CN218836291U - Cutting saw device for processing titanium alloy frame - Google Patents

Abstract

The utility model relates to a titanium alloy frame processing technology field, and discloses a cutting saw device for titanium alloy frame processing, has solved the artifical problem that cuts the titanium alloy frame and process and waste time and energy, and inefficiency, and it includes the equipment seat, one side at the equipment seat top has seted up the shifting chute, and the middle part at the equipment seat top has seted up the cutting saw groove, and the opposite side at the equipment seat top is installed cutting motor, and the tip fixed mounting of cutting motor output has the cutting wheel, and the cutting wheel is located the inside of cutting saw groove, and the inside of shifting chute is equipped with places the mobile station, and one side fixed mounting of placing the mobile station top has the mount, and the below of mount upper portion is equipped with fixed pressing plate, and one side at the mount top is installed fixed motor; this cutting saw device for processing of titanium alloy frame has effectual fixed knot structure and automatic cutout structure to can be stable and firm cut saw processing operation to the titanium alloy frame, the effectual efficiency and the quality that improves the processing of titanium alloy frame.

Description

Cutting saw device for processing titanium alloy frame

Technical Field

The utility model belongs to the technical field of titanium alloy frame processing, specifically be a titanium alloy frame processing is with cutting saw device.

Background

Titanium alloys are alloys based on titanium with other alloying elements added. The titanium alloy has the advantages of low density, high specific strength, good corrosion resistance, high heat resistance, good process performance and the like. At present, the titanium alloy is the titanium metal material which is most widely applied, and has wide application in the fields of aviation materials, oil exploitation, food sports, medical treatment and the like.

Titanium alloy frame will remove to cut the saw processing to it when production man-hour, and present cut the saw mode and mostly use cutting equipment to cut processing by the manual work, wastes time and energy like this, and inefficiency to the machining efficiency of titanium alloy frame has been influenced.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a processing of titanium alloy frame is with cutting saw device, the effectual manual work of having solved cuts processing to the titanium alloy frame and wastes time and energy, and the problem of inefficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a processing of titanium alloy frame is with cutting saw device, which comprises an equipment pedestal, the shifting chute has been seted up to one side at equipment pedestal top, the cutting groove has been seted up at the middle part at equipment pedestal top, the cutting motor is installed to the opposite side at equipment pedestal top, the tip fixed mounting of cutting motor output has the cutting wheel, the cutting wheel is located the inside in cutting groove, the inside of shifting chute is equipped with places the moving table, one side fixed mounting who places the moving table top has the mount, the below on mount upper portion is equipped with fixing clamp plate, fixing motor is installed to one side at fixing clamp plate top, be connected through drive disk assembly between fixing motor and the fixing clamp plate, the middle part of equipment pedestal is equipped with transmission end and regulation end, transmission end and regulation end transmission are connected, and the transmission end is connected with the output transmission of cutting motor, the regulation end is connected with the bottom of placing the moving table.

Preferably, the transmission end includes first mounting groove, and the opposite side at equipment stand top is seted up to first mounting groove, and first pivot is installed on the upper portion of first mounting groove, and first gear wheel and first pinion are installed respectively to the both ends of first pivot, and the middle part fixed mounting of cutting motor output has the second pinion, and the second pinion is connected with first gear wheel meshing to can effectually carry out the transmission.

Preferably, a second rotating shaft is installed on the lower portion of the first mounting groove, a second large gear is installed at one end of the second rotating shaft and meshed with the first small gear, the adjusting end comprises a circular groove, the circular groove is formed in the bottom of the moving groove, a disc is installed at the bottom of the circular groove in a rotating mode, a first bevel gear is fixedly installed on the lower portion of the disc, the other end of the second rotating shaft extends into the inside of the circular groove and is provided with a second bevel gear, and the second bevel gear is meshed with the first bevel gear and is connected with the first bevel gear in a rotating mode effectively.

Preferably, the eccentric fixed mounting at disc top has the driving pin, and the bottom of placing the mobile station has seted up the cross slot, and the inside at the cross slot is pegged graft on the upper portion of driving pin to can be effectual carry out reciprocating motion to placing the mobile station.

