CN112440226A

CN112440226A - Quick telescopic gauge positioning mechanism and use method thereof

Info

Publication number: CN112440226A
Application number: CN202011266509.2A
Authority: CN
Inventors: 张文慧
Original assignee: Chery Automobile Co Ltd
Current assignee: Chery Automobile Co Ltd
Priority date: 2020-11-13
Filing date: 2020-11-13
Publication date: 2021-03-05

Abstract

The invention provides a quick telescopic gauge positioning mechanism and a use method thereof, wherein the positioning mechanism comprises a telescopic positioning guide seat, a telescopic positioning slide block, an operating handle and a positioning assembly; the telescopic positioning guide seat is provided with a guide hole and a transverse through hole; the telescopic positioning sliding block is arranged in the transverse through hole in a sliding manner along the horizontal direction, and is provided with a working surface and a non-working surface; the positioning assembly is arranged on the guide hole in a telescopic mode along the vertical direction and clamped on the telescopic positioning sliding block through the clamping assembly; the operating handle is arranged on one side of the telescopic positioning sliding block and can drive the telescopic positioning sliding block to slide left and right along the horizontal direction, so that the bottom surface of the positioning assembly can be switched between a working surface and a non-working surface of the telescopic positioning sliding block; the quick telescopic checking fixture positioning mechanism and the use method thereof provided by the invention can realize quick switching of the positioning assembly on the checking fixture between the working state and the non-working state, are convenient to operate and improve the use efficiency and the positioning accuracy.

Description

Quick telescopic gauge positioning mechanism and use method thereof

Technical Field

The invention belongs to the technical field of quick telescopic type checking fixture positioning mechanisms, and particularly relates to a quick telescopic type checking fixture positioning mechanism and a using method thereof.

Background

When the existing automobile parts are measured on the checking fixture, the positioning reference is often required to be switched between a working state and a non-working state (such as inner plate positioning and outer plate positioning of a door cover assembly, two sets of positioning references of fender parts and the like) to realize detection and comparison of part states under different positioning systems, so that the difference of the parts in a detection state and an assembly state is determined, and corresponding correction measures are made.

As shown in fig. 1, in the conventional switching positioning mechanism, an L-shaped groove 14 is generally formed in a positioning surface/positioning pin connecting rod sleeve, and an operating handle moves in the L-shaped groove to realize the extension and retraction of the positioning mechanism; after the part is placed on the checking fixture, the positioning surface is basically shielded by the part and is generally invisible in operation; the structure of the prior art, the manual pushing handle cannot accurately and quickly find the opening direction of the L-shaped groove when moving in the L-shaped groove, the operation is difficult, the efficiency is low, the positioning mechanism with fixed direction is required, the rotation can be carried out in the stretching process, and the positioning effect is influenced.

Based on the technical problems existing in the measurement of the parts on the checking fixture, no related solution is provided; there is therefore a pressing need to find effective solutions to the above problems.

Disclosure of Invention

The invention aims to provide a quick telescopic checking fixture positioning mechanism and a using method thereof aiming at overcoming the defects in the prior art, and aims to solve one of the problems of low measuring efficiency, inconvenient operation and inconvenient positioning of the existing parts on the checking fixture.

The invention provides a quick telescopic gauge positioning mechanism which comprises a telescopic positioning guide seat, a telescopic positioning sliding block, an operating handle and a positioning assembly, wherein the telescopic positioning guide seat is arranged on the telescopic positioning sliding block; the telescopic positioning guide seat is provided with a guide hole and a transverse through hole; the telescopic positioning sliding block is arranged in the transverse through hole in a sliding manner along the horizontal direction, and is provided with a working surface and a non-working surface; the positioning assembly is arranged on the guide hole in a telescopic mode along the vertical direction and clamped on the telescopic positioning sliding block through the clamping assembly; the operating handle is arranged on one side of the telescopic positioning sliding block and can drive the telescopic positioning sliding block to slide left and right along the horizontal direction, so that the bottom surface of the positioning assembly can be switched between the working surface and the non-working surface of the telescopic positioning sliding block.

Further, the positioning assembly comprises a positioning pin and a positioning block; the positioning pin is arranged in the guide hole in a telescopic way; the positioning block is fixedly arranged at the top of the positioning pin, and the top surface of the positioning block is a positioning surface.

