CN216609187U - Four-axis gong machine - Google Patents

Abstract

The utility model discloses a four-shaft gong machine, belonging to the technical field of gong machines, and particularly relating to a four-shaft gong machine, which comprises a moving structure, wherein the moving structure comprises a front-back moving component, a left-right moving component, a lifting component, a rotating component and a cutting component, the front-back moving component is provided with the left-right moving component, the left-right moving component is provided with the lifting component, the lifting component is provided with the rotating component, the rotating component is provided with the cutting component, the front-back moving component comprises a base, a cross beam fixing block and a motor a, two ends of the base are respectively and fixedly provided with a rack guide rail a and a clamping strip a, one side of the bottom of the cross beam fixing block is fixedly provided with a clamping block a, the clamping strip a is connected to the inner wall of the clamping block a in a sliding manner, and the motor a is fixedly arranged on the cross beam fixing block through corresponding hole sites, the production capacity can be improved, and industrial standardized processing is realized.

Description

Four-axis gong machine

Technical Field

The utility model relates to the technical field of gong machines, in particular to a four-shaft gong machine.

Background

The gong machine generally refers to a PCB gong machine, which is a machine for dividing irregular PCB boards connected by stamp holes.

The tradition can only be with the cnc engraving and milling mode, because the processing mode of equipment leads to speed slow surface not smooth, and the limit has the sawtooth, needs the manual work operation of polishing, and the finished product error value is big, artifical and time are with high costs, and the dysmorphism radian molding that can do also has the limitation, has restricted moulding, the creation of art processing finished product, for this reason, we propose a four-axis gong machine.

Disclosure of Invention

The present invention has been made in view of the above and/or other problems with a quadcilling machine.

Therefore, an object of the present invention is to provide a quadcilling machine, which can solve the above-mentioned problems.

In order to solve the above technical problems, according to one aspect of the present invention, the present invention provides the following technical solutions:

a four-axis gong machine comprises a moving structure, wherein the moving structure comprises a front-back moving assembly, a left-right moving assembly, a lifting assembly, a rotating assembly and a cutting assembly;

the left-right moving assembly is mounted on the front-back moving assembly, the lifting assembly is mounted on the left-right moving assembly, the rotating assembly is mounted on the lifting assembly, and the cutting assembly is mounted on the rotating assembly.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the front-back moving assembly comprises a base, a cross beam fixing block and a motor a, a rack guide rail a and a clamping strip a are fixedly mounted at two ends of the base respectively, a clamping block a is fixedly mounted on one side of the bottom of the cross beam fixing block, the clamping strip a is connected to the inner wall of the clamping block a in a sliding mode, the motor a is fixedly mounted on the cross beam fixing block through corresponding hole positions, a gear a is fixedly mounted on an output shaft of the motor a, the gear a is connected with the guide rail a in a meshed mode, the cross beam fixing block is fixedly mounted at two ends of the bottom of the cross beam, and the left-right moving assembly is mounted on the cross beam.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the left and right moving assembly comprises a rack guide rail b, clamping strips b and a connecting block, the rack guide rail b is fixedly installed at the top of the cross beam, two sets of clamping strips b are fixedly installed on one side of the cross beam, the clamping strips b are fixedly installed at two ends of one side of the connecting block, the clamping strips b are connected with the inner wall of the clamping strips b in a sliding mode, a motor b is fixedly installed at the top end of the connecting block, a gear b is fixedly installed on an output shaft of the motor b, the gear b is connected with the rack guide rail b in a meshing mode, and a lifting assembly is installed on one side, far away from the clamping strips b, of the connecting block.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the lifting assembly comprises a screw cap, a fixture block c and an upright post, the screw cap is fixedly installed on one side, away from the clamping strip b, of the connecting block, the fixture block c is fixedly installed at two ends of one side, away from the clamping strip b, of the connecting block, and the motor c is fixedly installed at the top of the upright post.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the output shaft of the motor c is fixedly provided with a spiral column, the bottom end of the spiral column is rotatably connected to the bottom end of the stand column through a bearing, the spiral column is in threaded connection with the inner wall of the spiral cap, the inner wall of the clamping block c is in sliding connection with the clamping strip c, the clamping strip c is fixedly arranged at two ends of the stand column, and the bottom of the stand column is provided with a rotating assembly.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the two ends of the connecting block are fixedly provided with air cylinders, and the output ends of the air cylinders are fixedly arranged at the top ends of the stand columns through piston rods.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the rotating assembly comprises a fixed block, a bottom fixed mounting fixed block of the stand column, a top fixed mounting motor d of the fixed block, an output shaft fixed mounting fixed frame of the motor d, and a cutting assembly is installed on the fixed frame.

