CN219381739U

CN219381739U - Ordered diamond vacuum distribution equipment capable of being assembled and positioned rapidly

Info

Publication number: CN219381739U
Application number: CN202320484565.6U
Authority: CN
Inventors: 邱尾玲
Original assignee: Dakun Trading Co ltd
Current assignee: Dakun Trading Co ltd
Priority date: 2023-03-14
Filing date: 2023-03-14
Publication date: 2023-07-21
Anticipated expiration: 2033-03-14

Abstract

The utility model provides a but quick assembly and orderly vacuum cloth equipment of diamond of location, including orderly vacuum cloth device and mechanical positioning device, orderly vacuum cloth device includes the frame, the slip table, support frame and vacuum cloth head, the frame top is equipped with horizontal track, the slip table is located on the horizontal track through horizontal actuating mechanism slip, the support frame is fixed in on the slip table, this support frame top interval arrangement has a plurality of vacuum cloth head, mechanical positioning device includes the gripper, the loading board, radial track and radial actuating mechanism, the back lateral wall of loading board passes through radial actuating mechanism sliding connection in radial track, the gripper is installed through elevating system to the preceding lateral wall of this loading board. According to the utility model, a mechanical positioning device is adopted to replace a manual clamping and moving mode for the vacuum cloth head, so that the vacuum cloth head can be rapidly assembled on cold press molding equipment, the orientation of the vacuum cloth head cannot be changed in the clamping process, and the vacuum cloth head is not required to be positioned secondarily.

Description

Ordered diamond vacuum distribution equipment capable of being assembled and positioned rapidly

Technical Field

The utility model relates to the technical field of diamond production equipment, in particular to diamond ordered vacuum distribution equipment capable of being quickly assembled and positioned.

Background

The diamond tool bits are orderly arranged, namely the positions of diamond particles in the matrix are orderly controlled, so that the diamond tool bits are ground under different grinding conditions and materials, the tool performance can be greatly improved, the service life is prolonged, and the energy conservation and the high efficiency are realized.

The orderly arranged diamond tool heads mainly adopt diamond orderly vacuum material distribution heads for distribution, and the orderly vacuum material distribution heads comprise orderly vacuum material distribution head bodies and orderly screen plates. During operation, the diamond bin vibrates to enable the diamonds in the bin to be on the same plane, then the diamond bin ascends until the diamonds in the bin contact with the vacuum distribution head, and then the system automatically starts a vacuum pump to pump vacuum so as to adsorb the diamonds on the ordered screen plate. The vacuum distributing head after the distribution is manually grabbed onto cold press molding equipment, and diamonds in the vacuum distributing head are orderly arranged on the cold press molding die. However, since the diamonds are required to be orderly arranged on the forming die according to the order of the sizes of the particle sizes, the orderly vacuum distribution head must be accurately positioned when being placed on the forming die, and the manner of manually grabbing, placing and adjusting the direction for positioning is not only low in efficiency, but also difficult to ensure the positioning accuracy.

In addition, the ordered vacuum material distribution head body mainly comprises an outer frame body and an inner frame body which are connected at the lower part through threads, wherein an annular boss is formed at the inner side of the bottom of the outer frame body, and an ordered screen plate is arranged between the annular boss and the bottom surface of the inner frame body and is fixed by utilizing thread rotation. However, the ordered net plate is easily shifted in the process of relatively rotating (screwing) the outer frame body and the inner frame body, so that the ordered net plate cannot be accurately positioned.

Disclosure of Invention

The utility model provides a diamond ordered vacuum distribution device capable of being quickly assembled and positioned, which aims to solve the problems that the existing vacuum distribution head adopts manual grabbing to cold press molding equipment, the efficiency is low, and the positioning accuracy is difficult to ensure.

The utility model adopts the following technical scheme:

the utility model provides a but quick assembly and orderly vacuum cloth equipment of diamond of location, includes orderly vacuum cloth device and mechanical positioning device, orderly vacuum cloth device includes frame, slip table, support frame and vacuum cloth head, the frame top is equipped with horizontal track, the slip table is through a horizontal actuating mechanism slidable locate on the horizontal track, the support frame is fixed in on the slip table, this support frame top interval arrangement has a plurality of vacuum cloth head, mechanical positioning device includes gripper, loading board, radial track and radial actuating mechanism, the back lateral wall of loading board passes through radial actuating mechanism slidable connection in on the radial track, install through a elevating system on the preceding lateral wall of this loading board the gripper; after the vacuum material distribution head finishes ordered material distribution, the mechanical claw is driven by the lifting mechanism to grab the vacuum material distribution head, and then the mechanical claw is driven by the radial driving mechanism to rapidly move along the radial sliding rail to be positioned on the cold press molding equipment.

