CN219007475U - Multi-station automatic point drilling machine perpendicular to arrangement direction of material trays - Google Patents

Abstract

The utility model discloses a multi-station automatic point drilling machine which is perpendicular to the arrangement direction of material trays, and comprises a double-turntable clamping mechanism, a material carrying grating disc mechanism, a double-shaft moving mechanism and a lifting point drilling mechanism, wherein two material carrying discs which are transversely arranged are arranged in the material carrying grating disc mechanism, a plurality of diamond positioning holes for placing diamonds are formed in the material carrying discs along the circumferential direction, and the clamping part of the double-turntable clamping mechanism is positioned in the front side area of the material carrying grating disc mechanism. The middle point distance between the two material loading trays of the material loading grid tray mechanism forms a point drilling path area, and the clamping part of the double-rotary table clamping mechanism is positioned in the range of the point drilling path area, so that the track travel of taking and placing the drill of the lifting point drilling mechanism is greatly shortened, and the point drilling efficiency of the point drilling machine is improved; meanwhile, the material carrying disc is divided into a first area and a second area along the left and right sides of the longitudinal axis, and the two point drills can simultaneously carry out material taking operation on the two diamond positioning holes in the first area or the second area, so that the drill taking efficiency is improved.

Description

Multi-station automatic point drilling machine perpendicular to arrangement direction of material trays

Technical Field

The utility model relates to the field of point drilling machines, in particular to a multi-station automatic point drilling machine which is perpendicular to the arrangement direction of a material tray.

Background

Decorative pieces are very common in daily life, wherein many decorative pieces are stuck with many small accessories such as diamond, water drill, diamond zircon, plastic drill and the like for increasing the sparkling aesthetic feeling, the small accessories are small in size and are usually between 0.8 and 3mm, and the small accessories are distributed on the surfaces of many decorative pieces, so that the decorative pieces are very troublesome to produce.

In the prior art, a large number of places are needed to be drilled on a decoration piece, and for convenient operation, spot drilling is generally carried out through a spot drilling machine, and the spot drilling machine on the market generally drives a spot drilling bit to move through a triaxial moving mechanism so as to adsorb and move diamonds on a material tray to a clamp for clamping the decoration piece through the spot drilling bit. However, the conventional point drilling machine is in a simplex point drilling mode, namely, only one diamond can be drilled at a time, and the point drilling efficiency is low; there are some spot drills with double spot drills on the market, but the structural layout of the spot drills is relatively unreasonable, so that the spot drilling track of the spot drill is too long, and the spot drilling speed of the spot drill is affected.

Accordingly, the prior art has drawbacks and needs improvement.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the multi-station automatic point drilling machine is capable of shortening the point drilling track travel and improving the point drilling efficiency, and is perpendicular to the arrangement direction of the material trays.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a multi-station automatic point drilling machine which is perpendicular to the arrangement direction of a material tray comprises a double-rotary table clamping mechanism, a material loading grid tray mechanism, a double-shaft moving mechanism and a lifting point drilling mechanism;

two transversely arranged material carrying discs are arranged in the material carrying grid disc mechanism, and a plurality of diamond positioning holes for placing diamonds are formed in the material carrying discs along the circumferential direction;

the double-rotating table clamping mechanism comprises a first rotating part, a double-rotating arm, a second rotating part and a clamping part, wherein the second rotating part is connected with the double-rotating arm to drive the double-rotating arm to rotate, and the first rotating part is arranged in the double-rotating arm and is connected with the clamping part to drive the clamping part to rotate;

the clamping part is positioned in the front side area of the material loading grid disc mechanism, the midpoint distance between the two material loading discs forms a point drilling path area, and the clamping part is positioned in the range of the point drilling path area;

the double-shaft moving mechanism is positioned in the left side area of the material loading grid disc mechanism and is connected with the lifting point drilling mechanism to drive and adjust the XY axis position of the lifting point drilling mechanism;

the lifting point drilling mechanism comprises a mounting seat, two groups of Z-axis moving modules and two point drill bits, wherein the mounting seat is connected with the double-shaft moving mechanism, and the two groups of Z-axis moving modules are arranged on the mounting seat and are respectively connected with the point drill bits so as to drive the point drill bits to adsorb diamonds in the material carrying disc to a to-be-embedded decoration connected with the clamping part through lifting movement;

the arrangement direction of the two point drill bits is perpendicular to the arrangement direction of the two carrying trays, the carrying trays are divided into a first area and a second area along the left and right of the longitudinal axis, and the two point drill bits can correspond to the two diamond positioning holes in the first area or the second area in positions so as to simultaneously carry out material taking operation on the two diamond positioning holes in the first area or the second area.

