CN116160419B

CN116160419B - Horizontal double-dip-angle sample operation frame

Info

Publication number: CN116160419B
Application number: CN202310321471.1A
Authority: CN
Inventors: 杨楷
Original assignee: Hefei Jiabai Technology Co ltd
Current assignee: Hefei Jiabai Technology Co ltd
Priority date: 2023-03-29
Filing date: 2023-03-29
Publication date: 2023-07-04
Anticipated expiration: 2043-03-29
Also published as: CN116160419A

Abstract

The invention discloses a horizontal double-inclination-angle sample operation frame which comprises a base, wherein a front side sleeve is fixed on one side of the upper end surface of the base, a middle sleeve is fixed on one side of the front side sleeve, a rear side rotating sleeve is rotatably arranged on one side of the middle sleeve, a rear side connecting sleeve is fixed on one side of the rear side rotating sleeve, a timing belt pulley group is rotatably arranged on the other side of the upper end surface of the base, a plurality of connecting rods are fixed between the timing belt pulley group and the rear side connecting sleeve, an inclination angle motor matched with the timing belt pulley group is fixed on the upper end surface of the base, a hollow main shaft is fixed on one side of the rear side connecting sleeve, an L-shaped mounting seat is fixed on one side of the hollow main shaft, and a sample body is rotatably arranged on the L-shaped mounting seat; in the using process, the hollow main shaft drives the L-shaped mounting seat to rotate left and right by a certain inclination angle, the sample body is also in a rotating state on the L-shaped mounting seat, and the structural design of the whole operation frame is more coordinated, so that the sample body is convenient to process.

Description

Horizontal double-dip-angle sample operation frame

Technical Field

The invention relates to the technical field of mechanical equipment, in particular to a transverse double-inclination-angle sample operation frame.

Background

According to the sample adjustment controller disclosed in patent document CN105403541B, the sample adjustment controller comprises a control part, a joint part, a sample part and a transmission part, wherein one end of the control part is connected with one end of the joint part, the other end of the joint part is connected with the sample part, the transmission part is respectively connected with the control part, the joint part and the sample part, the joint part is composed of at least one corrugated pipe, an operator can drive a transmission rod of the transmission part through a control handle of the control part, so that the joint part is driven by the transmission rod, and the position of the sample part is further changed; the sample adjuster of the present invention is suitable for use in any degree of vacuum environment.

In the using process of the sample adjusting controller, certain defects exist, for example, after the sample is fixed, the sample adjusting controller is inconvenient to carry out multi-dimensional rotation adjustment on the sample due to the self structural design; and when the sample adjusting controller cooperates with the sample body to carry out processing operation, the space occupied by the pipeline of the sample adjusting controller is larger, so that the space occupied by the whole equipment is larger.

Disclosure of Invention

The invention aims to solve the problems in the prior art:

the existing sample adjustment controller is inconvenient to carry out multi-dimensional rotation adjustment on the sample;

the cooling pipeline on the existing sample adjustment controller occupies a larger space, so that the whole structure is larger;

and a transverse double-dip angle sample operating frame is provided.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a horizontal double-dip angle sample operation frame, includes the base, one side of base up end is fixed with front side sleeve, front side telescopic one side is fixed with middle sleeve, middle telescopic one side rotates and is provided with the rear side and rotates the sleeve, rear side rotates telescopic one side and is fixed with rear side connecting sleeve, the opposite side of base up end rotates and is provided with time rule belt pulley group, be fixed with a plurality of connective bars between time rule belt pulley group and the rear side connecting sleeve, the up end of base is fixed with the dip angle motor that the cooperation time rule belt pulley group used, one side of rear side connecting sleeve is fixed with the cavity main shaft, one side of cavity main shaft is fixed with L shape mount pad, rotate on the L shape mount pad and be provided with the sample body.

As a further technical scheme of the invention, an oxygen-free copper mounting seat is rotatably arranged at the inner top of the L-shaped mounting seat, a liquid nitrogen barrel is arranged in the oxygen-free copper mounting seat, magnetic fluid is arranged between the oxygen-free copper mounting seat and the liquid nitrogen barrel, and a sample body is fixed at the bottom of the oxygen-free copper mounting seat.

As a further technical scheme of the invention, a driven flat gear is fixedly sleeved on the outer side wall of the oxygen-free copper mounting seat, a driven rotating rod is rotatably arranged at the inner top of the L-shaped mounting seat, a driving flat gear is fixedly sleeved on the outer side wall of the driven rotating rod, and the driving flat gear is in meshed connection with the driven flat gear.