As a preferred embodiment of the quadcilling machine according to the present invention, wherein: the cutting assembly comprises a motor e and a rotating wheel, the motor e is fixedly installed on the inner wall of the fixing frame, the rotating wheel is connected to the bottom of the fixing frame through a bearing in a rotating mode, and the output end of the motor e is connected with the rotating wheel through a belt in a transmission mode.

Compared with the prior art:

1. by the aid of the movable structure, time cost and labor cost can be saved, productivity can be improved, and industrial standard processing is realized;

2. through the processing of arbitrary radian, can realize the artistic processing of more sculpts, provide more finished product choices for the market.

Drawings

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

FIG. 2 is a schematic view of the present invention in a separated overall configuration;

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

FIG. 4 is a schematic view of the construction of the rotating assembly and cutting assembly of the present invention;

FIG. 5 is a schematic view of the forward and backward movement assembly of the present invention;

FIG. 6 is a schematic view of a second embodiment of the present invention.

In the figure: the lifting device comprises a base 100, a rack guide rail a101, a clamping strip a102, a motor a103, a gear a104, a fixture block a105, a cross beam 200, a rack guide rail b201, a clamping strip b202, a motor b203, a gear b204, a cross beam fixing block 205, a connecting block 300, a screw cap 301, a fixture block b302, a fixture block c303, a lifting assembly 400, a clamping strip c401, a motor c402, a motor d403, a cylinder 404, a fixing frame 405, a motor e406, a belt 407, a rotating wheel 408, a screw column 409, a bearing 410, an upright column 411 and a fixing block 412.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides a quadcilling machine, which refers to fig. 1-6 and comprises a moving structure, wherein the moving structure comprises a front-back moving assembly, a left-right moving assembly, a lifting assembly 400, a rotating assembly and a cutting assembly, the front-back moving assembly is provided with the left-right moving assembly, the left-right moving assembly is provided with the lifting assembly 400, the lifting assembly 400 is provided with the rotating assembly, and the rotating assembly is provided with the cutting assembly.