Preferably, the bottom of the moving groove is symmetrically provided with two inverted-T-shaped long grooves, the bottom of the moving table is symmetrically provided with two inverted-T-shaped sliding strips, the two inverted-T-shaped sliding strips are respectively arranged inside the two inverted-T-shaped long grooves, and the end parts of the inverted-T-shaped sliding strips are respectively provided with two rollers, so that the moving table can be effectively moved.

Preferably, the transmission part includes the T-slot, and the T-slot is seted up in the bottom on mount upper portion, and two-way threaded shaft is installed in the inside rotation in T-slot, and the output of fixed motor is connected with the one end of two-way threaded shaft, and the screw thread movable block is all installed to the both sides of two-way threaded shaft, all rotates between the bottom of two screw thread movable blocks and the top of fixed pressing plate and is connected with the connecting rod to can effectually carry out the chucking to the titanium alloy frame and fix.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a be provided with the equipment seat, the shifting chute, cut the saw groove, the cutting motor, the cutting wheel, place the mobile station, the mount, fixed pressing plate, fixed motor, transmission end and regulation end, make this titanium alloy frame processing have effectual fixed knot structure and automatic cutout structure with cutting the saw device, thereby can be stable and firm cut the saw processing operation to the titanium alloy frame, the effectual efficiency and the quality that improves titanium alloy frame processing, this cutting saw device simple structure simultaneously, high durability and convenient use, and is stable and reliable, the practicality and the performance that it has can satisfy the user demand of titanium alloy frame processing.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic structural view of a sawing device of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention shown in FIG. 1;

FIG. 3 is a schematic diagram of a portion of the structure of FIG. 2 according to the present invention;

fig. 4 is a second partial schematic view of fig. 2 according to the present invention;

fig. 5 is a schematic top view of the disc of the present invention;

in the figure: 1. an equipment base; 2. a moving groove; 3. cutting a saw groove; 4. cutting the motor; 5. a cutting wheel; 6. placing a mobile station; 7. a fixed mount; 8. fixing the pressing plate; 9. fixing a motor; 10. a transmission end; 11. an adjustment end; 12. a first mounting groove; 13. a first bull gear; 14. a first pinion gear; 15. a second pinion gear; 16. a second bull gear; 17. a circular groove; 18. a disc; 19. a first bevel gear; 20. a second bevel gear; 21. a drive pin; 22. a transverse groove; 23. an inverted T-shaped elongated slot; 24. an inverted T-shaped slide bar; 25. a roller; 26. a T-shaped slot; 27. a bidirectional threaded shaft; 28. a threaded moving block; 29. a connecting rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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 is shown in fig. 1 to 5, the utility model discloses an equipment base 1, one side at the top of equipment base 1 has seted up the shifting chute 2, the middle part at the top of equipment base 1 has seted up saw cutting groove 3, the opposite side at the top of equipment base 1 has installed cutting motor 4, the tip fixed mounting of cutting motor 4 output has cutting wheel 5, cutting wheel 5 is located the inside of saw cutting groove 3, the inside of shifting chute 2 is equipped with places moving platform 6, one side fixed mounting who places moving platform 6 top has mount 7, the below of mount 7 upper portion is equipped with fixed clamp 8, place moving platform 6 and fixed clamp 8 and be planar structure, it can only fix the titanium alloy frame section bar of square structure, and the bottom of fixed clamp 8 is equipped with the chucking rubber block, thereby the stability of titanium alloy frame section bar processing has been kept, fixed motor 9 is installed to one side at the top of mount 7, pass through the drive disk assembly between fixed motor 9 and the fixed clamp 8 and be connected, the middle part of equipment base 1 is equipped with transmission end 10 and regulation end 11, transmission end 10 and regulation end 11 transmission connection, and regulation end 10 and the output transmission connection of cutting motor 4, the bottom of placing moving platform 6; the transmission end 10 comprises a first mounting groove 12, the first mounting groove 12 is formed in the other side of the top of the equipment seat 1, a first rotating shaft is mounted at the upper portion of the first mounting groove 12, a first large gear 13 and a first small gear 14 are mounted at two ends of the first rotating shaft respectively, a second small gear 15 is fixedly mounted in the middle of the output end of the cutting motor 4, and the second small gear 15 is meshed with the first large gear 13, so that transmission can be effectively carried out; the second pivot is installed to the lower part of first mounting groove 12, second gear wheel 16 is installed to the one end of second pivot, second gear wheel 16 is connected with the meshing of first pinion 14, it includes circular slot 17 to adjust end 11, circular slot 17 is seted up in the bottom of shifting chute 2, disc 18 is installed in the bottom rotation of circular slot 17, the lower part fixed mounting of disc 18 has first bevel gear 19, the other end of second pivot extends to the inside of circular slot 17 and installs second bevel gear 20, second bevel gear 20 is connected with the meshing of first bevel gear 19, thereby can effectually rotate the regulation.