Further, a step surface is arranged between the working surface and the non-working surface, and the step surface is an inclined surface; the telescopic positioning slide block slides along the horizontal direction, so that the bottom surface of the positioning pin slides to the non-working surface from the working surface through the step surface or the bottom surface of the positioning pin slides to the working surface from the non-working surface through the step surface.

Furthermore, a sliding groove is arranged in the telescopic positioning sliding block; the clamping assembly comprises a limiting connecting rod and a spring; a step is arranged in the guide hole; the spring is sleeved on the limiting connecting rod and is abutted against the step; the limiting connecting rod penetrates through the sliding groove to be in threaded connection with the bottom surface of the positioning pin; the spring is stressed in a natural state to enable the bottom surface of the positioning pin and the bottom cap of the limiting connecting rod to be clamped on the telescopic positioning sliding block; the telescopic positioning sliding block slides along the horizontal direction, so that the limiting connecting rod can horizontally move in the sliding groove.

Further, the sliding groove extends from the working surface to the non-working surface; the sliding grooves are respectively provided with a limiting part on the working surface and the non-working surface; when the positioning pin slides to the working surface, the limiting part in the working surface limits the positioning pin, so that the positioning pin is prevented from continuously sliding; when the locating pin slides to the non-working face, the limiting part in the non-working face limits the locating pin, and therefore the locating pin is prevented from continuously sliding.

Furthermore, one end of the operating handle is in threaded connection with the telescopic positioning sliding block.

Furthermore, the cross section of the telescopic positioning guide seat is quadrilateral; the inner wall of the guide hole is axially provided with a chamfered edge, the side surface of the positioning pin is axially provided with a chamfered groove, and the chamfered edge is matched with the chamfered groove, so that the rotation of the positioning pin in the telescopic process is avoided; or the inner wall of the guide hole is provided with a cutting groove along the axial direction, the side surface of the positioning pin is provided with a cutting edge along the axial direction, and the cutting edge is matched with the cutting groove, so that the rotation of the positioning pin in the telescopic process is avoided.

Further, when the positioning pin moves to the working surface, the positioning assembly is in a working locking state; when the locating pin moves to the non-working surface, the locating component is in a non-working locking state.

Correspondingly, the invention also provides a using method of the quick telescopic checking fixture positioning mechanism, which comprises the following steps:

when the operating handle is pushed to enable the telescopic positioning sliding block to move to the leftmost side, the bottom surface of the positioning assembly is located on the working surface of the telescopic positioning sliding block, and the positioning assembly is in a working locking state;

when the operating handle is pulled to move the telescopic positioning sliding block to the rightmost side, the bottom surface of the positioning assembly is positioned on the non-working surface of the telescopic positioning sliding block, and the positioning assembly is in a non-working locking state at the moment.

Further, the positioning assembly comprises a positioning pin and a positioning block; the positioning pin is arranged in the guide hole in a telescopic way; the positioning block is fixedly arranged at the top of the positioning pin, and the top surface of the positioning block is a positioning surface; an inclined plane is arranged between the working surface and the non-working surface; be equipped with the sliding tray in the flexible location slider, the sliding tray extends to the non-working face by the working face, thereby the locating pin switches on the working face and the non-working face of flexible location slider in the horizontal slip of sliding tray.

The quick telescopic checking fixture positioning mechanism and the use method thereof provided by the invention can realize quick switching of the working state and the non-working state of the positioning assembly on the checking fixture, are convenient to operate and improve the use efficiency and the positioning accuracy.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The invention will be further explained with reference to the drawings, in which:

FIG. 1 is a schematic view of a positioning mechanism of a quick telescopic inspection device in the prior art;

FIG. 2 is a perspective view of a positioning mechanism of a quick telescopic inspection tool of the present invention;

FIG. 3 is a front view of a positioning mechanism of a quick telescopic inspection tool of the present invention;

FIG. 4 is a cross-sectional view of a positioning mechanism of a quick telescopic gauge of the present invention;

FIG. 5 is an exploded view of a positioning mechanism of a quick telescopic inspection device according to the present invention.