Preferably, the radial driving mechanism comprises a radial screw motor, a radial screw and a radial screw nut, wherein the radial screw is installed on the radial track, the radial screw motor is connected with the radial screw, the radial screw nut is connected with the radial screw and installed on the rear side wall of the bearing plate, and a plurality of radial sliding blocks which are slidably arranged on the radial track are further fixed on the rear side wall of the bearing plate.

Further, the lifting mechanism comprises a lifting table and a lifting table driving assembly, a longitudinal rail is arranged on the front side wall of the bearing plate, a plurality of lifting sliding blocks which are arranged on the longitudinal rail in a sliding mode are fixed on the lifting table, and the lifting table driving assembly is installed on the bearing plate and connected with the lifting table.

Further, the transverse driving mechanism comprises a transverse screw rod, a transverse screw rod motor and a transverse screw rod nut, wherein the transverse screw rod is rotatably installed on the transverse track, the transverse screw rod motor is connected with the transverse screw rod, the transverse screw rod nut is installed at the bottom of the sliding table and connected with the transverse screw rod, and a plurality of transverse sliding blocks which are slidably arranged on the transverse track are further arranged at the bottom of the sliding table.

Further, a diamond bin is arranged right below each vacuum material distribution head, a high-frequency vibrator is fixedly arranged at the bottom of each diamond bin, each high-frequency vibrator is arranged on the sliding table through a plurality of vertical guide rods, and lifting cylinders for driving the high-frequency vibrator and the diamond bin to move up and down are correspondingly arranged on the bottom of the sliding table.

Further, the vacuum distributing head comprises an inner frame body, an outer frame body and an ordered screen plate, wherein the inner frame body is connected with the outer frame body at the lower portion through threads, an annular boss is formed on the inner side of the bottom of the outer frame body, the ordered screen plate is correspondingly clamped between the bottom of the inner frame body and the annular boss, a plurality of positioning protrusions are arranged on the bottom of the inner frame body, a plurality of positioning holes are correspondingly formed in the ordered screen plate, and the positioning protrusions penetrate through the positioning holes.

As can be seen from the above description of the structure of the present utility model, compared with the prior art, the present utility model has the following advantages:

1. the utility model relates to a diamond ordered vacuum distribution device, which is provided with a mechanical positioning device at the side of an ordered vacuum distribution device, wherein the mechanical positioning device comprises a mechanical claw, a bearing plate, a radial track, a radial driving mechanism and a lifting mechanism, wherein the mechanical claw is driven by the lifting mechanism to grab a vacuum distribution head, and then is driven by the radial driving mechanism to rapidly move along a radial sliding rail to be positioned on cold press molding equipment. The mechanical positioning device replaces a manual clamping and moving mode for the vacuum distributing head, so that the vacuum distributing head can be quickly assembled on cold press molding equipment, the orientation of the vacuum distributing head can not be changed in the clamping process, and the vacuum distributing head is not required to be secondarily positioned, so that the vacuum distributing head can be quickly assembled and positioned on the cold press molding equipment.

2. According to the diamond ordered vacuum distribution equipment, the bottom of the inner frame body of each vacuum distribution head is also provided with the positioning protrusions, and the positioning protrusions are matched with the positioning holes of the ordered mesh plates to position the ordered mesh plates, so that the ordered mesh plates are prevented from shifting when the outer frame body is in threaded connection with the inner frame body.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural view of the ordered vacuum distributing device of the present utility model.

FIG. 3 is an exploded view of the ordered vacuum distributor head of the present utility model.

Fig. 4 is a schematic structural view of the mechanical positioning device of the present utility model.

Detailed Description

Specific embodiments of the present utility model will be described below with reference to the accompanying drawings. Numerous details are set forth in the following description in order to provide a thorough understanding of the present utility model, but it will be apparent to one skilled in the art that the present utility model may be practiced without these details. Well-known components, methods and procedures are not described in detail.

An ordered vacuum diamond distributing device capable of being assembled and positioned quickly, referring to fig. 1 and 2, comprises an ordered vacuum distributing device and a mechanical positioning device. The ordered vacuum distributing device comprises a frame 11, a sliding table 12, a supporting frame 13 and vacuum distributing heads 14, wherein a transverse rail 111 is arranged at the top of the frame 11, the sliding table 12 is slidably arranged on the transverse rail 111 through a transverse driving mechanism, the supporting frame 13 is fixed on the sliding table 12, and a plurality of vacuum distributing heads 14 are arranged at the top of the supporting frame 13 at intervals.