By adopting the technical scheme, in the multi-station automatic spot drilling machine which is vertically arranged in the arrangement direction of the material trays, the double-shaft moving mechanism comprises an X-shaft moving module and a Y-shaft moving module, the X-shaft moving module is connected with the Y-shaft moving module, and the Y-shaft moving module is connected with the lifting spot drilling mechanism.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the material carrying grid tray mechanism further comprises a material guide ring, a rotary driving device and a lifting driving device, a through hole is formed in the material guide ring, an arc slope structure which is convenient for diamond to slide down to a diamond positioning hole is arranged between the through hole and the inner side wall of the material guide ring, the material carrying tray is positioned in the through hole, the rotary driving device is arranged at the bottom of the material carrying tray to drive the material carrying tray to rotate, and the lifting driving device is connected with the material guide ring to drive the material guide ring to realize lifting movement in the height direction of the material carrying tray.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the first rotating part comprises a first motor, a rotating shaft, a first driving belt wheel and a first driven belt wheel, an output shaft of the first motor is connected with the first driving belt wheel through the rotating shaft, the first driven belt wheel is arranged on the double rotating arms, the first driving belt wheel is connected with the first driven belt wheel through a first synchronous belt, and the clamping part is connected with the first driven belt wheel.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the second rotating part comprises a second motor, a hollow shaft, a second driving belt wheel and a second driven belt wheel, the hollow shaft is sleeved on the rotating shaft and is connected with the double rotating arms, the second driven belt wheel is sleeved on the hollow shaft, an output shaft of the second motor is connected with the second driving belt wheel, and the second driving belt wheel is connected with the second driven belt wheel through a second synchronous belt.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the number of the diamond positioning holes is sixty-four, and the number of the diamond positioning holes in the first area or the second area is thirty-two.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the rotary driving device comprises a motor mounting seat, a third motor and a connecting shaft, the third motor is arranged in the motor mounting seat, and an output shaft of the third motor is connected with the bottom of the material loading tray through the connecting shaft.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged with the arrangement direction of the material trays, the lifting driving device comprises a lifting cylinder, a guide rail, a sliding block and a fixed plate, the sliding block is arranged in the fixed plate and is movably connected with the guide rail, the top of the guide rail is connected with the side wall of the material guiding ring, the bottom of the guide rail is connected with the lifting cylinder, and when the lifting cylinder moves in a telescopic manner, the guide rail drives the material guiding ring to realize lifting movement.

By adopting the technical scheme, in the multi-station automatic point drilling machine which is vertically arranged in the arrangement direction of the material trays, the top of the material carrying tray is in an umbrella-shaped structure.

Compared with the prior art, the diamond to be fed is laid in the material carrying grid tray mechanism, and under the movement cooperation of the double-shaft moving mechanism and the lifting point drilling mechanism, the diamond adsorbed on the lifting point drilling mechanism can be clamped to the decoration piece to be mounted on the double-turntable clamping mechanism to finish point drilling operation; the middle point distance between the two material loading trays of the material loading grid tray mechanism forms a point drilling path area, and the clamping part of the double-rotary table clamping mechanism is positioned in the range of the point drilling path area, so that the track travel of taking and placing the drill of the lifting point drilling mechanism is greatly shortened, and the point drilling efficiency of the point drilling machine is improved; meanwhile, the arrangement direction of the two point drill bits is mutually perpendicular to the arrangement direction of the two material carrying discs, the material carrying discs are divided into a first area and a second area along the left and right sides of the longitudinal axis, the two point drill bits can correspond to the positions of the two diamond positioning holes in the first area or the second area, and the two point drill bits are arranged in such a way that the point drill bits can simultaneously take materials from the two diamond positioning holes in the first area or the second area, so that the drilling efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only embodiments of the present application, and other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of another view overall structure of the present utility model;

FIG. 3 is a schematic diagram of a layout structure between a tray and a clamping portion according to the present utility model;

FIG. 4 is a schematic diagram of a layout structure of a tray according to the present utility model;

FIG. 5 is a schematic view of a loading grid tray mechanism according to the present utility model;

FIG. 6 is a schematic view of the internal assembly structure of the loading grid tray mechanism of the present utility model;

FIG. 7 is a schematic diagram of an exploded structure of the dual turret clamping mechanism of the present utility model.

