CN218396492U - Laser cutting mechanism of crystal drill - Google Patents

Abstract

The utility model discloses a quartzy brill laser cutting mechanism, including the processing table, the upper end one side fixedly connected with L shape frame of processing table, and the cylinder of the vertical setting of the straight end fixedly connected with of L shape frame, the lower extreme fixedly connected with laser cutting ware of cylinder, the mounting bracket that two vertical symmetries of upside both ends fixedly connected with of processing table set up, and the upper end fixedly connected with translation adjustment mechanism of two mounting brackets, translation adjustment mechanism's front end fixedly connected with fixture. The utility model discloses in, realize fixing quartzy former stone through setting up fixture, it is fixed firm, set up translation adjustment mechanism and drive quartzy former stone horizontal displacement and adjust to cut, the displacement is stable, and cutting accuracy is high, sets up collection dirt mechanism and is convenient for concentrate the recovery to the cutting dust, and the cutting department is in the dust mouth directly over always, and dust removal effect is better, does not need to operate at the enclosure space, convenient to use.

Description

Laser cutting mechanism of crystal drill

Technical Field

The utility model relates to a quartzy processing technology field that bores especially relates to a quartzy laser cutting mechanism that bores.

Background

The crystal diamond is mainly made of crystal glass, is an accessory of the ornament obtained by cutting artificial crystal glass into diamond facets, has the advantages of low cost and high permeability, is easy to obtain due to low cost of the material, has the dazzling feeling in visual effect, is widely popular with people, and is widely applied to the ornament design of middle grades.

In a crystal water drill laser cutting mechanism (patent number: CN 215549943U), the device comprises an operation table, a protective cover, a first threaded rod, a slide rod, a second threaded rod, a first fixed block, a slide block, a second fixed block, a dust suction device, a second driving motor, a positive threaded rod and a negative threaded rod, a clamping component and a laser cutter, wherein the operation table is arranged in a square shape, the protective cover is arranged on the top wall of the operation table in a square hollow shape, the protective cover is arranged in a side wall opening in one side, the first threaded rod penetrates through the upper part of one side of the inner side wall of the protective cover, and the slide rod penetrates through the inner side wall of the protective cover to be far away from the upper part of one side of the threaded rod. Therefore, those skilled in the art have provided a laser cutting mechanism for crystal drill to solve the above problems in the background art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a laser cutting mechanism of a crystal drill.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a quartzy laser cutting mechanism that bores, includes the processing table, upper end one side fixedly connected with L shape frame of processing table, and the cylinder of the vertical setting of the straight end fixedly connected with of L shape frame, the lower extreme fixedly connected with laser cutting ware of cylinder, the mounting bracket that two vertical symmetries of upside both ends fixedly connected with of processing table set up, and the upper end fixedly connected with translation adjustment mechanism of two mounting brackets, translation adjustment mechanism's front end fixedly connected with fixture is located under the laser cutting ware the dust fall mouth has been seted up to the upside of processing table, and the lower extreme fixedly connected with dust collection mechanism of dust fall mouth, the upside fixedly connected with control switch of processing table, and cylinder, laser cutting ware, translation adjustment mechanism, fixture and dust collection mechanism respectively with control switch electric connection.

As a further description of the above technical solution:

translation adjustment mechanism is including fixing the fixed strip shell in two mounting brackets upper ends, the first step motor of one end fixedly connected with of fixed strip shell, and the main shaft end of first step motor extends to in the fixed strip shell and fixedly connected with threaded rod, the inner wall of fixed strip shell is rotated through the one end of first rotation piece and threaded rod and is connected, and threaded connection has the nut piece on the threaded rod, one side fixedly connected with carriage release lever of nut piece, the front side of fixed strip shell is seted up the opening, and the one end of carriage release lever run through the opening and with fixture fixed connection.