The front-back moving assembly comprises a base 100, a cross beam 200, a cross beam fixing block 205 and a motor a103, wherein two ends of the base 100 are respectively and fixedly provided with a rack guide rail a101 and a clamping strip a102, one side of the bottom of the cross beam fixing block 205 is fixedly provided with a clamping block a105, the clamping strip a102 is connected to the inner wall of the clamping block a105 in a sliding manner, the motor a103 is fixedly arranged on the cross beam fixing block 205 through corresponding hole positions, the motor a103 is preferably a servo motor, an output shaft of the motor a103 is fixedly provided with a gear a104, the gear a104 is meshed and connected with the guide rail a101, two ends of the bottom of the cross beam 200 are respectively and fixedly provided with the cross beam fixing block 205, a left-right moving assembly is arranged on the cross beam 200 and comprises a rack guide rail b201, a clamping strip b202 and a connecting block 300, the top of the cross beam 200 is fixedly provided with a rack guide rail b201, two groups of clamping strips b202 are fixedly arranged on one side of the cross beam 200, two ends of the connecting block 300 are respectively and the clamping strip b302 is connected with the inner wall of the clamping strip b302 in a sliding manner, a motor b203 is fixedly installed at the top end of the connecting block 300, the motor b203 is preferably a servo motor, a gear b204 is fixedly installed on an output shaft of the motor b203, the gear b204 is meshed with the rack guide rail b201, a lifting assembly 400 is installed at one side of the connecting block 300 far away from the clamping strip b202, the lifting assembly 400 comprises a screw cap 301, a clamping block c303 and an upright column 411, the screw cap 301 is fixedly installed at one side of the connecting block 300 far away from the clamping strip b202, the clamping block c303 is fixedly installed at both ends of one side of the connecting block 300 far away from the clamping strip b202, a motor c402 is fixedly installed at the top of the upright column 411, the motor c402 is preferably a servo motor, a screw column 409 is fixedly installed at an output shaft of the motor c402, the bottom end of the screw column 409 is rotatably connected to the bottom end of the upright column 411 through a bearing 410, the screw column 409 is in threaded connection to the inner wall of the screw cap 301, the inner wall of the clamping block c303 is slidably connected to the clamping strip c401, the clamping strip c401 is fixedly installed at both ends of the upright column 411, a rotating assembly is installed at the bottom of the upright column 411, both ends of connecting block 300 are fixed mounting cylinder 404, the output of cylinder 404 passes through piston rod fixed mounting on the top of stand 411, it improves the lift stability of stand 411 to have through cylinder 404, rotating assembly includes fixed block 412, the bottom fixed mounting fixed block 412 of stand 411, the top fixed mounting motor d403 of fixed block 412, motor d403 is preferably servo motor, the fixed frame 405 of output shaft fixed mounting of motor d403, install cutting assembly on fixed frame 405, cutting assembly includes motor e406 and runner 408, the inner wall fixed mounting motor e406 of fixed frame 405, motor e406 is preferably servo motor, the bottom of fixed frame 405 rotates through the bearing and connects runner 408, the output of motor e406 and runner 408 pass through belt 407 transmission and be connected.

The working principle is as follows: two ends of the base 100 are respectively provided with a rack guide rail a101 and a clamping strip a102, the clamping strip a102 penetrates through a clamping block a105, the clamping block a105 is fixed on the corresponding position of the cross beam fixing block 205, the motor a103 is fixed on the cross beam fixing block 205 through the corresponding hole position, and the gear a104 can be meshed with the rack guide rail a 101; when the motor a103 is started, the beam 200 is carried by the gear a104 to move on the clamping strip a 102; a rack guide rail b201 is arranged above the cross beam 200, two clamping strips b202 are arranged on the side, and the clamping strips b202 penetrate through clamping blocks b302 on the connecting block 300, so that the connecting block 300 can slide along the clamping strips b 202; the motor b203 is fixed at the upper end position of the connecting block 300, and the gear b204 can be meshed with the rack guide rail b 201; the motor b203 is started, and the connecting block 300 can slide on the clamping bar b 202; the clamping block c303 and the screw cap 301 are fixed on the right side of the connecting block 300, the clamping strip c401 penetrates through the clamping block c303, the screw column 409 is in threaded connection with the screw cap 301, the upper end of the screw column 409 is fixed with the motor c402, and the lower end of the screw column 409 is fixed with the bearing 410; the motor c402 is started, the spiral column 409 rotates, and the whole lifting assembly 400 can slide up and down under the matching of the spiral column 409 and the spiral cap 301; two sides of the upright column 411 are respectively provided with an air cylinder 404; the fixing block 412 is fixed at the lower end of the upright column 411, the motor d403 is fixed on the fixing block 412, the lower end of the motor d403 is connected with the fixing frame 405, the motor d403 is started, and the fixing frame 405 can horizontally rotate along the motor d 403; a motor e406 is fixed in the fixed frame 405, the motor e406 is started, the motor e406 drives the rotating wheel 408 to rotate through the belt 407, the rotating wheel 408 can move up and down back and forth and left and right through the moving structure, and can rotate horizontally, so that a sample can be cut at various angles.