Detailed Description

The utility model will be described in detail below with reference to the drawings and the specific embodiments.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "inside", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 7, the present embodiment provides a multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of trays, comprising a double-turntable clamping mechanism 1, a loading grid tray mechanism 2, a double-shaft moving mechanism 3 and a lifting spot drilling mechanism 4;

two transversely arranged material carrying trays 21 are arranged in the material carrying grid tray mechanism 2, and a plurality of diamond positioning holes 210 for placing diamonds are formed in the material carrying trays 21 along the circumferential direction. Diamond particles to be gripped may be placed in the diamond positioning hole 210.

The double-rotating table clamping mechanism 1 comprises a first rotating part 11, a double-rotating arm 12, a second rotating part 13 and a clamping part 14, wherein the second rotating part 13 is connected with the double-rotating arm 12 to drive the double-rotating arm 12 to rotate, and the first rotating part 11 is arranged in the double-rotating arm 12 and is connected with the clamping part 14 to drive the clamping part 14 to rotate. The clamping part 14 can clamp the decoration, and the first rotating part 11 and the second rotating part 13 can bidirectionally adjust the angle of the decoration so as to realize the omnibearing point drilling embedding operation on each part of the decoration.

The clamping part 14 is located in a front side area of the loading grid tray mechanism 2, a midpoint distance between the two loading trays 21 forms a point drilling path area L1, and the clamping part 14 is located in a range of the point drilling path area L1.

As shown in fig. 3, the dual-shaft moving mechanism 3 is located at the left side area of the loading grid tray mechanism 2, and the dual-shaft moving mechanism 3 is connected with the lifting point drilling mechanism 4 to drive and adjust the XY axis position of the lifting point drilling mechanism 4. The midpoint distance between the two loading trays 21 of the loading grid tray mechanism 2 forms a point drilling path area L1, and the clamping part 14 of the double-turntable clamping mechanism 1 is positioned in the range of the point drilling path area L1, so that the track travel of the lifting point drilling mechanism 4 for taking and placing the drill is greatly shortened, and the point drilling efficiency of the point drilling machine is improved.

As shown in fig. 1 and 2, the lifting point drilling mechanism 4 includes a mounting seat 41, two groups of Z-axis moving modules 42 and two point drill bits 43, wherein the mounting seat 41 is connected with the dual-axis moving mechanism 3, and the two groups of Z-axis moving modules 42 are disposed on the mounting seat 41 and are respectively connected with the point drill bits 43, so as to drive the point drill bits 43 to adsorb diamond in the material carrying tray 21 to a to-be-drilled ornament connected with the clamping portion 14 through lifting movement.

As shown in fig. 4, the arrangement direction of the two spot drills 43 and the arrangement direction of the two loading trays 21 are perpendicular to each other, the loading trays 21 are divided into a first region 211 and a second region 212 along the longitudinal axis L2, and the two spot drills 43 can be positioned corresponding to the two diamond positioning holes 210 in the first region 211 or the second region 212, so that the spot drills 43 can simultaneously perform the material taking operation on the two diamond positioning holes 210 in the first region 211 or the second region 212, thereby improving the drill taking efficiency.

As shown in fig. 1 and 2, the dual-axis moving mechanism 3 further includes an X-axis moving module 31 and a Y-axis moving module 32, the Y-axis moving module 32 is connected to the X-axis moving module 31, and the Y-axis moving module 32 is connected to the lifting and drilling mechanism 4. The X-axis moving module 31 and the Y-axis moving module 32 can respectively drive the lifting point drilling mechanism 4 to realize position movement in the XY axis direction. It should be noted that, since the X-axis moving module 31 and the Y-axis moving module 32 are in the prior art, the specific structure and the working principle of the X-axis moving module 31 and the Y-axis moving module 32 are not repeated in this embodiment.

As shown in fig. 5 and 6, further, the carrying grid plate mechanism 2 further includes a guide ring 22, a rotation driving device 23 and a lifting driving device 24, a through hole is disposed in the guide ring 22, an arc slope structure 221 that is convenient for diamond to slide down to the diamond positioning hole 210 is disposed between the through hole and the inner side wall of the guide ring 22, the carrying plate 21 is located in the through hole, the rotation driving device 23 is disposed at the bottom of the carrying plate 21 to drive the carrying plate 21 to rotate, and the lifting driving device 24 is connected with the guide ring 22 to drive the guide ring 22 to realize lifting movement in the height direction of the carrying plate 21. The rotary driving device 23 can drive the material carrying disc 21 to rotate, the lifting driving device 24 can drive the material guiding ring 22 to lift, when the arc slope structure 221 of the material guiding ring 22 is lifted to be positioned at the same height with the material carrying disc 21, the diamond in the material guiding ring 22 can slide into the diamond positioning hole 210 smoothly under the rotary action of the material carrying disc 21, so that the automatic laying and placing of the diamond are realized, and the processing efficiency is improved; after all the diamond positioning holes 210 in the loading tray 21 are loaded with diamonds, the lifting driving device 24 drives the guiding ring 22 to descend, so that other diamonds to be loaded slide down onto the arc slope structure 221 of the guiding ring 22.