As a further description of the above technical solution:

fixedly connected with and threaded rod parallel arrangement's gag lever post in the fixed strip shell, and the gag lever post runs through the nut piece and sets up.

As a further description of the above technical solution:

fixture includes the rectangle strip shell with translation adjustment mechanism fixed connection, one side center department fixedly connected with second step motor of rectangle strip shell, and the main shaft end of second step motor extends to rectangle strip shell and fixedly connected with initiative bevel gear, the both ends inner wall of rectangle strip shell rotates through two seconds and is connected with two screws that the screw thread trend is unanimous, and the equal fixedly connected with of one end that two screws are close and the driven bevel gear that the initiative bevel gear meshing is connected, two equal threaded connection has the thread block on the screw, and the equal fixedly connected with of one side of two thread blocks links the piece, the sliding opening has been seted up to one side of rectangle strip shell, and the one end of two links the piece all passes the sliding opening and the splint that two symmetries of fixedly connected with set up.

As a further description of the above technical solution:

the inner walls of the two sides of the sliding opening are in sliding connection with the outer side wall of the connecting block.

As a further description of the above technical solution:

the dust collecting mechanism comprises a dust collecting hopper communicated with the dust falling port, the lower end of the dust collecting hopper is communicated with a dust collecting box, one side of the dust collecting box is communicated with a negative pressure fan, a dust filtering net is fixedly connected to the inner wall of the communicated port of the dust collecting box and the negative pressure fan, and the bottom of the dust collecting box is communicated with a dust exhaust valve port.

As a further description of the above technical solution:

the bottom ends of the four supporting legs of the processing table are fixedly connected with locking universal wheels.

The utility model discloses following beneficial effect has:

1. compared with the prior art, this quartzy brill laser cutting mechanism through setting up fixture, and the raw stone is arranged in between two splint, starts the work of second step motor, drives the rotation of drive bevel gear, because the drive bevel gear meshes with two driven bevel gears respectively, and then drives two lead screws simultaneous antiport, and at this moment, two thread blocks force toward close direction displacement, and then drive two splint and press from both sides tight raw stone and realize fixing, and it is fixed firm.

2. Compared with the prior art, this quartzy laser cutting mechanism that bores through setting up translation adjustment mechanism, starts first step motor work, drives the threaded rod and rotates, and at this moment, the displacement is forced to the screw thread piece, and then drives the horizontal displacement of former stone and adjust to cut, the displacement is stable, and cutting accuracy is high, easy operation, and machining efficiency is fast.

3. Compared with the prior art, this a crystal bores laser cutting mechanism, through setting up dust collecting mechanism, start negative-pressure air fan work, make the dust collection tank produce the negative pressure, the dust that the cutting produced is by in the dust fall mouth department adsorbed dust hopper, then, collect and fall to and store in the dust collection tank, the dust screen can be with the dust interception in the dust collection tank, the air is discharged by negative-pressure air fan department, then, can be regularly by dust exhaust valve port department discharge dust, be convenient for concentrate the recovery, the cutting department is in directly over the dust fall mouth always, the dust removal effect is better, need not operate in the enclosure space, high durability and convenient use.

Drawings

Fig. 1 is a schematic perspective view of a laser cutting mechanism of a crystal drill according to the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of a fixed strip shell in a laser cutting mechanism of a crystal drill according to the present invention;

FIG. 3 is a schematic view of a top-view cross-sectional structure of a fixed strip casing of a laser cutting mechanism of a crystal drill according to the present invention;

FIG. 4 is a schematic diagram of a right-side sectional structure of a rectangular bar shell in a laser cutting mechanism of a crystal drill according to the present invention;

fig. 5 is a schematic view of a right-side sectional structure of a dust box in a laser cutting mechanism of a crystal drill according to the present invention.