As a further technical scheme of the invention, a rear shaft rod and a front shaft rod are rotatably arranged in the hollow main shaft, a universal coupling is connected between the rear shaft rod and the front shaft rod, a driving bevel gear is fixedly sleeved on the outer side wall of the front shaft rod, a driven bevel gear is fixedly sleeved on the outer side wall of the driven rotating rod, and the driven bevel gear is in meshed connection with the driving bevel gear.

As a further technical scheme of the invention, a driving shaft is rotatably arranged in the rear connecting sleeve, the driving shaft is fixedly connected with the rear shaft rod, a plurality of connecting rods are fixed on one side of the rear connecting sleeve, the tail ends of the connecting rods are fixedly provided with the same self-transmission motor, and a driving coupler is fixedly sleeved on the driving shaft of the self-transmission motor and is fixedly connected with the driving shaft.

As a further technical scheme of the invention, a mounting plate is fixed on the side wall of the self-transmission motor, an autorotation positioning sensor is arranged on the mounting plate, and an inclination positioning sensor is arranged between the inclination motor and the time gauge belt pulley group.

As a further technical scheme of the invention, the side wall of the rear side connecting sleeve is provided with a bottom liquid inlet pipe and a bottom liquid outlet pipe in a penetrating way, the bottom liquid inlet pipe and the bottom liquid outlet pipe are both provided with a front side sleeve in a penetrating way, the upper end face of the liquid nitrogen barrel is provided with a top liquid inlet pipe and a top liquid outlet pipe in a communicating way, the bottom liquid inlet pipe is provided with a connecting pipe in a communicating way with the top liquid inlet pipe, and the bottom liquid outlet pipe is also provided with a connecting pipe in a communicating way with the top liquid outlet pipe.

As a further technical scheme of the invention, an air cylinder is fixed on the upper end face of the base, a connecting frame is fixed at the tail end of the telescopic end of the air cylinder, a movable rod is fixed at one side of the connecting frame, and a baffle is fixed at the tail end of the movable rod.

The invention has the beneficial effects that:

1. after a sample body to be processed is fixed to the bottom of an oxygen-free copper mounting seat, then an inclination angle motor drives a time gauge belt pulley group to rotate left and right, the time gauge belt pulley group drives a rear side connecting sleeve to rotate through a connecting rod, the rear side connecting sleeve drives a hollow main shaft to rotate, and the hollow main shaft drives an L-shaped mounting seat to rotate, so that the sample body fixed on the L-shaped mounting seat is driven to rotate left and right by a certain inclination angle, the sample body is also in a rotating state on the L-shaped mounting seat, and the structural design of the whole operation frame is more coordinated, so that the sample body is convenient to process;

2. in the processing operation of the sample body, a bottom liquid inlet pipe and a top liquid inlet pipe form a liquid inlet pipeline, a bottom liquid outlet pipe and a top liquid outlet pipe form a liquid outlet pipeline, the liquid inlet pipeline and the liquid outlet pipeline are circularly cooled in a one-in-one mode, and the liquid inlet pipeline and the liquid outlet pipeline are matched with a liquid nitrogen barrel to finish cooling of the sample body, so that the space occupied by the pipeline is small, and the space occupied by the whole equipment can be reduced;

3. when the telescopic end of the cylinder stretches, the connecting frame is driven to move backwards, the moving rod and the baffle are driven to move backwards, so that the baffle can not shield the sample body, when the telescopic end of the cylinder shortens, the connecting frame is driven to move forwards, so that the moving rod and the baffle are pushed to move forwards, the baffle is located under the sample body, the sample body is shielded, the baffle can move forwards and backwards, the sample body is shielded, and the sample body is matched with the sample body to carry out processing operation.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the whole structure of the present invention;

FIG. 3 is a schematic view showing the internal structure of the hollow spindle of the present invention;

FIG. 4 is a schematic view of the internal structure of the L-shaped mounting base of the present invention;

fig. 5 is a schematic diagram showing connection between a cylinder and a connecting frame according to the present invention.

In the figure: 1. a base; 2. a front sleeve; 3. an intermediate sleeve; 4. the rear side rotates the sleeve; 5. the rear side is connected with the sleeve; 6. a time gauge belt pulley set; 7. a connecting rod; 8. an inclination angle motor; 9. a hollow main shaft; 10. an L-shaped mounting seat; 11. a sample body; 12. an oxygen-free copper mounting seat; 13. a liquid nitrogen barrel; 15. driven flat gears; 16. a driven rotating rod; 17. a driving flat gear; 18. a rear shaft bar; 19. a front axle bar; 20. a universal coupling; 21. a drive bevel gear; 22. a driven bevel gear; 23. a driving shaft; 24. a connecting rod; 25. a self-transmission motor; 26. an active coupling; 27. a mounting plate; 28. a rotation positioning sensor; 29. an inclination angle positioning sensor; 30. a bottom liquid inlet pipe; 31. a bottom liquid outlet pipe; 32. a top liquid inlet pipe; 33. a top outlet pipe; 34. a cylinder; 35. a connecting frame; 36. a moving rod; 37. and a baffle.