As shown in fig. 1 and 7, the first rotating portion 11 further includes a first motor 111, a rotating shaft 112, a first driving pulley 113, and a first driven pulley 114, an output shaft of the first motor 111 is connected to the first driving pulley 113 through the rotating shaft 112, the first driven pulley 114 is provided on the double-swivel arm 12, the first driving pulley 113 is connected to the first driven pulley 114 through a first synchronous belt, and the clamping portion 14 is connected to the first driven pulley 114. The first rotating portion 11 can drive the clamping portion 14 to rotate. Specifically, the first motor 111 may drive the first driving pulley 113 to rotate through the rotation shaft 112, and since the first driving pulley 113 is connected with the first driven pulley 114 through the first synchronous belt, the clamping portion 14 connected with the first driven pulley 114 is driven to realize rotation angle adjustment.

Further, the second rotating portion 13 includes a second motor 131, a hollow shaft 132, a second driving pulley 133, and a second driven pulley 134, the hollow shaft 132 is sleeved on the rotating shaft 112 and connected with the double rotating arm 12, the second driven pulley 134 is sleeved on the hollow shaft 132, an output shaft of the second motor 131 is connected with the second driving pulley 133, and the second driving pulley 133 is connected with the second driven pulley 134 through a second synchronous belt. The second rotating part 13 can drive the double rotating arm 12 to rotate. Specifically, the second motor 131 may drive the second driving pulley 133 to rotate, and the second driving pulley 133 is connected with the second driven pulley 134 through the second synchronous belt, so as to drive the hollow shaft 132 connected with the second driven pulley 134 to rotate, and the hollow shaft 132 is connected with the double rotating arm 12, so as to realize the rotation movement of the double rotating arm 12.

As shown in fig. 4, further, the number of diamond positioning holes 210 is sixty-four, and the number of diamond positioning holes 210 in the first region 211 or the second region 212 is thirty-two.

As shown in fig. 5 and 6, the rotary driving device 23 further includes a motor mounting frame 231, a third motor 232, and a connecting shaft 233, the third motor 232 is disposed in the motor mounting frame 231, and an output shaft of the third motor 232 is connected to the bottom of the loading tray 21 through the connecting shaft 233.

As shown in fig. 5 and 6, further, the lifting driving device 24 includes a lifting cylinder 241, a guide rail 242, a sliding block 243, and a fixing plate 244, the fixing plate 244 is provided therein with the sliding block 243, the sliding block 243 is movably connected with the guide rail 242, the top of the guide rail 242 is connected with the side wall of the guide ring 22, and the bottom of the guide rail 242 is connected with the lifting cylinder 241, and when the lifting cylinder 241 moves telescopically, the guide rail 242 drives the guide ring 22 to realize lifting movement.

Further, the top of the loading tray 21 is in an umbrella-shaped structure. The top of the material carrying tray 21 is umbrella-shaped, so that the diamonds can slide into the diamond positioning holes 210 conveniently.

Compared with the prior art, the diamond to be fed is laid in the material carrying grid tray mechanism, and under the movement cooperation of the double-shaft moving mechanism and the lifting point drilling mechanism, the diamond adsorbed on the lifting point drilling mechanism can be clamped to the decoration piece to be mounted on the double-turntable clamping mechanism to finish point drilling operation; the middle point distance between the two material loading trays of the material loading grid tray mechanism forms a point drilling path area, and the clamping part of the double-rotary table clamping mechanism is positioned in the range of the point drilling path area, so that the track travel of taking and placing the drill of the lifting point drilling mechanism is greatly shortened, and the point drilling efficiency of the point drilling machine is improved; meanwhile, the arrangement direction of the two point drill bits is mutually perpendicular to the arrangement direction of the two material carrying discs, the material carrying discs are divided into a first area and a second area along the left and right sides of the longitudinal axis, the two point drill bits can correspond to the positions of the two diamond positioning holes in the first area or the second area, and the two point drill bits are arranged in such a way that the point drill bits can simultaneously take materials from the two diamond positioning holes in the first area or the second area, so that the drilling efficiency is improved.