Illustration of the drawings:

1. a processing table; 2. an L-shaped frame; 3. a cylinder; 4. a laser cutter; 5. a mounting frame; 6. a dust falling port; 7. a control switch; 8. fixing the strip shell; 9. a first stepper motor; 10. a threaded rod; 11. a nut block; 12. a travel bar; 13. an opening; 14. a limiting rod; 15. a rectangular strip shell; 16. a second stepping motor; 17. a drive bevel gear; 18. a screw rod; 19. a driven bevel gear; 20. a thread block; 21. connecting blocks; 22. A sliding port; 23. a splint; 24. a dust collecting hopper; 25. a dust collection box; 26. a negative pressure fan; 27. a dust filter screen; 28. a dust exhaust valve port; 29. and locking the universal wheels.

Detailed Description

Please refer to fig. 1 to 5, in an embodiment of the present invention, a laser cutting mechanism for crystal drill, including a processing table 1, an L-shaped frame 2 is fixedly connected to one side of an upper end of the processing table 1, and a vertically disposed cylinder 3 is fixedly connected to a straight end of the L-shaped frame 2, a laser cutter 4 is fixedly connected to a lower end of the cylinder 3, the cylinder 3 is started to work, a height of the laser cutter 4 can be adjusted, so as to perform cutting more accurately, two vertically symmetrically disposed mounting frames 5 are fixedly connected to two ends of an upper side of the processing table 1, and a translational adjusting mechanism is fixedly connected to upper ends of the two mounting frames 5, a clamping mechanism is fixedly connected to a front end of the translational adjusting mechanism, a dust falling port 6 is opened at an upper side of the processing table 1 under the laser cutter 4, and a dust collecting mechanism is fixedly connected to a lower end of the dust falling port 6, a control switch 7 is fixedly connected to an upper side of the processing table 1, and the cylinder 3, the laser cutter 4, the translational adjusting mechanism, the clamping mechanism and the dust collecting mechanism are electrically connected to the control switch 7 respectively, which are convenient to operate, and external power supply, which has high cutting accuracy, high efficiency and simple operation;

in fig. 3: the translation adjusting mechanism comprises a fixed strip shell 8 fixed at the upper ends of the two mounting frames 5, one end of the fixed strip shell 8 is fixedly connected with a first stepping motor 9, a spindle end of the first stepping motor 9 extends into the fixed strip shell 8 and is fixedly connected with a threaded rod 10, the inner wall of the fixed strip shell 8 is rotatably connected with one end of the threaded rod 10 through a first rotating piece, a nut block 11 is in threaded connection with the threaded rod 10, a moving rod 12 is fixedly connected with one side of the nut block 11, an opening 13 is formed in the front side of the fixed strip shell 8, one end of the moving rod 12 penetrates through the opening 13 and is fixedly connected with the clamping mechanism, the first stepping motor 9 is started to work to drive the threaded rod 10 to rotate, and the threaded rod 10 is in threaded connection with the nut block 11, and the axial rotation of the nut block 11 is limited by a limiting rod 14, so that the nut block 11 is forced to displace, and further drive the horizontal displacement adjustment of the original stone to carry out cutting;

in fig. 3: a limiting rod 14 parallel to the threaded rod 10 is fixedly connected in the fixed strip shell 8, and the limiting rod 14 penetrates through the nut block 11 and can limit the axial rotation of the nut block 11;

