CN220028916U - Cutting fixing structure for precision screw machining - Google Patents

Abstract

The utility model discloses a cutting fixing structure for precision screw machining, which comprises a mounting plate, wherein a first supporting plate is fixedly connected to the top of the mounting plate, two first mounting grooves are formed in the top of the first supporting plate, a first moving assembly is arranged in the two first mounting grooves, a second supporting plate is arranged on the top of the first moving assembly, a second mounting groove is formed in the top of the second supporting plate, and a second moving assembly is arranged in the second mounting groove; the collecting box is installed at the top of second movable assembly, fixed subassembly is installed at the top of collecting box, the inside sliding connection of collecting box has the collection drawer. According to the utility model, the collection box and the collection drawer are designed simply, so that chips generated in the cutting process of the precision screw are conveniently collected, and shutdown cleaning is not needed, so that a large number of chips generated in the cutting process are prevented from influencing the operation of equipment, and the cutting process efficiency of the equipment is greatly improved.

Description

Cutting fixing structure for precision screw machining

Technical Field

The utility model relates to the technical field of cutting fixation, in particular to a cutting fixation structure for machining a precision screw.

Background

The precision screw is called as a small screw for short, is a small fastener for connecting product materials, has a small shape, and can play a key role at key positions. Is widely applied to electronics, electricity, electrical appliances, furniture, mechanical equipment and the like. The precision screws are classified into self-tapping precision screws and machine-thread precision screws.

The cutting fixing structure for precision screw machining is a mechanism capable of fixing the precision screw and is convenient to machine and cut, the design of the cutting fixing structure for precision screw machining on the market is simple, the precision screw is usually fixed through a fixing clamp, the precision screw is machined through a cutting tool, the chips produced during the precision screw cutting machining are required to be shut down every time, equipment operation is affected due to long-time accumulation, and meanwhile, the cutting machining efficiency of the equipment on the precision screw is greatly reduced.

It is therefore desirable to provide a cutting fixture for precision screw machining that solves the above-mentioned problems.

Disclosure of Invention

The utility model aims to solve the technical problems that the design of a cutting fixing structure for machining the precision screw on the market is simpler, the precision screw is usually fixed through a fixing clamp and then machined through a cutting tool, however, the chip produced by cutting the precision screw needs to be stopped every time, the operation of equipment is influenced by long-time accumulation, and meanwhile, the cutting machining efficiency of the equipment on the precision screw is greatly reduced.

In order to solve the technical problems, the utility model adopts a technical scheme that: the cutting fixing structure for precision screw machining comprises a mounting plate, wherein mounting holes are formed in four corners of the top of the mounting plate;

the top of the mounting plate is fixedly connected with a first support plate, two first mounting grooves are formed in the top of the first support plate, first moving assemblies are mounted in the two first mounting grooves, a second support plate is mounted on the top of the first moving assemblies, a second mounting groove is formed in the top of the second support plate, and second moving assemblies are mounted in the second mounting grooves;

the collecting box is installed at the top of second movable assembly, fixed subassembly is installed at the top of collecting box, fixedly connected with frame around the top of collecting box, the inside sliding connection of collecting box has the collection drawer.

The utility model is further provided with: the mounting plate, the plurality of mounting holes and the first support plate are of an integrated structural design.

Through the technical scheme: the screw assembling device has certain integrity, and meanwhile, equipment can be conveniently installed on a workbench, so that the precision screw can be conveniently processed.

The utility model is further provided with: the first moving assembly comprises a first fixing frame which is fixedly connected to the outer surface of the front end of the mounting plate, a first servo motor is mounted at the top of the first fixing frame, one end of an output shaft of the first servo motor is fixedly connected with a first coupler, one end of the first coupler is fixedly connected with a first ball screw, one of the first coupler is fixedly connected with a sliding rod in the first mounting groove, the outer wall of the sliding rod is slidably connected with a sliding block, and a first rolling nut seat is mounted on the outer wall of the first ball screw.

Through the technical scheme: at this moment, when the first servo motor starts to work, the first servo motor drives the first coupler to rotate through the rotation of the output shaft, the first coupler rotates to drive the first ball screw to rotate, the first ball screw rotates to drive the first rolling nut seat to move, the sliding block moves along with the sliding rod, and accordingly the second supporting plate is moved, the equipment can automatically move the fixed precise screw, cutting machining is facilitated, and cutting machining efficiency is greatly improved.

The utility model is further provided with: the top of the first rolling nut seat is fixedly connected with the bottom of the second supporting plate.

Through the technical scheme: facilitating movement of the second support plate.