Description of the embodiments

In order to further describe the technical means and effects adopted by the present invention for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present invention with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1-5, a horizontal double-inclination sample operation frame comprises a base 1, one side of the upper end surface of the base 1 is fixed with a front side sleeve 2, one side of the front side sleeve 2 is fixed with a middle sleeve 3, one side of the middle sleeve 3 is rotationally provided with a rear side rotating sleeve 4, one side of the rear side rotating sleeve 4 is fixed with a rear side connecting sleeve 5, the other side of the upper end surface of the base 1 is rotationally provided with a timing belt pulley group 6, a plurality of connecting rods 7 are fixed between the timing belt pulley group 6 and the rear side connecting sleeve 5, the upper end surface of the base 1 is fixed with an inclination motor 8 matched with the timing belt pulley group 6, one side of the rear side connecting sleeve 5 is fixed with a hollow main shaft 9, one side of the hollow main shaft 9 is fixed with an L-shaped mounting seat 10, and a sample body 11 is rotationally provided on the L-shaped mounting seat 10.

The inclination motor 8 drives the time gauge belt pulley group 6 to rotate left and right, the time gauge belt pulley group 6 drives the rear side connecting sleeve 5 to rotate through the connecting rod 7, the rear side connecting sleeve 5 drives the hollow main shaft 9 to rotate, the hollow main shaft 9 drives the L-shaped mounting seat 10 to rotate, thereby driving the sample body 11 fixed on the L-shaped mounting seat 10 to rotate left and right by a certain inclination angle, the sample body 11 is also in a rotating state on the L-shaped mounting seat 10, and the structural design of the whole operation frame is more coordinated, so that the sample body 11 is convenient to process.

The inner top of the L-shaped mounting seat 10 is rotatably provided with an oxygen-free copper mounting seat 12, a liquid nitrogen barrel 13 is arranged in the oxygen-free copper mounting seat 12, magnetic fluid is arranged between the oxygen-free copper mounting seat 12 and the liquid nitrogen barrel 13, and a sample body 11 is fixed at the bottom of the oxygen-free copper mounting seat 12.

Magnetic fluid is added between the liquid nitrogen barrel 13 and the oxygen-free copper mounting seat 12 for heat conduction, and a heating lamp and a temperature sensing wire are arranged in the oxygen-free copper mounting seat 12 for controlling the temperature, so that the temperature of the sample body 11 is controlled, and the sample body 11 is conveniently processed.

The oxygen-free copper mounting seat 12 is fixedly sleeved with a driven flat gear 15, the inner top of the L-shaped mounting seat 10 is rotatably provided with a driven rotating rod 16, the outer side wall of the driven rotating rod 16 is fixedly sleeved with a driving flat gear 17, the driving flat gear 17 is in meshed connection with the driven flat gear 15, the hollow main shaft 9 is rotatably provided with a rear shaft rod 18 and a front shaft rod 19, a universal coupler 20 is connected between the rear shaft rod 18 and the front shaft rod 19, the outer side wall of the front shaft rod 19 is fixedly sleeved with a driving bevel gear 21, the outer side wall of the driven rotating rod 16 is fixedly sleeved with a driven bevel gear 22, and the driven bevel gear 22 is in meshed connection with the driving bevel gear 21.

When the rear shaft rod 18 rotates, the front shaft rod 19 is driven by the universal coupling 20, the front shaft rod 19 drives the driving bevel gear 21 to rotate, and as the driving bevel gear 21 is in meshed connection with the driven bevel gear 22, when the driving bevel gear 21 rotates, the driven bevel gear 22 is driven to rotate, and when the driven bevel gear 22 rotates, the driven bevel gear 16 is driven to rotate, so as to drive the driving flat gear 17 to rotate, and as the driving flat gear 17 is in meshed connection with the driven flat gear 15, after the driving flat gear 17 drives the driven flat gear 15 to rotate, the driven flat gear 15 drives the oxygen-free copper mounting seat 12 to rotate together, so that the sample body 11 is driven to rotate, and the sample body is matched to be processed.

