CN209938171U

CN209938171U - General engraving machine

Info

Publication number: CN209938171U
Application number: CN201920614206.1U
Authority: CN
Inventors: 柯希驰
Original assignee: Shenzhen Xinkai Cnc Equipment Co Ltd
Current assignee: Shenzhen Xinkai Cnc Equipment Co Ltd
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2020-01-14
Anticipated expiration: 2029-04-29

Abstract

The utility model discloses a universal engraving machine, which comprises a machine tool main body, an X axis, a Y axis, a Z axis and an A axis; the Y axis and the A axis are arranged on the machine tool main body in parallel; the X axis is arranged on the Y axis; the Z axis is arranged on the X axis; the Y axis comprises a first Y axis and a second Y axis which are arranged on the machine tool main body in parallel; the machine tool main body includes: the movable table comprises a rack, an inner frame, a movable door, a movable table top and a sheet metal part arranged on the outer surface of the rack; the left side and the right side of the front end of the frame are respectively provided with a movable door mounting beam, and the movable doors are detachably arranged on the movable door mounting beams; the inner frame is arranged in the frame; the A shaft is arranged above the inner frame; a movable table top is arranged above the A shaft. The utility model discloses can switch plane sculpture or three-dimensional sculpture according to the demand, realize processing a plurality of kinds of products on same platform equipment, improve sculpture efficiency, the equipment commonality is strong.

Description

General engraving machine

Technical Field

The utility model relates to an engraver technical field especially relates to a general engraver.

Background

With the rapid development of scientific technology and the rapid increase of the labor cost of the society, a plurality of engraving machines capable of replacing most of traditional manual engraving work are correspondingly provided in the market, and the labor cost is reduced through the engraving machines. Aiming at the fact that some products need to be engraved at multiple angles, the existing equipment needs multiple different engraving machines to be matched for engraving at multiple angles, the engraving process is complex, the time required by engraving is prolonged, the engraving efficiency is low, and the processing cost of the products is improved; on the other hand, the existing engraving machine has poor universality, can only be used for processing a certain type of products, greatly increases the equipment purchase cost, reduces the space utilization value of a production workshop, and increases the energy consumption of the equipment.

Accordingly, the prior art is deficient and needs improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, provide a general engraver.

The technical scheme of the utility model as follows: a universal engraving machine comprises a machine tool main body, an X axis, a Y axis, a Z axis and an A axis; the Y axis and the A axis are arranged on the machine tool main body in parallel; the X axis is arranged on the Y axis; the Z axis is arranged on the X axis; the Y-axis comprises a first Y-axis and a second Y-axis which are arranged on the machine tool main body in parallel; the machine tool main body includes: the movable table comprises a rack, an inner frame, a movable door, a movable table top and a sheet metal part arranged on the outer surface of the rack; the left side and the right side of the front end of the rack are respectively provided with a movable door mounting beam, and the movable doors are detachably arranged on the movable door mounting beams; the inner frame is arranged in the frame; the A shaft is arranged above the inner frame; the movable table top is arranged above the shaft A;

the frame comprises two lateral support beams; the movable table top is detachably arranged on the two lateral bearing beams; the first Y-axis and the second Y-axis are respectively arranged on the outer sides of the two lateral support beams in parallel along the length direction of the lateral support beams.

Further, the first and second Y-axes each include: the Y-axis dust-proof device comprises a Y-axis base, a Y-axis guide rail, a Y-axis sliding block, an X-axis mounting seat, a Y-axis rack, a Y-axis driving device, a Y-axis rack box and a Y-axis dust-proof strip; the Y-axis base and the Y-axis dust strip are respectively arranged on the outer side of the lateral bearing beam in parallel along the length direction of the lateral bearing beam, and the Y-axis dust strip is also arranged above the Y-axis base; the Y-axis guide rail is arranged above the Y-axis base along the length direction of the Y-axis base; the Y-axis sliding block is arranged on the Y-axis guide rail; the X-axis mounting seat is arranged on the Y-axis sliding block; the X axis is arranged on the X axis mounting seat; the Y-axis rack is arranged on the outer side of the Y-axis base along the length direction of the Y-axis base; the Y-axis rack is provided with the Y-axis rack box, the Y-axis rack box is arranged on the outer side of the X-axis mounting seat, the Y-axis driving device is arranged on the Y-axis rack box, the output end of the Y-axis driving device is meshed with the input end of the Y-axis rack box, and the output end of the Y-axis rack box penetrates through the X-axis mounting seat and is meshed with the Y-axis rack; and a Y-axis protective cover is also arranged on the X-axis mounting seat.