A driving pin 21 is eccentrically and fixedly arranged at the top of the disc 18, a transverse groove 22 is formed in the bottom of the placing moving table 6, and the upper part of the driving pin 21 is inserted into the transverse groove 22, so that the placing moving table 6 can be effectively moved in a reciprocating manner; two inverted T-shaped long grooves 23 are symmetrically formed in the bottom of the moving groove 2, two inverted T-shaped sliding strips 24 are symmetrically arranged at the bottom of the moving platform 6, the two inverted T-shaped sliding strips 24 are respectively arranged inside the two inverted T-shaped long grooves 23, and two rollers 25 are arranged at the end portions of the inverted T-shaped sliding strips 24, so that the moving platform 6 can be effectively moved.

The transmission part comprises a T-shaped groove 26, the T-shaped groove 26 is formed in the bottom of the upper portion of the fixing frame 7, a bidirectional threaded shaft 27 is rotatably mounted inside the T-shaped groove 26, the output end of the fixing motor 9 is connected with one end of the bidirectional threaded shaft 27, threaded moving blocks 28 are mounted on two sides of the bidirectional threaded shaft 27, and connecting rods 29 are rotatably connected between the bottoms of the two threaded moving blocks 28 and the top of the fixing pressing plate 8, so that the titanium alloy frame section can be effectively clamped and fixed.

The utility model discloses a theory of operation does: at first place the top of placing mobile station 6 with titanium alloy frame section bar, make the cutting edge and the cutting wheel 5 alignment of titanium alloy frame section bar, then start fixed motor 9, make two-way screw shaft 27 rotate, two-way screw shaft 27's rotation can make two screw thread movable blocks 28 remove relatively, two screw thread movable blocks 28 of relative movement can make two connecting rods 29 of drive move, make two connecting rods 29 promote stationary platen 8 and move down, finally make stationary platen 8 compress tightly fixedly to the titanium alloy frame section bar of placing mobile station 6 top.

Then, the cutting motor 4 is started to drive the second pinion 15 and the cutting wheel 5 to rotate, the rotation of the second pinion 15 drives the first gearwheel 13, so that the first rotating shaft drives the first pinion 14 to rotate, the rotation of the first pinion 14 drives the second gearwheel 16, so that the second rotating shaft drives the second bevel gear 20 to rotate, the rotation of the second bevel gear 20 drives the first bevel gear 19, and finally the disc 18 is rotationally adjusted, the rotation of the disc 18 drives the driving pin 21 to rotate, the rotation of the driving pin 21 moves inside the transverse groove 22 and drives the placing moving table 6 to horizontally reciprocate in the transverse groove 22 through the driving pin 21, and the movement of the placing moving table 6 drives the inverted T-shaped sliding strip 24 and the roller 25 to move inside the inverted T-shaped long groove 23; the horizontal reciprocating movement of the placing moving table 6 drives the fixed titanium alloy frame section to move, so that the titanium alloy frame section is in contact with the rotating cutting wheel 5 to perform cutting operation.

