CN218964682U - Production clamping equipment of high performance sensor - Google Patents

Abstract

The utility model belongs to the technical field of clamping equipment, in particular to production clamping equipment of a high-performance sensor, which comprises a rack, an auxiliary jacking assembly, a solid shaft clamping assembly and a hollow shaft clamping assembly, wherein the auxiliary jacking assembly is arranged on the rack; the auxiliary jacking component comprises a jacking seat, and a second V-shaped groove is formed in the top surface of the jacking seat; the solid shaft clamping assembly comprises a first vertical plate and a first movable disc; the hollow shaft clamping assembly comprises a second vertical plate, a second movable plate, a third vertical plate, a third movable plate, a connecting plate and an extrusion block; the clamping equipment is provided with the solid shaft clamping assembly and the hollow shaft clamping assembly, can clamp the solid and hollow pressure sensor ring shaft assemblies, has strong universality, and also ensures the structural integrity of parts on the premise of ensuring the clamping stability of the parts; the jacking seat with the V-shaped grooves is used for supporting the parts, so that the stability of the parts during processing can be guaranteed, and the clamping device is suitable for clamping parts with different diameters and wide in application range.

Description

Production clamping equipment of high performance sensor

Technical Field

The utility model belongs to the technical field of clamping equipment, and particularly relates to production clamping equipment of a high-performance sensor.

Background

The pressure sensor is a device or apparatus capable of sensing pressure signals and converting the pressure signals into usable output electric signals according to a certain rule, and is generally composed of a pressure sensitive element and a signal processing unit, and can be divided into a gauge pressure sensor, a differential pressure sensor and an absolute pressure sensor according to different test pressure types.

The ring shaft is an important part of the pressure sensor, and when the ring shaft is processed, clamping equipment is required to be used for fixing; at present, the Chinese patent application number 201920805858.3 discloses a clamping device for processing the outer end face of a ring shaft of a pressure sensor, which comprises a side clamping assembly, a driving assembly, a bottom clamping assembly and a fixing frame, wherein the side clamping assembly comprises a clamping rod, a top clamping wheel and a bottom adjusting wheel; through drive assembly's effect, top centre gripping wheel and bottom sprag wheel interact, carry out the centre gripping, convenient to use, the practicality is strong.

However, the conventional clamping device can only clamp a single type of pressure sensor ring shaft component, namely a solid ring shaft component, and for hollow components, such as a ceramic capacitive pressure transmitter, the outer ring shaft of the clamping device is of a hollow structure, so that the problem of deformation and damage of parts easily occurs when the clamping device is used for clamping by using a clamping rod.

Disclosure of Invention

In order to solve the problems in the prior art, the utility model provides the production clamping equipment of the high-performance sensor, which has the characteristics of convenience in use and wide application range.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the production clamping device of the high-performance sensor comprises a rack, and further comprises an auxiliary jacking component, a solid shaft clamping component and a hollow shaft clamping component;

the two groups of auxiliary jacking components are symmetrically arranged on the top surface of the frame and used for jacking sensor parts to be processed, the auxiliary jacking components comprise jacking seats, the jacking seats have the freedom of movement in the vertical direction, and a second V-shaped groove is formed in the top surface of the jacking seats;

the two groups of solid shaft clamping assemblies are arranged on the top surface of the frame and symmetrically distributed relative to the auxiliary jacking assembly, the solid shaft clamping assemblies comprise a first vertical plate and a first movable plate, the first vertical plate is fixed on the top surface of the frame, the first movable plate is positioned on one side of the first vertical plate and has a horizontal movement degree of freedom, an auxiliary supporting plate is fixed on the first movable plate, and a first V-shaped groove is formed in the top surface of the auxiliary supporting plate;

the hollow shaft clamping assembly comprises a second vertical plate, a second movable plate, a third vertical plate, a third movable plate, a connecting disc and an extrusion block, wherein the second vertical plate and the third vertical plate are installed on the top surface of the frame and are symmetrically distributed relative to the auxiliary jacking assembly, the second movable plate is located on one side of the second vertical plate and has the moving freedom degree of the horizontal direction, the third movable plate is located on one side of the third vertical plate and has the moving freedom degree of the horizontal direction, a limiting rod is fixed on the third movable plate, the connecting disc is located on one side of the second movable plate, a plurality of groups of external expansion fixing mechanisms distributed at equal intervals along the circumferential direction are connected between the connecting disc and the second movable plate, each external expansion fixing mechanism comprises an extrusion block, a first turning rod and a second turning rod, one end of each first turning rod is hinged to the extrusion block, the other end of each second turning rod is hinged to the second movable plate, and one end of each second turning rod is hinged to the extrusion block, and the other end of each second turning rod is hinged to the connecting disc.