Further, the a-axis includes: the device comprises an A-axis mounting seat, two A-axis polished rods, an A-axis sliding beam, an A-axis rotating assembly and an A-axis thimble; the A-axis mounting seat is arranged above the inner frame; one ends of the two A-axis polished rods are arranged on the A-axis mounting seat, and the other ends of the two A-axis polished rods are respectively arranged on a movable door mounting beam of the rack; the A-axis sliding beam is slidably arranged on the two A-axis polished rods, and each A-axis polished rod is provided with a fixed seat for controlling the sliding of the A-axis sliding beam; the A-axis ejector pin is arranged at the center of the A-axis sliding beam, and the A-axis rotating assembly is arranged at the position, corresponding to the A-axis ejector pin, of the A-axis mounting seat.

Further, the a-axis rotation assembly includes: the device comprises a product clamping device, a positioning disc and an A-axis driving device; the A-axis driving device is arranged at the position, corresponding to the A-axis thimble, of the A-axis mounting seat, and the output end of the A-axis driving device penetrates through the A-axis mounting seat and is connected with the positioning disc; the product clamping device is arranged on the positioning plate.

Further, the X-axis comprises: the X-axis rack-type X-axis transmission device comprises an X-axis base, two X-axis guide rails, a Z-axis mounting seat, an X-axis rack, an X-axis driving device and an X-axis rack box; two ends of the X-axis base are respectively arranged on the first Y axis and the second Y axis; the X-axis rack is arranged above the X-axis base along the length direction of the X-axis base; the two X-axis guide rails are respectively arranged on the front end of the X-axis base in parallel along the length direction of the X-axis base, and each X-axis guide rail is provided with an X-axis sliding block; the Z-axis mounting seat is arranged on the X-axis sliding block, and an X-axis supporting plate is arranged on one side, close to the X-axis base, of the Z-axis mounting seat; the X-axis rack box is arranged on the X-axis supporting plate, the X-axis driving device is arranged on the X-axis rack box, the output end of the X-axis driving device is meshed and connected with the input end of the X-axis rack box, and the output end of the X-axis rack box penetrates through the X-axis supporting plate and is meshed and connected with the X-axis rack; and an X-axis protective cover is also arranged on the X-axis supporting plate.

Further, the Z-axis comprises: the device comprises two Z-axis guide rails, a Z-axis hanging plate, a Z-axis driving device, a screw rod assembly and a carving machine head; the screw rod assembly is arranged between the two Z-axis guide rails, the two Z-axis guide rails and the screw rod assembly are respectively arranged on the Z-axis mounting seat in parallel along the length direction of the Z-axis mounting seat, and each Z-axis guide rail is provided with a Z-axis sliding block; the Z-axis hanging plate is arranged on the Z-axis sliding block; the Z-axis driving device is arranged above the Z-axis mounting seat, the output end of the Z-axis driving device is connected with one end of the screw rod assembly, and the other end of the screw rod assembly is connected with the Z-axis hanging plate; the engraving machine head is arranged on the Z-axis hanging plate.

With the above technical scheme, the utility model discloses

1. The utility model comprises a machine tool main body, an X axis, a Y axis, a Z axis and an A axis, and a movable table board is arranged on the machine tool main body, which can switch plane carving or three-dimensional carving according to the requirement, so as to realize processing a plurality of products on the same equipment, thereby improving the carving efficiency and having strong equipment universality;

2. in the preferred scheme, the two lateral support beams of the machine tool main body are respectively provided with the dustproof strip, so that splash and scraps generated in the machining process can be prevented from being splashed onto the Y axis, the Y-axis guide rail and the Y-axis rack are prevented from rusting when meeting water, and the precision of Y-axis transmission is ensured;

3. in the preferred scheme, the A-axis sliding beam is slidably arranged on the two A-axis polished rods, the position of the A-axis sliding beam can be adjusted according to the size of a product, the device is suitable for products with different sizes, and the universality is high;

4. in the preferred scheme, all be equipped with the safety cover on X axle and the Y axle, can prevent that the dust from getting into rack box inside, avoid the inside laying dust of rack box to influence the normal work of rack box, ensure X axle and Y axle driven precision.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a top view of the three-dimensional structure of the present invention;

