechanism 512 at the inside mount pad oversheath 750 of crossbeam mount pad 700.

Two of the puck mounting structures 721 are provided, with one puck mounting structure 721 disposed between two vertical partitions 740 and the other puck mounting structure 721 disposed outside of two vertical partitions 740. The beam support column 730 has a support column center hole 731 extending up and down along the center line, and the bottom plate of the beam 200 and the mounting base support plate 720 are respectively provided with a communication hole for butting with the support column center hole 731.

When in use, the mounting seat of the pressure wheel of the engraving machine is arranged on the pressure wheel mounting structure 721, and then the pressure wheel of the engraving machine is arranged on the mounting seat of the pressure wheel of the engraving machine. Compared with the prior art, the crossbeam mount pad of an integral type structure is provided, has saved the engraver pinch roller mounting bracket on the original equipment, can install the engraver pinch roller fast during the use, improves work efficiency.

In other embodiments, the multi-head engraving machine of the present invention may also include only two engraving heads, wherein one engraving head is fixedly disposed on the tool head frame, and the other engraving head is disposed on the tool head frame in a manner of moving left and right, and the one engraving head moves during the distance adjustment. Further, other kinds of distance adjusting mechanisms can be adopted, for example, a rodless cylinder is used to replace the distance adjusting screw rod in the above embodiment, the rodless cylinder includes a piston rod and more than two piston seats, and the engraving head is arranged on the piston seat; or the screw nut pair in the above specific embodiment is set as a screw transmission pair actively rotated by the screw nut, so that each engraving head can independently move under the driving of the screw nut.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims

1. The utility model provides a multi-head engraving machine, includes the bed body, crossbeam, tool bit frame and the carving head more than two, and the crossbeam can be installed on the bed body with the back-and-forth movement, and the tool bit frame can be installed on the crossbeam with removing about, its characterized in that: the multi-head engraving machine further comprises a distance adjusting mechanism used for adjusting the distance between the engraving heads, the distance adjusting mechanism comprises a distance adjusting guide rail arranged on the cutter head frame along the left-right direction, at least one engraving head is arranged on the distance adjusting guide rail, and the distance adjusting mechanism further comprises an engraving head transverse movement driving structure used for driving the engraving heads on the distance adjusting guide rail to move along the distance adjusting guide rail.

2. The multi-head engraving machine according to claim 1, wherein: the engraving head transverse movement driving structure comprises a distance adjusting screw rod arranged on the cutter head frame in parallel to the distance adjusting guide rail, the distance adjusting screw rod is provided with a left distance adjusting screw rod section and a right distance adjusting screw rod section, the thread turning directions of the left distance adjusting screw rod section and the right distance adjusting screw rod section are opposite, and the engraving head is installed on the distance adjusting screw rod through a screw rod nut matched with the distance adjusting screw rod.

3. The multi-head engraving machine according to claim 2, wherein: the distance-adjusting screw rod is also provided with a middle section of the distance-adjusting screw rod which is arranged between the left section and the right section of the distance-adjusting screw rod, and the middle section of the distance-adjusting screw rod is a polished rod structure for installing the engraving head at the middle position.

4. A multi-head engraver as claimed in claim 2 or 3, wherein: the engraving head transverse movement driving structure further comprises a distance adjusting screw rod driving motor, and the distance adjusting screw rod driving motor is in transmission connection with one end of the distance adjusting screw rod.

5. The multi-head engraving machine according to claim 4, wherein: the distance adjusting mechanism further comprises an engraving head mounting seat arranged on the distance adjusting guide rail, the engraving head mounting seat comprises two sliding blocks which are arranged on the two distance adjusting guide rails in a halving mode, an engraving head mounting plate is arranged at the top of each sliding block, a screw nut is arranged on the bottom surface of each engraving head mounting plate, and each engraving head is respectively mounted on the corresponding engraving head mounting plate.

6. The multi-head engraving machine according to claim 5, wherein: the tool head frame is provided with a limiting screw of the engraving head mounting seat for stopping the screw nut so as to prevent the engraving head mounting seat from sliding out of the distance-adjusting guide rail.

7. The multi-head engraving machine according to any one of claims 1 to 3, wherein: the multi-head engraving machine further comprises a beam mounting seat arranged between the bed body and the beam, the beam mounting seat is installed on the beam guide rail in a guiding mode, the beam mounting seat is provided with a mounting seat vertical plate for mounting a beam driving mechanism and a mounting seat supporting plate horizontally arranged at the top of the mounting seat vertical plate, a beam supporting column used for supporting the beam is arranged at the top of the mounting seat supporting plate, the mounting seat supporting plate extends forwards and/or backwards out of the beam supporting column, and a pressing wheel installing structure for installing a pressing wheel of the engraving machine is arranged on the part, extending out of the beam supporting column, of the mounting seat supporting plate.

8. The multi-head engraving machine according to claim 7, wherein: one side of mount backup pad aligns with the mount pad riser in the front-back direction, the opposite side surpasss the mount pad riser, is equipped with a vertical baffle respectively in the front side and the rear side of mount pad riser on the bottom surface of mount pad backup pad, and the bull engraver is still including being used for installing in order to cover the mount pad oversheath inside the crossbeam mount pad with crossbeam actuating mechanism between two vertical baffles.

9. The multi-head engraving machine according to claim 8, wherein: the two pressing wheel mounting structures are arranged, one pressing wheel mounting structure is arranged between the two vertical partition plates, and the other pressing wheel mounting structure is arranged on the outer side of the two vertical partition plates.

10. The multi-head engraving machine according to claim 7, wherein: the beam supporting column is provided with a supporting column central hole with a central line extending up and down, and the beam bottom plate and the mounting base supporting plate are respectively provided with a communicating hole for being butted with the supporting column central hole.