Referring to fig. 2, the transverse driving mechanism includes a transverse screw 151, a transverse screw motor 152, and a transverse screw nut (not shown in the drawing), wherein the transverse screw 151 is rotatably mounted on the transverse rail 111, the transverse screw motor 152 is connected with the transverse screw 151, the transverse screw nut is mounted at the bottom of the sliding table 12 and connected with the transverse screw 151, and a plurality of transverse sliding blocks 121 slidably disposed on the transverse rail 111 are further disposed at the bottom of the sliding table 12.

Referring to fig. 1 and 2, a diamond bin 16 is disposed under each vacuum distribution head 14, a high-frequency vibrator 17 is fixedly disposed at the bottom of each diamond bin 16, the bottom of each high-frequency vibrator 16 is disposed on the sliding table 12 through a plurality of vertical guide rods 161, and a lifting cylinder 18 for driving the high-frequency vibrator 17 and the diamond bin 16 to move up and down is correspondingly disposed at the bottom of the sliding table 12.

Referring to fig. 2, in order to provide a space for the lifting cylinder 18, one side of the bottom surface of the transverse rail 111 forms a hollow structure, and the transverse driving mechanism is disposed on the bottom surface of the other side of the transverse rail 111.

Referring to fig. 3, each of the vacuum distribution heads 14 includes an inner frame body 141, an outer frame body 142, and an ordered mesh plate 143, wherein the upper portion of the inner frame body 141 is provided with a vacuum pumping hole 1410 connected with a vacuum pump. The inner frame 141 and the outer frame 142 are connected by screw threads at the lower part, an annular boss 1421 is formed at the inner side of the bottom of the outer frame 142, the ordered mesh plate 143 is correspondingly clamped between the bottom of the inner frame 141 and the annular boss 1421, a plurality of positioning protrusions 1411 are arranged at the bottom of the inner frame 141, a plurality of positioning holes 1430 are correspondingly formed in the ordered mesh plate 143, and the positioning protrusions 1411 penetrate through the positioning holes 1430 but do not protrude out of the bottom surfaces of the positioning holes. The ordered mesh plates 143 are positioned by the positioning protrusions 1411 in cooperation with the positioning holes 1430, preventing the ordered mesh plates 143 from being deviated when the outer frame body 142 is screw-coupled with the inner frame body 142.

Referring to fig. 1 and 4, the mechanical positioning device is arranged at the side of the ordered vacuum distributing device and comprises a mechanical claw 21, a bearing plate 22, a radial rail 23 and a radial driving mechanism, wherein the radial rail 23 is perpendicular to the transverse rail 111. The rear side wall of the bearing plate 22 is slidably connected to the radial rail 23 through the radial driving mechanism, and the mechanical claw 21 is mounted on the front side wall of the bearing plate 22 through a lifting mechanism.

Referring to fig. 4, the radial driving mechanism includes a radial screw motor 241, a radial screw 242, and a radial screw nut (not shown). The radial screw rod 242 is mounted on the radial track 23, the radial screw rod motor 241 is connected with the radial screw rod 242, the radial screw rod nut is connected to the radial screw rod 242 and mounted on the rear side wall of the bearing plate 22, and a plurality of radial sliding blocks 221 slidably disposed on the radial track are further fixed on the rear side wall of the bearing plate 22.

Referring to fig. 4, the lifting mechanism includes a lifting table 251 and a lifting table driving assembly, a longitudinal rail 222 is disposed on a front sidewall of the carrier plate 22, a plurality of lifting sliders 252 slidably disposed on the longitudinal rail 222 are fixed on the lifting table 251, and the lifting table driving assembly is mounted on the carrier plate and connected with the lifting table. The lifting platform driving assembly can be a screw rod assembly or other mechanisms such as a cylinder, and the embodiment is not described in detail.

