CN213380387U - Clamping device for crystal processing - Google Patents

Abstract

The utility model discloses a clamping device for crystal processing, including processing platen, its bottom two sets of accept frame and two sets of horizontal installation that are parallel to each other accept frame roof edge and with the pivot that processing platen rotated the setting, sliding tray and adjustment tank have all been opened to the both sides of processing platen roof, and sliding tray and adjustment tank orientation mutually perpendicular, be equipped with on the processing platen and be criss-cross roof beam board and two sets of respectively with the both sides welded fastening's of roof beam board pole that stretches out outward, roof beam board below is equipped with except that bits mechanism, and is two sets of all open and accomodate the groove on the accept frame roof. This a clamping device for crystal processing through having set up adjustment tank, positioning block, stretch out pole, roof beam board outward and remove bits mechanism, and two sets of positioning blocks are slided to suitable position in two sets of adjustment tanks, and the drive removes the motor work of bits mechanism and drives clean cotton rotatory, makes clean cotton wipe away the processing platen, realizes removing the bits automatically, has removed manual operation's trouble from.

Description

Clamping device for crystal processing

Technical Field

The utility model belongs to the technical field of the crystal processing, concretely relates to a clamping device for crystal processing.

Background

The crystal is a structure in which a large number of microscopic material units (atoms, ions, molecules, etc.) are orderly arranged according to a certain rule, so that the arrangement rule and the crystal morphology can be researched and judged according to the size of the structural units. The mass points (atoms, ions, molecules and atomic groups) in the internal structure of the crystal are regularly and repeatedly arranged in a three-dimensional space periodically to form a certain form of crystal lattice, and the shape of the crystal lattice is represented as a geometric polyhedron with a certain shape.

Currently, when processing a crystal (for example, a diamond or other crystal requiring manual processing), a processing master needs to place the crystal on a corresponding holding device and position the crystal, but the holding device has the following problems: 1. after a group of crystals are processed, a master manually uses tools such as rags to wipe the surface of the device, and then the next group of crystals can be processed, which is troublesome; 2. the inclination angle of the device can not be adjusted, so that a master can only move the body of the master when the master needs to process the crystal from different angles.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clamping device for crystal processing to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a clamping device for crystal processing, includes processing platen, its bottom two sets of supporting frame and two sets of horizontally mounting that are parallel to each other accept the frame roof edge and rotate the pivot that sets up with the processing platen, sliding tray and adjustment tank have all been opened to the both sides of processing platen roof, and sliding tray and adjustment tank orientation mutually perpendicular, be equipped with on the processing platen and be criss-cross roof beam board and two sets of respectively with the both sides welded fastening's of roof beam board pole that stretches out outward, roof beam board below is equipped with except that bits mechanism, and is two sets of all open on the supporting frame roof and accomodate the groove.

Preferably, the two groups of sliding grooves are internally provided with a first electric push rod welded with one side of the inner cavity of the sliding groove, which is far away from the center of the processing bedplate, and a moving block welded and fixed with the end part of the first electric push rod, and the top wall of the processing bedplate is provided with two groups of clamping seats which are parallel to each other and respectively welded with the top walls of the moving blocks in the two groups of sliding grooves.

Preferably, a group of silica gel sheets are fixedly bonded on one opposite side of each of the two groups of clamping seats, each clamping seat is T-shaped, and buffering wheels which are in contact with the top wall of the processing bedplate are mounted on two sides of each clamping seat.

Preferably, the two groups of adjusting grooves are internally provided with position adjusting blocks which horizontally slide in the adjusting grooves, and the top walls of the two groups of position adjusting blocks are respectively welded with the bottom ends of the two groups of outer extending rods.

Preferably, the scrap removing mechanism comprises a second electric push rod mounted on the bottom wall of the top beam plate, a motor arranged below the second electric push rod, a transmission shaft coaxially connected with a shaft of the motor, a disc welded to the bottom end of the transmission shaft, and cleaning cotton bonded to the bottom wall of the disc, and an intermediate plate welded to the second electric push rod and the motor is arranged between the second electric push rod and the motor.

Preferably, each group of the accommodating grooves is internally provided with a third electric push rod and two groups of guide shafts which are respectively arranged at two ends of the third electric push rod, the third electric push rod is in transmission connection with the bearing frame through one group of the guide shafts, and the third electric push rod is in transmission connection with the processing bedplate through the other group of the guide shafts.