In the figure: 1. a telescopic positioning guide seat; 11. a guide hole; 12. a step; 13. a transverse through hole; 14. an L-shaped groove; 2. a telescopic positioning slide block; 21. a working surface; 22. a step surface; 23. a non-working surface; 24. a sliding groove; 3. an operating handle; 4. positioning pins; 5. positioning blocks; 51. positioning the surface; 6. a limit connecting rod; 7. a spring.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 2 to 5, the invention provides a quick telescopic gauge positioning mechanism, which specifically comprises a telescopic positioning guide seat 1, a telescopic positioning slide block 2, an operating handle 3 and a positioning assembly; wherein, the telescopic positioning guide seat 1 is provided with a guide hole 11 and a transverse through hole 13; the telescopic positioning sliding block 2 is arranged in the transverse through hole 13 in a sliding manner along the horizontal direction, a working surface 21 and a non-working surface 23 are arranged on the telescopic positioning sliding block 2, and the working surface 21 and the non-working surface 23 are transited through a step surface 22; furthermore, the positioning component is telescopically arranged on the guide hole 11 along the vertical direction and clamped on the telescopic positioning slide block 2 through the clamping component, and the positioning component can move between the working surface 21 and the non-working surface 23; the operating handle 3 is arranged on one side of the telescopic positioning sliding block 2 and can drive the telescopic positioning sliding block 2 to slide left and right along the horizontal direction, so that the bottom surface of the positioning assembly can be switched between a working surface 21 and a non-working surface 23 of the telescopic positioning sliding block 2; specifically, the positioning assembly is in a locked state when on the work surface 21 and an unlocked state when on the non-work surface 23. When the existing part is measured on the checking fixture, the positioning reference is often required to be switched between a working state and a non-working state (such as inner plate positioning and outer plate positioning of a door cover assembly, two sets of positioning references of fender parts and the like), the detection and comparison of the part states under different positioning systems are realized, the difference of the part in a detection state and an assembly state is determined, and corresponding correction measures are made; the quick telescopic type gauge positioning mechanism provided by the invention can be used for simply, conveniently and quickly positioning parts, and is convenient to operate and high in efficiency.

Preferably, in combination with the above scheme, as shown in fig. 2 to 5, in this embodiment, the positioning assembly specifically includes a positioning pin 4 and a positioning block 5; the positioning pin 4 is telescopically arranged in the guide hole 11 and can move on the telescopic positioning slide block 2, so that the bottom surface of the positioning component can be switched between a working surface 21 and a non-working surface 23 of the telescopic positioning slide block 2; specifically, the positioning block 5 is fixedly disposed on the top of the positioning pin 4, and the top surface of the positioning block 5 is a positioning surface 51 for positioning the component.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, a step surface 22 is provided between the working surface 21 and the non-working surface 23 of the telescopic positioning slider 2, and the step surface 22 is an inclined surface, so that the positioning pin 4 can switch two positions by sliding the inclined surface; specifically, the telescopic positioning slider 2 slides in the horizontal direction, thereby sliding the bottom surface of the positioning pin 4 from the working surface 21 to the non-working surface 23 through the step surface 22 or sliding the bottom surface of the positioning pin 4 from the non-working surface 23 to the working surface 21 through the step surface 22.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, a sliding groove 24 is provided in the telescopic positioning sliding block 2; the clamping assembly comprises a limiting connecting rod 6 and a spring 7; a step 12 is arranged in the guide hole 11; the spring 7 is sleeved on the limit connecting rod 6 and is abutted against the step 12; the limiting connecting rod 6 penetrates through the sliding groove 24 and is in threaded connection with the bottom surface of the positioning pin 4; the spring 7 is stressed in a natural state to enable the bottom surface of the positioning pin 4 and the bottom cap of the limiting connecting rod 6 to be clamped on the telescopic positioning sliding block 2, the clamping is not absolute locking, and only the contact locking state is realized, so that the telescopic positioning sliding block can slide; further, in the sliding process of the telescopic positioning sliding block 2 along the horizontal direction, the limiting connecting rod 6 can horizontally move in the sliding groove 24, and therefore position switching is achieved.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, the sliding groove 24 extends from the working surface 21 to the non-working surface 23; the sliding groove 24 is provided with a limiting part on the working surface 21 and the non-working surface 23 respectively; the design is such that when the positioning pin 4 slides onto the working surface 21, the limiting part in the working surface 21 limits the positioning pin 4, so as to prevent the positioning pin 4 from continuously sliding; when the locating pin 4 slides to the non-working surface 23, the limiting part in the non-working surface 23 limits the locating pin 4, so that the locating pin 4 is prevented from continuously sliding.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, one end of the operating handle 3 is in threaded connection with the telescopic positioning slider 2; furthermore, the positioning pin 4 and the telescopic positioning guide seat 2 are in a chamfered cylindrical structure, and are matched with each other by H7/g 6.