This processing of titanium alloy frame is with cutting saw device has effectual fixed knot structure and automatic cutout structure to can be stable and firm cut saw processing operation to titanium alloy frame section bar, the effectual efficiency and the quality that improves the processing of titanium alloy frame, this cutting saw device simple structure simultaneously, convenient to use is convenient, and is reliable and stable, and the practicality and the performance that it had can satisfy the user demand of processing of titanium alloy frame.

Claims (6)

1. The utility model provides a processing of titanium alloy frame is with cutting saw device, includes equipment stand (1), its characterized in that: moving slot (2) have been seted up to one side at equipment seat (1) top, sawing slot (3) have been seted up at the middle part at equipment seat (1) top, cutting motor (4) are installed to the opposite side at equipment seat (1) top, the tip fixed mounting of cutting motor (4) output has cutting wheel (5), cutting wheel (5) are located the inside of sawing slot (3), the inside of moving slot (2) is equipped with places moving platform (6), place one side fixed mounting at moving platform (6) top and have mount (7), the below on mount (7) upper portion is equipped with solid fixed pressing plate (8), solid fixed motor (9) are installed to one side at mount (7) top, be connected through drive disk between solid fixed motor (9) and solid fixed pressing plate (8), the middle part of equipment seat (1) is equipped with transmission end (10) and regulation end (11), transmission end (10) and regulation end (11) transmission are connected, and end (10) are connected with the output transmission of cutting motor (4), regulation end (11) are connected with the bottom of placing moving platform (6).

2. The cutting and sawing device for processing the titanium alloy frame according to claim 1, wherein the cutting and sawing device comprises: the transmission end (10) comprises a first mounting groove (12), the first mounting groove (12) is arranged on the other side of the top of the equipment base (1), a first rotating shaft is mounted on the upper portion of the first mounting groove (12), a first large gear (13) and a first small gear (14) are mounted at two ends of the first rotating shaft respectively, a second small gear (15) is fixedly mounted in the middle of the output end of the cutting motor (4), and the second small gear (15) is meshed with the first large gear (13) and is connected with the first small gear.

3. The cutting and sawing device for processing the titanium alloy frame according to claim 2, wherein the cutting and sawing device comprises: the second pivot is installed to the lower part of first mounting groove (12), second gear wheel (16) are installed to the one end of second pivot, second gear wheel (16) are connected with first pinion (14) meshing, regulation end (11) are including circular slot (17), the bottom in shifting chute (2) is seted up in circular slot (17), disc (18) are installed in the bottom rotation of circular slot (17), the lower part fixed mounting of disc (18) has first bevel gear (19), the other end of second pivot extends to the inside of circular slot (17) and installs second bevel gear (20), second bevel gear (20) and first bevel gear (19) meshing are connected.

4. The cutting and sawing device for processing the titanium alloy frame according to claim 3, wherein the cutting and sawing device comprises: the eccentric fixed mounting at disc (18) top has drive pin (21), and horizontal groove (22) have been seted up to the bottom of placing mobile station (6), and the inside in horizontal groove (22) is pegged graft on the upper portion of drive pin (21).

5. The cutting and sawing device for processing the titanium alloy frame according to claim 4, wherein the cutting and sawing device comprises: two inverted T-shaped long grooves (23) are symmetrically formed in the bottom of the moving groove (2), two inverted T-shaped sliding strips (24) are symmetrically installed at the bottom of the moving platform (6), the two inverted T-shaped sliding strips (24) are respectively installed inside the two inverted T-shaped long grooves (23), and two rollers (25) are installed at the end portions of the inverted T-shaped sliding strips (24).

6. The cutting and sawing device for processing the titanium alloy frame according to claim 1, wherein the cutting and sawing device comprises: the transmission part comprises a T-shaped groove (26), the T-shaped groove (26) is formed in the upper portion of the fixing frame (7), a bidirectional threaded shaft (27) is installed in the T-shaped groove (26) in a rotating mode, the output end of the fixed motor (9) is connected with one end of the bidirectional threaded shaft (27), threaded moving blocks (28) are installed on the two sides of the bidirectional threaded shaft (27), and a connecting rod (29) is connected between the bottoms of the two threaded moving blocks (28) and the top of the fixed pressing plate (8) in a rotating mode.

Images