The utility model discloses a technological effect and advantage: according to the clamping device for crystal processing, the adjusting grooves, the positioning blocks, the outward extending rods, the top beam plate and the scrap removing mechanism are arranged, the two groups of positioning blocks slide to proper positions in the two groups of adjusting grooves, the motors of the scrap removing mechanism are driven to work to drive the cleaning cotton to rotate, the second electric push rods extend and enable the cleaning cotton to be attached to the processing bedplate, the cleaning cotton is wiped on the processing bedplate, automatic scrap removal is achieved, and the trouble of manual operation is avoided; through having set up and accomodate groove, third electric putter, guiding axle and pivot, two sets of third electric putter extensions drive the processing platen and rotate along two sets of pivots, can adjust the inclination of processing platen, make the master worker carry out the processing of crystal from different angles, removed the trouble that master worker moved its self health from.

Drawings

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

FIG. 2 is a schematic structural view of a platen and a spindle for processing in the present invention;

FIG. 3 is a schematic structural view of a scrap removing mechanism of the present invention;

fig. 4 is a schematic structural view of the receiving frame of the present invention.

In the figure: the device comprises a processing bedplate 1, a rotating shaft 2, a bearing frame 3, a sliding groove 4, a first electric push rod 5, a moving block 6, a clamping seat 7, a buffer wheel 8, an adjusting groove 9, a positioning block 10, an extending rod 11, a top beam plate 12, a second electric push rod 13, a middle plate 14, a motor 15, a transmission shaft 16, a disc 17, an accommodating groove 18, a third electric push rod 19 and a guide shaft 20.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a clamping device for crystal processing as shown in fig. 1-4, including processing platen 1, its bottom two sets of accept frame 3 and two sets of horizontal installation that are parallel to each other accept frame 3 roof edge and with processing platen 1 rotate the pivot 2 that sets up, sliding tray 4 and adjustment tank 9 have all been opened to the both sides of processing platen 1 roof, and sliding tray 4 and adjustment tank 9 orientation mutually perpendicular, be equipped with on the processing platen 1 and be criss-cross roof beam board 12 and two sets of respectively with roof beam board 12's both sides welded fastening's outrigger 11, roof beam board 12 below is equipped with except that bits mechanism, and is two sets of it accomodates groove 18 all to open on the accept frame 3 roof.

Specifically, the two sets of sliding grooves 4 are internally provided with a first electric push rod 5 welded to one side of the inner cavity of the sliding groove, which is far away from the center of the processing bedplate 1, and a moving block 6 welded to the end of the first electric push rod 5, and the top wall of the processing bedplate 1 is provided with two sets of clamping seats 7 which are parallel to each other and respectively welded to the top walls of the moving blocks 6 in the two sets of sliding grooves 4.

Specifically, it is two sets of holder 7 is all fixed the bonding in one side in opposite directions has a set of silica gel piece, and holder 7 is the T font, and the buffering wheel 8 that contacts with 1 roof of processing platen is all installed to its both sides, and the buffering wheel 8 that sets up makes holder 7 remove the in-process more stable.

Specifically, two sets of all be equipped with in the adjustment tank 9 and slide the positioning piece 10 of level in it, and two sets of positioning piece 10 roof respectively with two sets of 11 bottom welding of stretching out the pole outward, the both sides of positioning piece 10 are laminated with the both sides of adjustment tank 9 inner chamber respectively mutually, have consequently guaranteed the stability when positioning piece 10 slides.

Specifically, the scrap removing mechanism comprises a second electric push rod 13 mounted on the bottom wall of the top beam plate 12, a motor 15 arranged below the second electric push rod 13, a transmission shaft 16 coaxially connected with the shaft of the motor 15, a disc 17 welded to the bottom end of the transmission shaft 16, and cleaning cotton bonded to the bottom wall of the disc 17, an intermediate plate 14 welded to the second electric push rod 13 and the motor 15 is arranged between the second electric push rod 13 and the motor 15, and during actual design, the cleaning cotton can be replaced by cleaning materials made of other materials.

Specifically, each group of the accommodating grooves 18 is internally provided with a third electric push rod 19 and two groups of guide shafts 20 which are respectively arranged at two ends of the third electric push rod 19, the third electric push rod 19 is in transmission connection with the bearing frame 3 through one group of the guide shafts 20, and the third electric push rod 19 is in transmission connection with the processing bedplate 1 through the other group of the guide shafts 20.