The driving shaft 23 is rotationally arranged in the rear connecting sleeve 5, the driving shaft 23 is fixedly connected with the rear shaft rod 18, a plurality of connecting rods 24 are fixed on one side of the rear connecting sleeve 5, the same self-transmission motor 25 is fixed at the tail ends of the connecting rods 24, a driving coupler 26 is fixedly sleeved on the driving shaft of the self-transmission motor 25, and the driving coupler 26 is fixedly connected with the driving shaft 23.

When the self-transmission motor 25 rotates, the driving shaft coupling 26 is driven to rotate, so that the driving shaft 23 is driven to rotate, the oxygen-free copper mounting seat 12 and the sample body 11 are driven to rotate, and the self-transmission motor 25 also rotates together with the subsequent side connecting sleeve 5 in the working process, so that the sample body 11 can realize multi-dimensional rotation.

A mounting plate 27 is fixed on the side wall of the self-transmission motor 25, a rotation positioning sensor 28 is arranged on the mounting plate 27, an inclination positioning sensor 29 is arranged between the inclination motor 8 and the timing belt pulley group 6, and the rotation and inclination of the sample body 11 are controlled through the arranged rotation positioning sensor 28 and inclination positioning sensor 29.

The bottom feed liquor pipe 30 and the bottom drain pipe 31 run through and are provided with on the lateral wall of rear side connecting sleeve 5, and front side sleeve 2 is all run through to bottom feed liquor pipe 30 and bottom drain pipe 31, and the up end intercommunication of liquid nitrogen bucket 13 is provided with top feed liquor pipe 32 and top drain pipe 33, and bottom feed liquor pipe 30 and top feed liquor pipe 32 intercommunication are provided with the connecting pipe, and bottom drain pipe 31 and top drain pipe 33 also communicate and are provided with the connecting pipe.

The bottom liquid inlet pipe 30 and the top liquid inlet pipe 32 form a liquid inlet pipeline, the bottom liquid outlet pipe 31 and the top liquid outlet pipe 33 form a liquid outlet pipeline, the liquid inlet pipeline and the liquid outlet pipeline are cooled in a one-in-one-out circulating mode, and the liquid inlet pipeline and the liquid outlet pipeline are matched with the liquid nitrogen barrel 13 to finish cooling of the sample body 11.

The upper end face of the base 1 is fixed with an air cylinder 34, the tail end of the telescopic end of the air cylinder 34 is fixed with a connecting frame 35, one side of the connecting frame 35 is fixed with a moving rod 36, the tail end of the moving rod 36 is fixed with a baffle 37, when the telescopic end of the air cylinder 34 stretches, the connecting frame 35 is driven to move backwards, so that the moving rod 36 and the baffle 37 are driven to move backwards, the baffle 37 can not shade the sample body 11, when the telescopic end of the air cylinder 34 shortens, the connecting frame 35 is driven to move forwards, so that the moving rod 36 and the baffle 37 are driven to move forwards, the baffle 37 is positioned under the sample body 11, the sample body 11 is shielded by enabling the baffle 37 to move forwards and backwards, and the sample body 11 is matched with the sample body.

When the invention is used, the sample body 11 to be processed is fixed at the bottom of the oxygen-free copper mounting seat 12, then the inclination motor 8 drives the time gauge belt pulley group 6 to rotate left and right, the time gauge belt pulley group 6 drives the rear side connecting sleeve 5 to rotate through the connecting rod 7, the rear side connecting sleeve 5 drives the hollow main shaft 9 to rotate, the hollow main shaft 9 drives the L-shaped mounting seat 10 to rotate, so that the sample body 11 fixed on the L-shaped mounting seat 10 is driven to rotate left and right by a certain inclination angle, the sample body 11 is also in a rotating state on the L-shaped mounting seat 10, and the structural design of the whole operation frame is more coordinated, thereby facilitating the processing treatment of the sample body 11.

In the processing operation of the sample body 11, the bottom liquid inlet pipe 30 and the top liquid inlet pipe 32 form a liquid inlet pipe, the bottom liquid outlet pipe 31 and the top liquid outlet pipe 33 form a liquid outlet pipe, the liquid inlet pipe and the liquid outlet pipe are circularly cooled one by one, and the liquid inlet pipe and the liquid outlet pipe are matched with the liquid nitrogen barrel 13 to finish cooling of the sample body 11.