While the utility model has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the various features of the disclosed embodiments of the utility model may be used in any combination, provided that no structural conflict exists, and the combinations are not exhaustively described in this specification merely for the sake of brevity and resource conservation. Therefore, it is intended that the utility model not be limited to the particular embodiments disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. A four-axis gong machine comprises a moving structure, and is characterized in that the moving structure comprises a front-back moving assembly, a left-right moving assembly, a lifting assembly (400), a rotating assembly and a cutting assembly;

the left-right moving assembly is mounted on the front-back moving assembly, the lifting assembly (400) is mounted on the left-right moving assembly, the rotating assembly is mounted on the lifting assembly (400), and the cutting assembly is mounted on the rotating assembly.

2. A quadcilling machine according to claim 1, wherein said back and forth movement assembly comprises a base (100), a beam (200), a beam fixing block (205) and a motor a (103), two ends of the base (100) are respectively and fixedly provided with a rack guide rail a (101) and a clamping strip a (102), a clamping block a (105) is fixedly installed on one side of the bottom of the cross beam fixing block (205), the clamping strip a (102) is connected to the inner wall of the clamping block a (105) in a sliding mode, the motor a (103) is fixedly arranged on the beam fixing block (205) through corresponding hole positions, a gear a (104) is fixedly arranged on an output shaft of the motor a (103), the gear a (104) is meshed with the guide rail a (101), crossbeam fixed blocks (205) are fixedly mounted at two ends of the bottom of the crossbeam (200), and a left-right moving assembly is mounted on the crossbeam (200).

3. The quadcilling machine of claim 2, wherein the left-right moving assembly comprises a rack guide rail b (201), a clamping bar b (202) and a connecting block (300), the rack guide rail b (201) is fixedly mounted on the top of the cross beam (200), two sets of clamping bar b (202) are fixedly mounted on one side of the cross beam (200), clamping blocks b (302) are fixedly mounted on both ends of one side of the connecting block (300), the clamping bar b (202) is slidably connected to the inner wall of the clamping block b (302), a motor b (203) is fixedly mounted on the top end of the connecting block (300), a gear b (204) is fixedly mounted on the output shaft of the motor b (203), the gear b (204) is engaged with the rack guide rail b (201), and a lifting assembly (400) is mounted on one side of the connecting block (300) far away from the clamping bar b (202).

4. The quadcilling machine of claim 3, wherein the lifting assembly (400) comprises a screw cap (301), a clamping block c (303) and a column (411), the screw cap (301) is fixedly installed on one side of the connecting block (300) far away from the clamping strip b (202), the clamping block c (303) is fixedly installed on both ends of one side of the connecting block (300) far away from the clamping strip b (202), and the motor c (402) is fixedly installed on the top of the column (411).

5. The quadcilling machine of claim 4, wherein the output shaft of the motor c (402) is fixedly provided with a screw column (409), the bottom end of the screw column (409) is rotatably connected to the bottom end of the upright column (411) through a bearing (410), the screw column (409) is screwed on the inner wall of the screw cap (301), the inner wall of the clamping block c (303) is slidably connected with the clamping strip c (401), the two ends of the upright column (411) are fixedly provided with the clamping strip c (401), and the bottom of the upright column (411) is provided with the rotating assembly.

6. A quadcilling machine according to claim 4, wherein the cylinders (404) are fixedly mounted at both ends of the connecting block (300), and the output ends of the cylinders (404) are fixedly mounted on the top ends of the columns (411) through piston rods.

7. A quadcilling machine according to claim 5, wherein said rotating assembly comprises a fixed block (412), the bottom of said column (411) is fixedly provided with the fixed block (412), the top of said fixed block (412) is fixedly provided with the motor d (403), the output shaft of said motor d (403) is fixedly provided with a fixed frame (405), and said fixed frame (405) is provided with the cutting assembly.

8. A quadcilling machine according to claim 7, wherein the cutting assembly comprises a motor e (406) and a rotating wheel (408), the motor e (406) is fixedly mounted on the inner wall of the fixed frame (405), the bottom of the fixed frame (405) is rotatably connected with the rotating wheel (408) through a bearing, and the output end of the motor e (406) is in transmission connection with the rotating wheel (408) through a belt (407).

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