FIG. 3 is a schematic view of a partial three-dimensional structure of the present invention;

fig. 4 is a partial top view of the three-dimensional structure of the present invention.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 4, the present invention provides a general engraving machine, which includes a machine tool body 1, an X-axis 2, a Y-axis 3, a Z-axis 4, and an a-axis 5; the Y axis 3 and the A axis 5 are arranged on the machine tool main body 1 in parallel; the X-axis 2 is arranged on the Y-axis 3; the Z axis 4 is arranged on the X axis 2; the Y-axis 3 comprises a first Y-axis 3 and a second Y-axis 3, and the first Y-axis 3 and the second Y-axis 3 are arranged on the machine tool main body 1 in parallel; the machine tool body 1 includes: the movable table comprises a frame, an inner frame, a movable door 11, a movable table top 12 and a sheet metal part arranged on the outer surface of the frame; the left side and the right side of the front end of the rack are respectively provided with a movable door mounting beam, and the movable door 11 is detachably arranged on the movable door mounting beams; the inner frame is arranged in the frame; the A shaft 5 is arranged above the inner frame; the movable table top 12 is arranged above the A shaft 5;

the frame comprises two lateral support beams 13; the movable table top 12 is detachably arranged on the two lateral support beams 13; the first Y-axis 3 and the second Y-axis 3 are respectively arranged on the outer sides of the two lateral support beams 13 in parallel along the length direction of the lateral support beams 13.

In the present embodiment, the first Y-axis 3 and the second Y-axis 3 each include: a Y-axis base 31, a Y-axis guide rail 32, a Y-axis sliding block 33, an X-axis mounting base 34, a Y-axis rack 35, a Y-axis driving device 36, a Y-axis rack box 37 and a Y-axis dust-proof strip 38; the Y-axis base 31 and the Y-axis dust-proof strip 38 are respectively arranged on the outer side of the lateral bearing beam 13 in parallel along the length direction of the lateral bearing beam 13, and the Y-axis dust-proof strip 38 is also arranged above the Y-axis base 31; the Y-axis guide rail 32 is arranged above the Y-axis base 31 along the length direction of the Y-axis base 31; the Y-axis slide block 33 is arranged on the Y-axis guide rail 32; the X-axis mounting seat 34 is arranged on the Y-axis sliding block 33; the X-axis 2 is arranged on the X-axis mounting seat 34; the Y-axis rack 35 is arranged on the outer side of the Y-axis base 31 along the length direction of the Y-axis base 31; the Y-axis rack 35 is provided with the Y-axis rack box 37, the Y-axis rack box 37 is arranged on the outer side of the X-axis mounting seat 34, the Y-axis driving device 36 is arranged on the Y-axis rack box 37, the output end of the Y-axis driving device 36 is meshed with the input end of the Y-axis rack box 37, and the output end of the Y-axis rack box 37 penetrates through the X-axis mounting seat 34 and is meshed with the Y-axis rack 35; and a Y-axis protective cover is further arranged on the X-axis mounting seat 34 and used for preventing dust from entering the Y-axis driving device 36 and the Y-axis rack box 37 and ensuring the transmission precision of the Y-axis driving device 36 and the Y-axis rack box 37.

In the present embodiment, the a-axis 5 includes: the A-axis mounting seat 51, two A-axis polished rods 52, an A-axis sliding beam 53, an A-axis rotating assembly and an A-axis thimble 54; the A shaft mounting seat 51 is arranged above the inner frame; one ends of the two A-axis polished rods 52 are arranged on the A-axis mounting base 51, and the other ends of the two A-axis polished rods 52 are respectively arranged on a movable door mounting beam of the rack; the A-axis sliding beam 53 is slidably arranged on the two A-axis polished rods 52, and each A-axis polished rod 52 is provided with a fixed seat for controlling the sliding of the A-axis sliding beam 53; the A-axis thimble 54 is arranged in the center of the A-axis sliding beam 53, and the A-axis rotating assembly is arranged at the position of the A-axis mounting seat 51 corresponding to the A-axis thimble 54.

As one preferred embodiment, the a-axis rotating assembly includes: a product holding device 55, a positioning plate and a shaft a driving device 56; the A-axis driving device 56 is arranged at the position, corresponding to the A-axis thimble 54, of the A-axis mounting seat 51, and the output end of the A-axis driving device 56 penetrates through the A-axis mounting seat 51 and is connected with the positioning disc; the product holding device 55 is arranged on the positioning plate.

Wherein the product holding device 55 may be a three-grip chuck for holding a product to be engraved.