The foregoing description of the preferred embodiment of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (9)

1. A multi-station automatic point drilling machine which is vertically arranged in the arrangement direction of a material tray is characterized in that: comprises a double-rotating table clamping mechanism, a material carrying grating disk mechanism, a double-shaft moving mechanism and a lifting point drilling mechanism;

two transversely arranged material carrying discs are arranged in the material carrying grid disc mechanism, and a plurality of diamond positioning holes for placing diamonds are formed in the material carrying discs along the circumferential direction;

the double-rotating table clamping mechanism comprises a first rotating part, a double-rotating arm, a second rotating part and a clamping part, wherein the second rotating part is connected with the double-rotating arm to drive the double-rotating arm to rotate, and the first rotating part is arranged in the double-rotating arm and is connected with the clamping part to drive the clamping part to rotate;

the clamping part is positioned in the front side area of the material loading grid disc mechanism, the midpoint distance between the two material loading discs forms a point drilling path area, and the clamping part is positioned in the range of the point drilling path area;

the double-shaft moving mechanism is positioned in the left side area of the material loading grid disc mechanism and is connected with the lifting point drilling mechanism to drive and adjust the XY axis position of the lifting point drilling mechanism;

the lifting point drilling mechanism comprises a mounting seat, two groups of Z-axis moving modules and two point drill bits, wherein the mounting seat is connected with the double-shaft moving mechanism, and the two groups of Z-axis moving modules are arranged on the mounting seat and are respectively connected with the point drill bits so as to drive the point drill bits to adsorb diamonds in the material carrying disc to a to-be-embedded decoration connected with the clamping part through lifting movement;

the arrangement direction of the two point drill bits is perpendicular to the arrangement direction of the two carrying trays, the carrying trays are divided into a first area and a second area along the left and right of the longitudinal axis, and the two point drill bits can correspond to the two diamond positioning holes in the first area or the second area in positions so as to simultaneously carry out material taking operation on the two diamond positioning holes in the first area or the second area.

2. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to claim 1, wherein: the double-shaft moving mechanism comprises an X-axis moving module and a Y-axis moving module, wherein the X-axis moving module is connected with the Y-axis moving module, and the Y-axis moving module is connected with the lifting point drilling mechanism.

3. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to claim 1, wherein: the material carrying grid plate mechanism further comprises a material guiding ring, a rotary driving device and a lifting driving device, a through hole is formed in the material guiding ring, an arc slope structure which is convenient for diamonds to slide down to diamond positioning holes is arranged between the through hole and the inner side wall of the material guiding ring, the material carrying plate is located in the through hole, the rotary driving device is arranged at the bottom of the material carrying plate to drive the material carrying plate to rotate, and the lifting driving device is connected with the material guiding ring to drive the material guiding ring to realize lifting movement in the height direction of the material carrying plate.

4. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to claim 1, wherein: the first rotating part comprises a first motor, a rotating shaft, a first driving belt pulley and a first driven belt pulley, an output shaft of the first motor is connected with the first driving belt pulley through the rotating shaft, the first driven belt pulley is arranged on the double rotating arms, the first driving belt pulley is connected with the first driven belt pulley through a first synchronous belt, and the clamping part is connected with the first driven belt pulley.

5. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to claim 4, wherein: the second rotating part comprises a second motor, a hollow shaft, a second driving belt wheel and a second driven belt wheel, the hollow shaft is sleeved on the rotating shaft and connected with the double rotating arms, the second driven belt wheel is sleeved on the hollow shaft, an output shaft of the second motor is connected with the second driving belt wheel, and the second driving belt wheel is connected with the second driven belt wheel through a second synchronous belt.

6. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to claim 1, wherein: the number of the diamond positioning holes is sixty-four, and the number of the diamond positioning holes in the first area or the second area is thirty-two.

7. A multi-station automatic spot drilling machine arranged perpendicular to a direction of arrangement of trays according to claim 3, wherein: the rotary driving device comprises a motor mounting seat, a third motor and a connecting shaft, wherein the third motor is arranged in the motor mounting seat, and an output shaft of the third motor is connected with the bottom of the material carrying disc through the connecting shaft.

8. A multi-station automatic spot drilling machine arranged perpendicular to a direction of arrangement of trays according to claim 3, wherein: the lifting driving device comprises a lifting cylinder, a guide rail, a sliding block and a fixing plate, wherein the sliding block is arranged in the fixing plate and is movably connected with the guide rail, the top of the guide rail is connected with the side wall of the guide ring, the bottom of the guide rail is connected with the lifting cylinder, and when the lifting cylinder moves in a telescopic manner, the guide rail drives the guide ring to realize lifting movement.

9. The multi-station automatic spot drilling machine arranged perpendicular to the arrangement direction of the trays according to any one of claims 1 to 8, wherein: the top of the material carrying disc is of an umbrella-shaped structure.

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