As a preferable technical scheme, the utility model further comprises a first horizontal cylinder, a second horizontal cylinder, a third horizontal cylinder and a vertical cylinder, wherein the first horizontal cylinder is arranged on the first vertical plate, and a piston rod of the first horizontal cylinder penetrates through the first vertical plate and is fixedly connected with the first movable disc; the second horizontal air cylinder is arranged on the second vertical plate, and a piston rod of the second horizontal air cylinder penetrates through the second vertical plate and is fixedly connected with the second movable disc; the third horizontal cylinder is arranged on the third vertical plate, and a piston rod of the third horizontal cylinder penetrates through the third vertical plate and is fixedly connected with the third movable disc; the vertical cylinder is arranged on the top surface of the frame, and a piston rod of the vertical cylinder is fixedly connected with the jacking seat.

As a preferable technical scheme of the utility model, a first guide rod penetrating through the first vertical plate is also fixed on the first movable plate; a second guide rod penetrating through the second vertical plate is fixed on the second movable plate; and a third guide rod penetrating through the third vertical plate is fixed on the third movable plate.

As an optimal technical scheme of the utility model, a telescopic rod is connected between the connecting disc and the second movable disc.

As an optimal technical scheme of the utility model, the telescopic rod is sleeved with a telescopic spring arranged between the connecting disc and the second movable disc.

Compared with the prior art, the utility model has the beneficial effects that: the clamping equipment is provided with the solid shaft clamping assembly and the hollow shaft clamping assembly, can clamp the solid and hollow pressure sensor ring shaft assemblies, has strong universality, and also ensures the structural integrity of parts on the premise of ensuring the clamping stability of the parts; the jacking seat with the V-shaped grooves is used for supporting the parts, so that the stability of the parts during processing can be guaranteed, and the clamping device is suitable for clamping parts with different diameters and wide in application range.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of an axial structure of an auxiliary jacking assembly according to the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the utility model at A in FIG. 1;

in the figure: 1. a frame; 2. an auxiliary jacking assembly; 3. a solid shaft clamping assembly; 4. a first vertical plate; 5. a first movable disc; 6. an auxiliary supporting plate; 7. a first V-shaped groove; 8. a first horizontal cylinder; 9. a first guide rod; 10. a hollow shaft clamping assembly; 11. a second vertical plate; 12. a second movable disk; 13. a second horizontal cylinder; 14. a second guide rod; 15. a third vertical plate; 16. a third movable disk; 17. a third horizontal cylinder; 18. a limit rod; 19. a guide rod III; 20. a vertical cylinder; 21. a jacking seat; 22. a second V-shaped groove; 23. a connecting disc; 24. extruding blocks; 25. a first turnover rod; 26. a second turning rod; 27. a telescopic rod; 28. and a telescopic spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, the present utility model provides the following technical solutions: the production clamping device of the high-performance sensor comprises a frame 1, and further comprises an auxiliary jacking assembly 2, a solid shaft clamping assembly 3 and a hollow shaft clamping assembly 10;

in the embodiment, as shown in fig. 1 and fig. 2, two sets of auxiliary jacking components 2 are symmetrically installed on the top surface of a frame 1 for jacking up sensor components to be processed, the auxiliary jacking components 2 comprise a jacking seat 21, the jacking seat 21 has a vertical movement degree of freedom, and a second V-shaped groove 22 is formed in the top surface of the jacking seat 21, so that when in use, the components to be processed are placed in the second V-shaped groove 22 of the jacking seat 21, the components are supported by the jacking seat 21, and meanwhile, the structure of the second V-shaped groove 22 is suitable for supporting components with different diameters, and the application range is wide;

in the embodiment shown in fig. 1, two groups of solid shaft clamping assemblies 3 are mounted on the top surface of a frame 1 and distributed symmetrically about an auxiliary jacking assembly 2, the solid shaft clamping assemblies 3 comprise a first vertical plate 4 and a first movable plate 5, the first vertical plate 4 is fixed on the top surface of the frame 1, the first movable plate 5 is positioned on one side of the first vertical plate 4 and has a horizontal movement degree of freedom, an auxiliary supporting plate 6 is fixed on the first movable plate 5, a first V-shaped groove 7 is formed in the top surface of the auxiliary supporting plate 6, the first movable plates 5 on two sides are started to move, solid parts can be clamped through the first movable plate 5, and the stability of the parts is ensured;