In the present embodiment, the X-axis 2 includes: the X-axis guide rail device comprises an X-axis base 21, two X-axis guide rails 22, a Z-axis mounting seat 23, an X-axis rack 24, an X-axis driving device 25 and an X-axis rack 26 box; two ends of the X-axis base 21 are respectively arranged on the first Y-axis 3 and the second Y-axis 3; the X-axis rack 24 is arranged above the X-axis base 21 along the length direction of the X-axis base 21; the two X-axis guide rails 22 are respectively arranged on the front end of the X-axis base 21 in parallel along the length direction of the X-axis base 21, and each X-axis guide rail 22 is provided with an X-axis sliding block; the Z-axis mounting seat 23 is arranged on the X-axis sliding block, and an X-axis 2 supporting plate is arranged on one side, close to the X-axis base 21, of the Z-axis mounting seat 23; the X-axis rack 26 box is arranged on the X-axis 2 supporting plate, the X-axis driving device 25 is arranged on the X-axis rack 26 box, the output end of the X-axis driving device 25 is meshed and connected with the input end of the X-axis rack 26 box, and the output end of the X-axis rack 26 box penetrates through the X-axis 2 supporting plate and is meshed and connected with the X-axis rack 24; and an X-axis 2 protective cover is further arranged on the X-axis 2 supporting plate and used for preventing dust from entering the X-axis driving device 25 and the X-axis rack 26 box, so that the transmission precision of the X-axis driving device 25 and the X-axis rack 26 box is ensured.

In the present embodiment, the Z axis 4 includes: two Z-axis guide rails 41, a Z-axis hanging plate 42, a Z-axis driving device 43, a screw rod assembly 44 and a carving machine head 45; the screw rod assembly 44 is arranged between the two Z-axis guide rails 41, the two Z-axis guide rails 41 and the screw rod assembly 44 are respectively arranged on the Z-axis mounting seat 23 in parallel along the length direction of the Z-axis mounting seat 23, and each Z-axis guide rail 41 is provided with a Z-axis 4 slider; the Z-axis hanging plate 42 is arranged on the Z-axis 4 sliding block; the Z-axis driving device 43 is arranged above the Z-axis mounting seat 23, an output end of the Z-axis driving device 43 is connected with one end of the lead screw assembly 44, and the other end of the lead screw assembly 44 is connected with the Z-axis hanging plate 42; the engraving machine head 45 is arranged on the Z-axis hanging plate 42.

The utility model discloses the theory of operation: after the engraving machine is powered on, when the product needs to be engraved on the plane, the product is placed on the movable table top 12 and fixed; starting the Z-axis driving device 43 to drive the engraving machine head 45 to descend to the product preprocessing height; when the engraving machine head 45 descends to the product preprocessing height, the X-axis driving device 25 and the Y-axis driving device 36 are started simultaneously, the Y-axis driving device 36 drives the X-axis 2 to do horizontal linear motion along the length direction of the Y-axis guide rail 32, the X-axis driving device 25 drives the Z-axis 4 to do horizontal linear motion along the length direction of the X-axis guide rail 22, the X-axis 2, the Y-axis 3 and the Z-axis 4 are linked in a three-axis mode, and the plane engraving processing of the product within the range of 180 degrees is achieved.

When the product needs to be three-dimensionally carved, the movable table board 12 is taken away, the product is clamped by the product clamping device 55, the A-axis sliding beam 53 is adjusted to the A-axis ejector pin 54 to tightly push the product, and the position of the A-axis sliding beam 53 is fixed by the fixing seat; starting the Z-axis driving device 43 to drive the engraving machine head 45 to descend to the product preprocessing height; when the engraving machine head 45 descends to the product preprocessing height, the X-axis driving device 25, the Y-axis driving device 36 and the A-axis driving device 56 are started simultaneously, the A-axis driving device 56 drives the product to rotate, the Y-axis driving device 36 drives the X-axis 2 to do horizontal linear motion along the length direction of the Y-axis guide rail 32, the X-axis driving device 25 drives the Z-axis 4 to do horizontal linear motion along the length direction of the X-axis guide rail 22, the X-axis 2, the Y-axis 3, the Z-axis 4 and the A-axis 5 are in four-axis linkage, and three-dimensional engraving processing of the product within a range of 360 degrees is achieved.

Compared with the prior art, the utility model discloses following beneficial effect has:

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A universal engraving machine is characterized by comprising a machine tool main body, an X axis, a Y axis, a Z axis and an A axis; the Y axis and the A axis are arranged on the machine tool main body in parallel; the X axis is arranged on the Y axis; the Z axis is arranged on the X axis; the Y-axis comprises a first Y-axis and a second Y-axis which are arranged on the machine tool main body in parallel; the machine tool main body includes: the movable table comprises a rack, an inner frame, a movable door, a movable table top and a sheet metal part arranged on the outer surface of the rack; the left side and the right side of the front end of the rack are respectively provided with a movable door mounting beam, and the movable doors are detachably arranged on the movable door mounting beams; the inner frame is arranged in the frame; the A shaft is arranged above the inner frame; the movable table top is arranged above the shaft A;