in fig. 2 and 4: the clamping mechanism comprises a rectangular strip shell 15 fixedly connected with the translation adjusting mechanism, the rectangular strip shell 15 is fixed with the moving rod 12, a second stepping motor 16 is fixedly connected to the center of one side of the rectangular strip shell 15, the spindle end of the second stepping motor 16 extends to the rectangular strip shell 15 and is fixedly connected with a driving bevel gear 17, the inner walls of two ends of the rectangular strip shell 15 are rotatably connected with two lead screws 18 with consistent thread directions through two second rotating pieces, one ends, close to the two lead screws 18, are fixedly connected with driven bevel gears 19 meshed with the driving bevel gears 17, threaded blocks 20 are respectively and fixedly connected to the two lead screws 18, one sides of the two threaded blocks 20 are respectively and fixedly connected with connecting blocks 21, one sides of the rectangular strip shell 15 are provided with sliding openings 22, one ends of the two connecting blocks 21 respectively penetrate through the sliding openings 22 and are fixedly connected with two symmetrically arranged clamping plates 23, an original stone is placed between the two clamping plates 23, the second stepping motor 16 is started to work to drive the driving bevel gears 17 to rotate, the driving bevel gears 17 to be respectively meshed with the two driven by the two driven bevel gears 19 to rotate reversely, the two clamping plates 22, axial rotation of the original stone 20 is further firmly limited, and the axial movement of the two clamping plates 20 is realized;

in fig. 2: the inner walls of the two sides of the sliding opening 22 are in sliding connection with the outer wall of the connecting block 21, so that the stability of the connecting block 21 during displacement is guaranteed;

in fig. 1 and 5: the dust collecting mechanism comprises a dust collecting hopper 24 communicated with the dust falling port 6, the lower end of the dust collecting hopper 24 is communicated with a dust collecting box 25, one side of the dust collecting box 25 is communicated with a negative pressure fan 26, the inner wall of the communicating port of the dust collecting box 25 and the negative pressure fan 26 is fixedly connected with a dust filtering net 27, the bottom of the dust collecting box 25 is communicated with a dust discharging valve port 28, the negative pressure fan 26 is started to work during cutting, negative pressure is generated in the dust collecting box 25, dust generated by cutting is adsorbed in the dust collecting hopper 24 through the dust falling port 6, then the dust is collected and falls into the dust collecting box 25 for storage, the dust filtering net 27 can intercept the dust in the dust collecting box 25, air is discharged through the negative pressure fan 26, then the dust can be periodically discharged through the dust discharging valve port 28, centralized recovery is facilitated, the cutting position is always positioned right above the dust falling port 6, the dust removing effect is better, and operation in a closed space is not needed;

in fig. 1: the bottom ends of the four supporting legs of the processing table 1 are fixedly connected with locking universal wheels 29, so that the processing table is convenient to move or fix.

The working principle is as follows: when the device is used for carrying out laser cutting processing on crystal raw stones, firstly, the raw stones are placed between two clamping plates 23, a second stepping motor 16 is started to work to drive a driving bevel gear 17 to rotate, the driving bevel gear 17 is respectively meshed with two driven bevel gears 19 to further drive two screw rods 18 to simultaneously rotate in opposite directions, and the axial rotation of a thread block 20 is limited by a sliding opening 22 along with a connecting block 21, so that the two thread blocks 20 are forced to displace in the similar directions, and further the two clamping plates 23 are driven to clamp the raw stones to realize fixation and firmness, and then a laser cutter 4 is started to work to carry out laser cutting on the raw stones;

then, the first stepping motor 9 is started to work to drive the threaded rod 10 to rotate, and as the threaded rod 10 is in threaded connection with the nut block 11 and the axial rotation of the nut block 11 is limited by the limiting rod 14, the nut block 11 is forced to displace so as to drive the horizontal displacement adjustment of the original stone, so that the cutting is convenient, the displacement is stable, the cutting precision is high, the operation is simple, and the processing efficiency is high;