The utility model is further provided with: the second moving assembly comprises a second fixing frame, the second fixing frame is fixedly connected to one side of a second supporting plate, a second servo motor is installed at the top of the second fixing frame, one end of an output shaft of the second servo motor is fixedly connected with a second coupler, one end of the second coupler is fixedly connected with a second ball screw, a second rolling nut seat is installed on the outer wall of the second ball screw, at the moment, the second servo motor starts to work, the second servo motor drives the second coupler to rotate through output shaft rotation, the second coupler rotates to drive the second ball screw to rotate, and the second ball screw rotates to drive the second rolling nut seat to move.

Through the technical scheme: thereby realized that the second rolling nut seat removes the collecting box, first moving component and second moving component cooperate for this equipment can be automatic remove fixed accurate screw, thereby is convenient for carry out cutting process to it, thereby great improvement cutting efficiency.

The utility model is further provided with: the top of the second rolling nut seat is fixedly connected with the bottom of the collecting box.

Through the technical scheme: the collecting box is convenient to move.

The utility model is further provided with: the top of the collecting box is provided with a plurality of round holes.

Through the technical scheme: the chip that can produce accurate screw cutting processing is collected, need not shut down the clearance to produce a large amount of chips and influence equipment operation when preventing cutting processing, and then great improvement the cutting efficiency of equipment.

The utility model is further provided with: the fixed subassembly includes two supporting blocks, two supporting block fixed connection is in the top of collecting box, two all install the cylinder on the supporting block, two the equal fixedly connected with connecting block of one end of cylinder piston, two the equal fixedly connected with clamp splice of one end of connecting block, the top center fixedly connected with fixed block of collecting box, the lug is installed at the top of fixed block.

Through the technical scheme: at this moment, two cylinders start to work, and two cylinders promote through the piston and drive two connecting blocks and promote, thereby two connecting blocks promote and drive two clamp splice and remove, link up the lug with the top recess alignment lug of accurate screw simultaneously to realized fixing accurate screw, thereby be convenient for cutting equipment carries out cutting processing to it, can fix the accurate screw of different specifications, great improvement the practicality of this equipment.

The utility model is further provided with: the fixed block and the protruding block are detachably arranged.

Through the technical scheme: thereby be convenient for fix accurate screw, link up through lug and accurate screw's top recess to be convenient for fix it, the lug is detachable connection with the fixed block simultaneously, is convenient for link up the accurate screw of different specifications.

The beneficial effects of the utility model are as follows:

1. according to the utility model, the collection box and the collection drawer are designed simply, so that chips generated in the cutting process of the precision screw are conveniently collected, and shutdown cleaning is not needed, so that a large number of chips generated in the cutting process are prevented from influencing the operation of equipment, and the cutting process efficiency of the equipment is greatly improved;

2. according to the utility model, the first moving assembly and the second moving assembly which are simple in design can automatically move the fixed precise screw, so that the fixed precise screw is convenient to cut, and the cutting efficiency is greatly improved;

3. according to the utility model, the fixing assembly is designed, so that the precise screw is conveniently fixed, the convex block is conveniently connected with the top groove of the precise screw, and meanwhile, the convex block is detachably connected with the fixing block, so that the precise screws with different specifications are conveniently connected.

Drawings

FIG. 1 is an external view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a top view of the present utility model;

FIG. 4 is a cross-sectional view of the present utility model;

fig. 5 is a partial enlarged view at a in fig. 4.

In the figure: 1. a mounting plate; 2. a mounting hole; 3. a first support plate; 4. a first mounting groove; 5. a first moving assembly; 501. a first fixing frame; 502. a first servo motor; 503. a first coupling; 504. a first ball screw; 505. a slide bar; 506. a slide block; 507. a first rolling nut seat; 6. a second support plate; 7. a second mounting groove; 8. a second moving assembly; 801. the second fixing frame; 802. a second servo motor; 803. a second coupling; 804. a second ball screw; 805. the second rolling nut seat; 9. a collection box; 10. a fixing assembly; 1001. a support block; 1002. a cylinder; 1003. a connecting block; 1004. clamping blocks; 1005. a fixed block; 1006. a bump; 11. a frame; 12. and a collection drawer.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