When the telescopic end of the air cylinder 34 stretches, the connecting frame 35 is driven to move backwards, so that the moving rod 36 and the baffle 37 are driven to move backwards, the baffle 37 can not shield the sample body 11, when the telescopic end of the air cylinder 34 shortens, the connecting frame 35 is driven to move forwards, so that the moving rod 36 and the baffle 37 are pushed to move forwards, the baffle 37 is located under the sample body 11, the sample body 11 is shielded, the baffle 37 can move forwards and backwards, the sample body 11 is shielded, and the processing operation is matched.

The present invention is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present invention.

Claims

1. The utility model provides a horizontal double-inclination sample operation frame, including base (1), its characterized in that, one side of base (1) up end is fixed with front side sleeve (2), one side of front side sleeve (2) is fixed with middle sleeve (3), one side of middle sleeve (3) rotates and is provided with rear side rotation sleeve (4), one side of rear side rotation sleeve (4) is fixed with rear side connecting sleeve (5), the opposite side of base (1) up end rotates and is provided with time rule belt pulley group (6), be fixed with a plurality of connective bars (7) between time rule belt pulley group (6) and rear side connecting sleeve (5), the up end of base (1) is fixed with inclination motor (8) that cooperation time rule belt pulley group (6) used, one side of rear side connecting sleeve (5) is fixed with hollow main shaft (9), one side of hollow main shaft (9) is fixed with L shape mount pad (10), rotate on L shape mount pad (10) and be provided with sample body (11);

an oxygen-free copper mounting seat (12) is rotatably arranged at the inner top of the L-shaped mounting seat (10), a liquid nitrogen barrel (13) is arranged in the oxygen-free copper mounting seat (12), magnetic fluid is arranged between the oxygen-free copper mounting seat (12) and the liquid nitrogen barrel (13), and a sample body (11) is fixed at the bottom of the oxygen-free copper mounting seat (12);

the utility model discloses a liquid nitrogen barrel, including rear side connecting sleeve (5), bottom feed liquor pipe (30) and bottom drain pipe (31) run through on the lateral wall of rear side connecting sleeve (5), bottom feed liquor pipe (30) and bottom drain pipe (31) all run through front side sleeve (2), and the up end intercommunication of liquid nitrogen barrel (13) is provided with top feed liquor pipe (32) and top drain pipe (33), and bottom feed liquor pipe (30) and top feed liquor pipe (32) intercommunication are provided with the connecting pipe, and bottom drain pipe (31) and top drain pipe (33) also communicate and are provided with the connecting pipe.

2. The horizontal double-dip-angle sample operation frame according to claim 1, wherein a driven flat gear (15) is fixedly sleeved on the outer side wall of the oxygen-free copper installation seat (12), a driven rotating rod (16) is rotatably arranged at the inner top of the L-shaped installation seat (10), a driving flat gear (17) is fixedly sleeved on the outer side wall of the driven rotating rod (16), and the driving flat gear (17) is in meshed connection with the driven flat gear (15).

3. The horizontal double-inclination-angle sample operation frame according to claim 2, wherein a rear shaft rod (18) and a front shaft rod (19) are rotatably arranged in the hollow main shaft (9), a universal coupler (20) is connected between the rear shaft rod (18) and the front shaft rod (19), a driving bevel gear (21) is fixedly sleeved on the outer side wall of the front shaft rod (19), a driven bevel gear (22) is fixedly sleeved on the outer side wall of the driven rotary rod (16), and the driven bevel gear (22) is in meshed connection with the driving bevel gear (21).

4. A horizontal double-dip-angle sample operation frame according to claim 3, characterized in that the rear side connecting sleeve (5) is rotatably provided with a driving shaft (23), the driving shaft (23) is fixedly connected with the rear side shaft rod (18), one side of the rear side connecting sleeve (5) is fixedly provided with a plurality of connecting rods (24), the tail ends of the plurality of connecting rods (24) are fixedly provided with the same self-transmission motor (25), a driving coupler (26) is fixedly sleeved on the driving shaft of the self-transmission motor (25), and the driving coupler (26) is fixedly connected with the driving shaft (23).

5. The horizontal double-inclination sample operation rack according to claim 4, wherein a mounting plate (27) is fixed on the side wall of the self-transmission motor (25), an autorotation positioning sensor (28) is arranged on the mounting plate (27), and an inclination positioning sensor (29) is arranged between the inclination motor (8) and the time-scale belt pulley group (6).

6. The horizontal double-inclination sample operation rack according to claim 1, wherein an air cylinder (34) is fixed on the upper end face of the base (1), a connecting frame (35) is fixed at the tail end of the telescopic end of the air cylinder (34), a movable rod (36) is fixed at one side of the connecting frame (35), and a baffle plate (37) is fixed at the tail end of the movable rod (36).