the hollow shaft clamping assembly 10 comprises a second vertical plate 11, a second movable plate 12, a third vertical plate 15, a third movable plate 16, a connecting disc 23 and a squeezing block 24, wherein the second vertical plate 11 and the third vertical plate 15 are installed on the top surface of the frame 1 and symmetrically distributed relative to the auxiliary jacking assembly 2, the second movable plate 12 is positioned on one side of the second vertical plate 11 and has a horizontal movement degree of freedom, the third movable plate 16 is positioned on one side of the third movable plate 15 and has a horizontal movement degree of freedom, a limiting rod 18 is fixed on the third movable plate 16, the connecting disc 23 is positioned on one side of the second movable plate 12, a plurality of groups of outward expansion fixing mechanisms distributed along the circumferential direction at equal intervals are connected between the connecting disc 23 and the second movable plate 12, the outward expansion fixing mechanisms comprise a squeezing block 24, a first turning rod 25 and a second turning rod 26, one end of the first turning rod 25 is hinged with the squeezing block 24, the other end of the second movable plate 12 is hinged with the second movable plate 12, one end of the second turning rod 26 is hinged with the squeezing block 24, the other end of the second turning rod 26 is hinged with the first end of the squeezing block 23, the other end of the first turning rod is hinged with the second movable plate 23, the second turning rod 23 is started, the second movable plate 12 is pushed by the second turning rod 12 and the second movable plate 23 is pushed by the second movable plate 23 to move along the circumferential direction of the hollow part 18, and the hollow part is pushed by the second movable plate 23 is pushed by the inner side of the hollow part 23, and the hollow part is opposite to the hollow part 23, and the hollow part is pushed by the hollow part and the hollow part is opposite to the corresponding to the hollow movable plate 23.

As shown in fig. 1, as an alternative embodiment, the device further comprises a first horizontal cylinder 8, a second horizontal cylinder 13, a third horizontal cylinder 17 and a vertical cylinder 20, wherein the first horizontal cylinder 8 is installed on the first vertical plate 4, a piston rod of the first horizontal cylinder 8 penetrates through the first vertical plate 4 and is fixedly connected with the first movable plate 5, and the first horizontal cylinder 8 provides power for moving the first movable plate 5 along the horizontal direction; the second horizontal cylinder 13 is arranged on the second vertical plate 11, a piston rod of the second horizontal cylinder 13 penetrates through the second vertical plate 11 and is fixedly connected with the second movable disc 12, and the second horizontal cylinder 13 provides power for the second movable disc 12 to move along the horizontal direction; the third horizontal cylinder 17 is arranged on the third vertical plate 15, a piston rod of the third horizontal cylinder 17 penetrates through the third vertical plate 15 and is fixedly connected with the third movable disc 16, and the third horizontal cylinder 17 provides power for the third movable disc 16 to move along the horizontal direction; the vertical cylinder 20 is installed on the top surface of the frame 1, and a piston rod of the vertical cylinder 20 is fixedly connected with the jacking seat 21, and the vertical cylinder 20 provides power for moving the jacking seat 21 along the vertical direction.

As an alternative embodiment, as shown in fig. 1, a first guide rod 9 that penetrates through the first vertical plate 4 is also fixed on the first movable disk 5 in this embodiment; a second guide rod 14 penetrating through the second vertical plate 11 is fixed on the second movable plate 12; the third guide rod 19 penetrating through the third vertical plate 15 is fixed on the third movable plate 16, so that stability of the first movable plate 5, the second movable plate 12 and the third movable plate 16 is improved.

As shown in fig. 1 and fig. 3, in this embodiment, a telescopic rod 27 is connected between the connecting disc 23 and the second movable disc 12, so as to avoid the connecting disc 23 from shifting in the vertical direction due to the influence of gravity, where the telescopic rod 27 is a telescopic structure formed by sleeving two sections of hollow cylinder members.

As shown in fig. 1 and fig. 3, in this embodiment, a telescopic spring 28 between the connecting disc 23 and the second movable disc 12 is sleeved on the telescopic rod 27, and under the elastic force of the telescopic spring 28, the extrusion blocks 24 are located at positions close to each other in the initial state, so that the extrusion blocks 24 can be inserted into hollow parts.

The working principle and the using flow of the utility model are as follows: when the interlayer equipment is used, the parts to be processed are placed in the second V-shaped groove 22 of the jacking seat 21, the parts are supported by the jacking seat 21, and meanwhile, the structure of the second V-shaped groove 22 is suitable for supporting parts with different diameters, so that the application range is wide;

the first movable disc 5 on the two sides is started to move, and solid parts can be clamped through the first movable disc 5, so that the stability of the parts is ensured;

the second movable disc 12 and the third movable disc 16 on the two sides are started to move, the limiting rod 18 and the connecting disc 23 are inserted into hollow parts, when the limiting rod 18 pushes the connecting disc 23 to move, the first overturning rod 25 and the second overturning rod 26 overturn and push the extrusion blocks 24 to move outwards, and the hollow parts are extruded from the inner side by utilizing a plurality of groups of extrusion blocks 24 which are distributed at equal intervals along the circumferential direction, so that the stability of the hollow parts is ensured;