The initial position of the gripper 21 of the mechanical positioning device is located right above the first vacuum distribution head 14. When the diamond bin is in operation, the high-frequency vibrator 17 at the bottom of the diamond bin 16 is opened, so that diamonds in the bin can be positioned on the same plane, then the diamond bin 16 ascends under the action of the lifting cylinder 18 until the diamonds in the bin contact with the ordered vacuum distributing head, and the system automatically starts a vacuum pump to pump for vacuum, so that the diamonds are adsorbed on the ordered screen 143. Then the mechanical claw 21 moves downwards to grab the ordered vacuum material distribution head 14 under the action of the lifting mechanism, and then moves to the position of the forming die of the cold press forming equipment according to the set parameters. When the vacuum pump is turned off, the high-frequency vibration generator 17 in the material distributing head is started, and diamonds on the ordered net plate 143 are vibrated to the parting surface, so that ordered material distribution is completed. The mechanical positioning device then returns, and the transverse driving mechanism of the orderly vacuum distribution device acts to advance the rest of the vacuum distribution heads 14 one station distance. Finally, repeating the steps.

The foregoing is merely illustrative of specific embodiments of the present utility model, but the design concept of the present utility model is not limited thereto, and any insubstantial modification of the present utility model by using the design concept shall fall within the scope of the present utility model.

Claims

1. The utility model provides a but ordered vacuum cloth equipment of diamond of quick assembly and location which characterized in that: the device comprises an ordered vacuum distributing device and a mechanical positioning device, wherein the ordered vacuum distributing device comprises a frame, a sliding table, a supporting frame and a vacuum distributing head, a transverse track is arranged at the top of the frame, the sliding table is slidably arranged on the transverse track through a transverse driving mechanism, the supporting frame is fixed on the sliding table, a plurality of vacuum distributing heads are arranged at the top of the supporting frame at intervals, the mechanical positioning device comprises mechanical claws, a bearing plate, radial tracks and a radial driving mechanism, the rear side wall of the bearing plate is slidably connected onto the radial tracks through the radial driving mechanism, and the mechanical claws are arranged on the front side wall of the bearing plate through a lifting mechanism; after the vacuum material distribution head finishes ordered material distribution, the mechanical claw is driven by the lifting mechanism to grab the vacuum material distribution head, and then the mechanical claw is driven by the radial driving mechanism to rapidly move along the radial sliding rail to be positioned on the cold press molding equipment.

2. A diamond ordered vacuum cloth device capable of being assembled and positioned quickly as in claim 1, wherein: the radial driving mechanism comprises a radial screw rod motor, a radial screw rod and a radial screw rod nut, wherein the radial screw rod is installed on the radial track, the radial screw rod motor is connected with the radial screw rod, the radial screw rod nut is connected with the radial screw rod and installed on the rear side wall of the bearing plate, and a plurality of radial sliding blocks which are slidably arranged on the radial track are further fixed on the rear side wall of the bearing plate.

3. A diamond ordered vacuum cloth device capable of being assembled and positioned quickly as in claim 1, wherein: the lifting mechanism comprises a lifting table and a lifting table driving assembly, a longitudinal rail is arranged on the front side wall of the bearing plate, a plurality of lifting sliding blocks which are arranged on the longitudinal rail in a sliding mode are fixed on the lifting table, and the lifting table driving assembly is installed on the bearing plate and connected with the lifting table.

4. A diamond ordered vacuum cloth device capable of being assembled and positioned quickly as in claim 1, wherein: the transverse driving mechanism comprises a transverse screw rod, a transverse screw rod motor and a transverse screw rod nut, the transverse screw rod is rotatably arranged on the transverse track, the transverse screw rod motor is connected with the transverse screw rod, the transverse screw rod nut is arranged at the bottom of the sliding table and connected with the transverse screw rod, and a plurality of transverse sliding blocks which are slidably arranged on the transverse track are further arranged at the bottom of the sliding table.

5. A diamond ordered vacuum cloth device capable of being assembled and positioned quickly as in claim 1, wherein: and a diamond bin is arranged right below each vacuum material distribution head, a high-frequency vibrator is fixedly arranged at the bottom of each diamond bin, each high-frequency vibrator is arranged on the sliding table through a plurality of vertical guide rods, and lifting cylinders for driving the high-frequency vibrator and the diamond bin to move up and down are correspondingly arranged on the bottom of the sliding table.

6. A diamond ordered vacuum cloth device capable of being assembled and positioned quickly as in claim 1, wherein: the vacuum cloth head comprises an inner frame body, an outer frame body and an ordered screen plate, wherein the inner frame body is connected with the outer frame body at the lower part through threads, an annular boss is formed on the inner side of the bottom of the outer frame body, the ordered screen plate is correspondingly clamped between the bottom of the inner frame body and the annular boss, a plurality of positioning protrusions are arranged on the bottom of the inner frame body, a plurality of positioning holes are correspondingly formed in the ordered screen plate, and the positioning protrusions penetrate through the positioning holes.