2. The universal engraver of claim 1, wherein the first and second Y-axes each comprise: the Y-axis dust-proof device comprises a Y-axis base, a Y-axis guide rail, a Y-axis sliding block, an X-axis mounting seat, a Y-axis rack, a Y-axis driving device, a Y-axis rack box and a Y-axis dust-proof strip; the Y-axis base and the Y-axis dust strip are respectively arranged on the outer side of the lateral bearing beam in parallel along the length direction of the lateral bearing beam, and the Y-axis dust strip is also arranged above the Y-axis base; the Y-axis guide rail is arranged above the Y-axis base along the length direction of the Y-axis base; the Y-axis sliding block is arranged on the Y-axis guide rail; the X-axis mounting seat is arranged on the Y-axis sliding block; the X axis is arranged on the X axis mounting seat; the Y-axis rack is arranged on the outer side of the Y-axis base along the length direction of the Y-axis base; the Y-axis rack is provided with the Y-axis rack box, the Y-axis rack box is arranged on the outer side of the X-axis mounting seat, the Y-axis driving device is arranged on the Y-axis rack box, the output end of the Y-axis driving device is meshed with the input end of the Y-axis rack box, and the output end of the Y-axis rack box penetrates through the X-axis mounting seat and is meshed with the Y-axis rack; and a Y-axis protective cover is also arranged on the X-axis mounting seat.

3. The universal engraving machine of claim 1, wherein the a-axis comprises: the device comprises an A-axis mounting seat, two A-axis polished rods, an A-axis sliding beam, an A-axis rotating assembly and an A-axis thimble; the A-axis mounting seat is arranged above the inner frame; one ends of the two A-axis polished rods are arranged on the A-axis mounting seat, and the other ends of the two A-axis polished rods are respectively arranged on a movable door mounting beam of the rack; the A-axis sliding beam is slidably arranged on the two A-axis polished rods, and each A-axis polished rod is provided with a fixed seat for controlling the sliding of the A-axis sliding beam; the A-axis ejector pin is arranged at the center of the A-axis sliding beam, and the A-axis rotating assembly is arranged at the position, corresponding to the A-axis ejector pin, of the A-axis mounting seat.

4. The universal engraving machine of claim 3, wherein the A-axis rotating assembly comprises: the device comprises a product clamping device, a positioning disc and an A-axis driving device; the A-axis driving device is arranged at the position, corresponding to the A-axis thimble, of the A-axis mounting seat, and the output end of the A-axis driving device penetrates through the A-axis mounting seat and is connected with the positioning disc; the product clamping device is arranged on the positioning plate.

5. The universal engraving machine of claim 1, wherein the X-axis comprises: the X-axis rack-type X-axis transmission device comprises an X-axis base, two X-axis guide rails, a Z-axis mounting seat, an X-axis rack, an X-axis driving device and an X-axis rack box; two ends of the X-axis base are respectively arranged on the first Y axis and the second Y axis; the X-axis rack is arranged above the X-axis base along the length direction of the X-axis base; the two X-axis guide rails are respectively arranged on the front end of the X-axis base in parallel along the length direction of the X-axis base, and each X-axis guide rail is provided with an X-axis sliding block; the Z-axis mounting seat is arranged on the X-axis sliding block, and an X-axis supporting plate is arranged on one side, close to the X-axis base, of the Z-axis mounting seat; the X-axis rack box is arranged on the X-axis supporting plate, the X-axis driving device is arranged on the X-axis rack box, the output end of the X-axis driving device is meshed and connected with the input end of the X-axis rack box, and the output end of the X-axis rack box penetrates through the X-axis supporting plate and is meshed and connected with the X-axis rack; and an X-axis protective cover is also arranged on the X-axis supporting plate.

6. The universal engraving machine of claim 5, wherein the Z-axis comprises: the device comprises two Z-axis guide rails, a Z-axis hanging plate, a Z-axis driving device, a screw rod assembly and a carving machine head; the screw rod assembly is arranged between the two Z-axis guide rails, the two Z-axis guide rails and the screw rod assembly are respectively arranged on the Z-axis mounting seat in parallel along the length direction of the Z-axis mounting seat, and each Z-axis guide rail is provided with a Z-axis sliding block; the Z-axis hanging plate is arranged on the Z-axis sliding block; the Z-axis driving device is arranged above the Z-axis mounting seat, the output end of the Z-axis driving device is connected with one end of the screw rod assembly, and the other end of the screw rod assembly is connected with the Z-axis hanging plate; the engraving machine head is arranged on the Z-axis hanging plate.