the clamping equipment is provided with the solid shaft clamping assembly 3 and the hollow shaft clamping assembly 10, can clamp solid and hollow pressure sensor ring shaft assemblies, has strong universality, and also ensures the structural integrity of parts on the premise of ensuring the clamping stability of the parts; the jacking seat 21 with the second V-shaped groove 22 is used for supporting the parts, so that the stability of the parts during processing can be ensured, and the clamping device is suitable for clamping parts with different diameters and has a wide application range.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. Production clamping equipment of high performance sensor, including frame (1), its characterized in that: the production clamping device of the high-performance sensor further comprises an auxiliary jacking assembly (2), a solid shaft clamping assembly (3) and a hollow shaft clamping assembly (10);

the two groups of auxiliary jacking components (2) are symmetrically arranged on the top surface of the frame (1) and used for jacking sensor parts to be processed, the auxiliary jacking components (2) comprise jacking seats (21), the jacking seats (21) have the freedom degree of movement in the vertical direction, and a second V-shaped groove (22) is formed in the top surface of the jacking seats (21);

the two groups of solid shaft clamping assemblies (3) are arranged on the top surface of the frame (1) and are symmetrically distributed relative to the auxiliary jacking assemblies (2), the solid shaft clamping assemblies (3) comprise a first vertical plate (4) and a first movable disc (5), the first vertical plate (4) is fixed on the top surface of the frame (1), the first movable disc (5) is positioned on one side of the first vertical plate (4) and has the freedom of movement in the horizontal direction, an auxiliary supporting plate (6) is fixed on the first movable disc (5), and a first V-shaped groove (7) is formed in the top surface of the auxiliary supporting plate (6);

the hollow shaft clamping assembly (10) comprises a second vertical plate (11), a second movable plate (12), a third vertical plate (15), a third movable plate (16), a connecting plate (23) and an extrusion block (24), the second vertical plate (11) and the third vertical plate (15) are arranged on the top surface of the frame (1) and are distributed symmetrically relative to the auxiliary jacking component (2), the second movable disc (12) is positioned at one side of the second vertical plate (11) and has the freedom of movement in the horizontal direction, the third movable disc (16) is positioned at one side of the third vertical plate (15) and has the freedom of movement in the horizontal direction, and a limiting rod (18) is fixed on the third movable disc (16), the connecting disc (23) is positioned at one side of the second movable disc (12), a plurality of groups of expanding fixing mechanisms which are distributed at equal intervals along the circumferential direction are connected between the connecting disc (23) and the second movable disc (12), the external expansion fixing mechanism comprises an extrusion block (24), a first turnover rod (25) and a second turnover rod (26), one end of the first turnover rod (25) is hinged with the extrusion block (24), the other end is hinged with the second movable disc (12), one end of the second overturning rod (26) is hinged with the extrusion block (24), and the other end of the second overturning rod is hinged with the connecting disc (23).

2. The production gripping apparatus of a high performance sensor of claim 1, wherein: the device further comprises a first horizontal air cylinder (8), a second horizontal air cylinder (13), a third horizontal air cylinder (17) and a vertical air cylinder (20), wherein the first horizontal air cylinder (8) is arranged on the first vertical plate (4), and a piston rod of the first horizontal air cylinder (8) penetrates through the first vertical plate (4) and is fixedly connected with the first movable disc (5); the second horizontal air cylinder (13) is arranged on the second vertical plate (11), and a piston rod of the second horizontal air cylinder (13) penetrates through the second vertical plate (11) and is fixedly connected with the second movable disc (12); the third horizontal air cylinder (17) is arranged on the third vertical plate (15), and a piston rod of the third horizontal air cylinder (17) penetrates through the third vertical plate (15) and is fixedly connected with the third movable disc (16); the vertical air cylinder (20) is arranged on the top surface of the frame (1), and a piston rod of the vertical air cylinder (20) is fixedly connected with the jacking seat (21).

3. The production gripping apparatus of a high performance sensor of claim 1, wherein: a first guide rod (9) penetrating through the first vertical plate (4) is also fixed on the first movable plate (5); a second guide rod (14) penetrating through the second vertical plate (11) is fixed on the second movable plate (12); and a third guide rod (19) penetrating through the third vertical plate (15) is fixed on the third movable plate (16).

4. The production gripping apparatus of a high performance sensor of claim 1, wherein: a telescopic rod (27) is connected between the connecting disc (23) and the second movable disc (12).

5. The high performance sensor production gripping apparatus of claim 4, wherein: the telescopic rod (27) is sleeved with a telescopic spring (28) which is arranged between the connecting disc (23) and the second movable disc (12).

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