Referring to fig. 1-5, a cutting fixing structure for precision screw machining comprises a mounting plate 1, mounting holes 2 are formed in four corners of the top of the mounting plate 1, a first supporting plate 3 is fixedly connected to the top of the mounting plate 1, the plurality of mounting holes 2 and the first supporting plate 3 are of an integrated structural design, and the cutting fixing structure has certain integrity, equipment can be conveniently mounted on a workbench, so that precision screws can be conveniently machined, two first mounting grooves 4 are formed in the top of the first supporting plate 3, a second supporting plate 6 is mounted on the top of the first moving assembly 5, a second mounting groove 7 is formed in the top of the second supporting plate 6, a collecting box 9 is mounted on the top of the second moving assembly 8, a plurality of round holes are formed in the top of the collecting box 9, chips produced by precision screw cutting can be collected without shutdown cleaning, a large amount of chips are prevented from affecting equipment operation during cutting, the cutting efficiency of the equipment is greatly improved, a frame 11 is fixedly connected to the periphery of the top of the collecting box 9, and a drawer 12 is connected to the inside of the collecting box 9 in a sliding mode;

as shown in fig. 2 and 3, a first moving component 5 is installed in two first installation grooves 4, the first moving component 5 comprises a first fixing frame 501, the first fixing frame 501 is fixedly connected to the outer surface of the front end of the installation plate 1, a first servo motor 502 is installed at the top of the first fixing frame 501, one end of an output shaft of the first servo motor 502 is fixedly connected with a first coupler 503, one end of the first coupler 503 is fixedly connected with a first ball screw 504, one of the first installation grooves 4 is fixedly connected with a sliding rod 505, the outer wall of the sliding rod 505 is slidingly connected with a sliding block 506, a first rolling nut seat 507 is installed on the outer wall of the first ball screw 504, at this moment, when the first servo motor 502 starts working, the first servo motor 502 drives the first coupler 503 to rotate through the rotation of the output shaft, the first coupler 503 drives the first ball screw 504 to rotate, the first ball screw 504 drives the first rolling nut seat 507 to move, the sliding block 506 moves along with the first coupler, and thus the second support plate 6 moves, the fixed screw can move automatically, thus the fixed screw can be convenient for greatly cutting the fixed screw, and the precision cutting efficiency of the first support plate 6 is convenient to cut the bottom of the first support plate 505, and the second support plate 6 is convenient to be connected with the first precise cutting seat 6, and the bottom of the first support plate is convenient to be processed;

as shown in fig. 2 and 3, a second moving assembly 8 is installed in the second installation groove 7, the second moving assembly 8 comprises a second fixing frame 801, the second fixing frame 801 is fixedly connected to one side of the second supporting plate 6, a second servo motor 802 is installed at the top of the second fixing frame 801, one end of an output shaft of the second servo motor 802 is fixedly connected with a second coupler 803, one end of the second coupler 803 is fixedly connected with a second ball screw 804, a second rolling nut seat 805 is installed on the outer wall of the second ball screw 804, at this time, the second servo motor 802 starts to work, the second servo motor 802 drives the second coupler 803 to rotate through the rotation of the output shaft, the second coupler 803 drives the second ball screw 804 to rotate, the second ball screw 804 rotates to drive the second rolling nut seat 805 to move, and therefore the second rolling nut seat 805 moves the collecting box 9, the first moving assembly 5 and the second moving assembly 8 cooperate, and therefore the fixed precise screw can be automatically moved, cutting processing is facilitated, rolling efficiency is greatly improved, and the top of the second rolling nut seat 805 is conveniently connected with the collecting box 9;

as shown in fig. 4 and 5, the fixed component 10 is installed at the top of the collecting box 9, the fixed component 10 includes two supporting blocks 1001, two supporting blocks 1001 fixed connection are in the top of the collecting box 9, all install cylinder 1002 on two supporting blocks 1001, the equal fixedly connected with connecting block 1003 of one end of two cylinder 1002 pistons, the equal fixedly connected with clamp splice 1004 of one end of two connecting block 1003, the top center fixedly connected with fixed block 1005 of collecting box 9, the lug 1006 is installed at the top of fixed block 1005, two cylinder 1002 start work at this moment, two cylinder 1002 promote through the piston and drive two connecting blocks 1003 and promote, thereby two connecting block 1003 promote and drive two clamp splice 1004 and remove, simultaneously link up the top recess alignment lug 1006 of accurate screw, thereby realized fixing accurate screw, thereby the cutting equipment of being convenient for carries out cutting processing to it, can fix the accurate screw of different specifications, great improvement the practicality of this equipment, fixed block 1005 is detachable installation with the lug 1006, thereby be convenient for carry out the fixed to accurate screw, carry out the fixed connection with the lug 1006 through the lug recess through the lug 1006, thereby be convenient for carry out the fixed connection of accurate screw 1006 with accurate screw, simultaneously, it is not convenient for connect with accurate screw 1006.