The using method comprises the following steps: when the clamping device for crystal processing is used, a processing master places a stool on the side of the device and sits on the stool, a crystal (such as a diamond crystal needing manual processing by personnel) is placed in the center of the top wall of a processing bedplate 1 (namely an area between two groups of sliding grooves 4), two groups of first electric push rods 5 are driven to extend and drive two groups of moving blocks 6 and two groups of clamping seats 7 to be close to each other until silicon sheets on the two groups of clamping seats 7 are in contact with the two sides of the crystal and fix the crystal, and the master can start carving and carving; after carving, a master can push two groups of extension rods 11 (driving two groups of positioning blocks 10 to slide to proper positions in two groups of adjusting grooves 9), so that the chip removing mechanism moves to the position above the center of the top wall of the processing bedplate 1 (or other positions needing to be cleaned), two groups of first electric push rods 5 contract to the shortest, and a driving motor 15 works to drive a transmission shaft 16, a disc 17 and cleaning cotton to rotate, so that a second electric push rod 13 extends to drive the cleaning cotton to be attached to the top wall of the processing bedplate 1, and the positions at the center of the top wall of the processing bedplate 1 are cleaned (the bottom walls of the sliding groove 4 and the adjusting groove 9 both penetrate through the bottom wall of the processing bedplate 1, so that crushed materials falling into the sliding groove 4 and the adjusting groove 9 can be automatically discharged out of the processing bedplate 1), and then the next group of crystals can be processed; when the crystal processing machine is used, if a master needs to adjust the angle of the crystal, the two groups of third electric push rods 19 are driven to extend and drive the processing bedplate 1 to rotate along the two groups of rotating shafts 2, so that the master can process the crystal at the most appropriate angle.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. The utility model provides a clamping device for crystal processing, includes processing platen (1), its bottom two sets of accepting frame (3) and two sets of horizontally mount that are parallel to each other accept frame (3) roof edge and rotate pivot (2) that set up with processing platen (1), its characterized in that: the processing table plate is characterized in that sliding grooves (4) and adjusting grooves (9) are formed in the two sides of the top wall of the processing table plate (1), the sliding grooves (4) and the adjusting grooves (9) are perpendicular to each other in direction, a cross-shaped top beam plate (12) and two groups of outer extending rods (11) which are welded and fixed with the two sides of the top beam plate (12) respectively are arranged on the processing table plate (1), a scrap removing mechanism is arranged below the top beam plate (12), and two groups of accommodating grooves (18) are formed in the top wall of the bearing frame (3).

2. A holding device for crystal processing according to claim 1, wherein: the two sets of sliding grooves (4) are internally provided with first electric push rods (5) welded with one side of the inner cavity of the sliding grooves far away from the center of the processing bedplate (1) and moving blocks (6) welded and fixed with the end parts of the first electric push rods (5), and the top wall of the processing bedplate (1) is provided with two sets of clamping seats (7) which are parallel to each other and respectively welded with the top walls of the moving blocks (6) in the two sets of sliding grooves (4).

3. A holding device for crystal processing according to claim 2, wherein: two sets of grip slipper (7) are all fixed the bonding in one side in opposite directions and are had a set of silica gel piece, and grip slipper (7) are the T font, and buffer wheel (8) that contact with processing platen (1) roof are all installed to its both sides.

4. A holding device for crystal processing according to claim 1, wherein: the two groups of adjusting grooves (9) are internally provided with positioning blocks (10) which horizontally slide in the adjusting grooves, and the top walls of the two groups of positioning blocks (10) are respectively welded with the bottom ends of the two groups of outer extending rods (11).

5. A holding device for crystal processing according to claim 1, wherein: the scrap removing mechanism comprises a second electric push rod (13) installed on the bottom wall of the top beam plate (12), a motor (15) arranged below the second electric push rod (13), a transmission shaft (16) coaxially connected with a shaft of the motor (15), a disc (17) welded to the bottom end of the transmission shaft (16) and cleaning cotton bonded to the bottom wall of the disc (17), and an intermediate plate (14) welded to the second electric push rod (13) and the motor (15) is arranged between the second electric push rod (13) and the motor.

6. A holding device for crystal processing according to claim 1, wherein: and a third electric push rod (19) and two groups of guide shafts (20) which are respectively arranged at two ends of the third electric push rod (19) are arranged in each group of the accommodating grooves (18), the third electric push rod (19) is in transmission connection with the bearing frame (3) through one group of the guide shafts (20), and the third electric push rod (19) is in transmission connection with the processing bedplate (1) through the other group of the guide shafts (20).

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