secondly, during cutting, the negative pressure fan 26 is started to work, so that negative pressure is generated in the dust collection box 25, dust generated by cutting is absorbed into the dust collection hopper 24 through the dust falling port 6, then the dust is collected and falls into the dust collection box 25 for storage, the dust filtering net 27 can intercept the dust in the dust collection box 25, air is discharged from the negative pressure fan 26, then the dust can be periodically discharged from the dust discharge valve port 28, centralized recovery is facilitated, the cutting position is always positioned right above the dust falling port 6, the dust removal effect is better, operation in a closed space is not needed, and the dust collection device is convenient to use.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions on some technical features, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides a quartzy laser cutting mechanism that bores, includes processing table (1), its characterized in that: processing table (1) upper end one side fixedly connected with L shape frame (2), and the horizontal straight end fixedly connected with cylinder (3) of the vertical setting of L shape frame (2), the lower extreme fixedly connected with laser cutting ware (4) of cylinder (3), mounting bracket (5) that two vertical symmetries of upside both ends fixedly connected with of processing table (1) set up, and the upper end fixedly connected with translation adjustment mechanism of two mounting brackets (5), translation adjustment mechanism's front end fixedly connected with fixture is located laser cutting ware (4) under dust falling port (6) have been seted up to the upside of processing table (1), and the lower extreme fixedly connected with collection dirt mechanism of dust falling port (6), the upside fixedly connected with control switch (7) of processing table (1), and cylinder (3), laser cutting ware (4), translation adjustment mechanism, fixture and collection dirt mechanism respectively with control switch (7) electric connection.

2. The laser cutting mechanism of crystal drill according to claim 1, wherein: translation adjustment mechanism is including fixing in fixed strip shell (8) of two mounting brackets (5) upper ends, the first step motor (9) of one end fixedly connected with of fixed strip shell (8), and the main shaft end of first step motor (9) extends to in fixed strip shell (8) and fixedly connected with threaded rod (10), the inner wall of fixed strip shell (8) rotates through the one end of first rotation piece and threaded rod (10) to be connected, and threaded rod (10) go up threaded connection has nut piece (11), one side fixedly connected with carriage release lever (12) of nut piece (11), the front side of fixed strip shell (8) is seted up opening (13), and the one end of carriage release lever (12) run through opening (13) and with fixture fixed connection.

3. The laser cutting mechanism of crystal drill according to claim 2, wherein: fixedly connected with and threaded rod (10) parallel arrangement's gag lever post (14) in fixed strip shell (8), and gag lever post (14) run through nut piece (11) and set up.

4. The laser cutting mechanism of the crystal drill according to claim 1, wherein: the clamping mechanism comprises a rectangular strip shell (15) fixedly connected with a translation adjusting mechanism, a second stepping motor (16) is fixedly connected to the center of one side of the rectangular strip shell (15), the main shaft end of the second stepping motor (16) extends to the rectangular strip shell (15) and a driving bevel gear (17), inner walls of two ends of the rectangular strip shell (15) are rotatably connected with two lead screws (18) with the same thread trend through two second rotating parts, the two lead screws (18) are fixedly connected with driven bevel gears (19) meshed with the driving bevel gear (17), the two lead screws (18) are connected with thread blocks (20) in an equal threaded mode, one sides of the two thread blocks (20) are fixedly connected with connecting blocks (21), a sliding opening (22) is formed in one side of the rectangular strip shell (15), and one ends of the two connecting blocks (21) penetrate through the sliding opening (22) and are fixedly connected with two clamping plates (23) symmetrically arranged.

5. The laser cutting mechanism of crystal drill according to claim 4, wherein: the inner walls of the two sides of the sliding opening (22) are connected with the outer side wall of the connecting block (21) in a sliding mode.

6. The laser cutting mechanism of crystal drill according to claim 1, wherein: the dust collection mechanism comprises a dust collection hopper (24) communicated with the dust falling port (6), the lower end of the dust collection hopper (24) is communicated with a dust collection box (25), one side of the dust collection box (25) is communicated with a negative pressure fan (26), the inner wall of the communication port of the dust collection box (25) and the negative pressure fan (26) is fixedly connected with a dust filter screen (27), and the bottom of the dust collection box (25) is communicated with a dust discharge valve port (28).

7. The laser cutting mechanism of the crystal drill according to claim 1, wherein: the bottom ends of the four support legs of the processing table (1) are fixedly connected with locking universal wheels (29).

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