When the utility model is used, when the grooves at the top of the precision screw are aligned with the convex blocks 1006, at the moment, the two cylinders 1002 start to work, the two cylinders 1002 push by the pistons to drive the two connecting blocks 1003 to push, the two connecting blocks 1003 push to drive the two clamping blocks 1004 to move, thereby realizing the fixation of the precision screw, at the moment, when the first servo motor 502 starts to work, the first servo motor 502 rotates by the output shaft to drive the first coupler 503 to rotate, the first coupler 503 rotates to drive the first ball screw 504 to rotate, the first ball screw 504 rotates to drive the first rolling nut seat 507 to move, the sliding block 506 moves along with the sliding rod 505, thereby realizing the movement of the second supporting plate 6, at the same time, the second servo motor 802 starts to work, the second coupler 803 rotates by the rotation of the output shaft to drive the second ball screw 804, the second rolling nut seat 805 moves, thereby realizing the movement of the second rolling nut seat 805 to the collection box 9, and when the drawer 12 is full, the chips can be collected.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (9)

1. The utility model provides a precision screw processing is with cutting fixed knot constructs, includes mounting panel (1), its characterized in that: mounting holes (2) are formed in four corners of the top of the mounting plate (1);

the device comprises a mounting plate (1), a first support plate (3) is fixedly connected to the top of the mounting plate (1), two first mounting grooves (4) are formed in the top of the first support plate (3), first moving assemblies (5) are arranged in the two first mounting grooves (4), a second support plate (6) is arranged at the top of each first moving assembly (5), a second mounting groove (7) is formed in the top of each second support plate (6), and a second moving assembly (8) is arranged in each second mounting groove (7);

the collecting box (9) is installed at the top of second removal subassembly (8), fixed subassembly (10) are installed at the top of collecting box (9), fixedly connected with frame (11) all around at the top of collecting box (9), the inside sliding connection of collecting box (9) has collection drawer (12).

2. The cutting fixture for precision screw machining according to claim 1, wherein: the mounting plate (1), the plurality of mounting holes (2) and the first support plate (3) are of an integrated structural design.

3. The cutting fixture for precision screw machining according to claim 2, wherein: the first moving assembly (5) comprises a first fixing frame (501), the first fixing frame (501) is fixedly connected to the outer surface of the front end of the mounting plate (1), a first servo motor (502) is mounted at the top of the first fixing frame (501), one end of an output shaft of the first servo motor (502) is fixedly connected with a first coupler (503), one end of the first coupler (503) is fixedly connected with a first ball screw (504), one of the first ball screws is fixedly connected with a sliding rod (505) in the first mounting groove (4), the outer wall of the sliding rod (505) is slidably connected with a sliding block (506), and a first rolling nut seat (507) is mounted on the outer wall of the first ball screw (504).

4. A cutting fixture for precision screw machining according to claim 3, wherein: the top of the first rolling nut seat (507) is fixedly connected with the bottom of the second supporting plate (6).

5. The cutting fixture for precision screw machining according to claim 4, wherein: the second moving assembly (8) comprises a second fixing frame (801), the second fixing frame (801) is fixedly connected to one side of a second supporting plate (6), a second servo motor (802) is installed at the top of the second fixing frame (801), one end of an output shaft of the second servo motor (802) is fixedly connected with a second coupler (803), one end of the second coupler (803) is fixedly connected with a second ball screw (804), and a second rolling nut seat (805) is installed on the outer wall of the second ball screw (804).

6. The cutting fixture for precision screw machining according to claim 5, wherein: the top of the second rolling nut seat (805) is fixedly connected with the bottom of the collecting box (9).

7. The cutting fixture for precision screw machining according to claim 6, wherein: a plurality of round holes are formed in the top of the collecting box (9).

8. The cutting fixture for precision screw machining according to claim 7, wherein: the fixing assembly (10) comprises two supporting blocks (1001), the two supporting blocks (1001) are fixedly connected to the top of the collecting box (9), the two supporting blocks (1001) are provided with air cylinders (1002), the two supporting blocks are fixedly connected with connecting blocks (1003) at one ends of pistons of the air cylinders (1002), the two supporting blocks (1003) are fixedly connected with clamping blocks (1004) at one ends of the connecting blocks (1003), the fixing blocks (1005) are fixedly connected to the center of the top of the collecting box (9), and protruding blocks (1006) are arranged at the top of the fixing blocks (1005).

9. The cutting fixture for precision screw machining according to claim 8, wherein: the fixing block (1005) and the convex blocks (1006) are detachably arranged.