Preferably, in combination with the above solutions, as shown in fig. 2 to 5, the cross section of the telescopic positioning guide base 1 is quadrilateral; the inner wall of the guide hole 11 is provided with a chamfered edge along the axial direction, the side surface of the positioning pin 4 is provided with a chamfered groove along the axial direction, and the chamfered edge is matched with the chamfered groove, so that the positioning pin 4 is prevented from rotating in the telescopic process; or, the inner wall of the guide hole 11 is provided with a cutting groove along the axial direction, the side surface of the positioning pin 4 is provided with a cutting edge along the axial direction, and the cutting edge is matched with the cutting groove, so that the positioning pin 4 is prevented from rotating in the telescopic process.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, when the positioning pin 4 is moved onto the working surface 21, the positioning assembly is in the working locking state; when the positioning pin 4 moves to the non-working surface 23, the positioning component is in a non-working locking state; in the positioning mechanism of the quick telescopic checking fixture, the spring is always in a stressed state, so that the bottom of the positioning surface/positioning pin is always in contact with the telescopic positioning slide block, and the stretching of the positioning surface/positioning pin is realized through the step surface of the telescopic positioning slide block; the specific two states are as follows:

firstly, when the positioning mechanism needs to be in a working state: the operating handle is pushed to enable the telescopic positioning sliding block to move rightwards, the bottom of the positioning surface/positioning pin moves along with the step surface of the telescopic positioning sliding block through the compression of a spring, and the positioning surface/positioning pin slides upwards in the guide hole of the telescopic positioning guide seat; when the bottoms of the positioning surfaces/positioning pins are all contacted with the high surface of the step surface of the telescopic positioning slide block, the positioning surfaces/positioning pins are in a working state; at the moment, the limiting connecting rod is contacted with the end part of the left side of the sliding groove in the middle of the telescopic positioning sliding block, the telescopic positioning sliding block is limited from continuously moving, and the working state is locked;

secondly, when the positioning mechanism needs to be retreated to a non-working state: the operating handle is pulled to enable the telescopic positioning sliding block to move leftwards, the bottom of the positioning surface/positioning pin moves along with the step surface of the telescopic positioning sliding block through the tension of a spring, and the positioning surface/positioning pin slides downwards in the guide hole of the telescopic positioning guide seat; when the bottom of the positioning surface/positioning pin is completely contacted with the lower surface of the step surface of the telescopic positioning slide block, the positioning surface/positioning pin is in a non-working state; at the moment, the limiting connecting rod is contacted with the end part of the right side of the sliding groove in the middle of the telescopic positioning sliding block, the telescopic positioning sliding block is limited from continuously moving, and the telescopic positioning sliding block is locked in a non-working state.

Correspondingly, in combination with the above scheme, as shown in fig. 2 to 5, the invention further provides a use method of the quick telescopic gauge positioning mechanism, which includes the following steps:

when the operating handle 3 is pushed to move the telescopic positioning sliding block 2 to the leftmost side, the bottom surface of the positioning assembly is positioned on the working surface 21 of the telescopic positioning sliding block 2, and the positioning assembly is in a working locking state at the moment;

when the operating handle 3 is pulled to move the telescopic positioning sliding block 2 to the rightmost side, the bottom surface of the positioning assembly is positioned on the non-working surface 23 of the telescopic positioning sliding block 2, and the positioning assembly is in a non-working locking state at the moment.

Preferably, in combination with the above solution, as shown in fig. 2 to 5, the positioning assembly includes a positioning pin 4 and a positioning block 5; the positioning pin 4 is arranged in the guide hole 11 in a telescopic manner; the positioning block 5 is fixedly arranged at the top of the positioning pin 4, and the top surface of the positioning block 5 is a positioning surface 51; an inclined plane is arranged between the working surface 21 and the non-working surface 23; a sliding groove 24 is formed in the telescopic positioning slide block 2, the sliding groove 24 extends from the working surface 21 to the non-working surface 23, and the positioning pin 4 slides left and right in the sliding groove 24 so as to be switched between the working surface 21 and the non-working surface 23 of the telescopic positioning slide block 2.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Those skilled in the art can make numerous possible variations and modifications to the described embodiments, or modify equivalent embodiments, without departing from the scope of the invention. Therefore, any modification, equivalent change and modification made to the above embodiments according to the technology of the present invention are within the protection scope of the present invention, unless the content of the technical solution of the present invention is departed from.

Claims

1. A quick telescopic gauge positioning mechanism is characterized by comprising a telescopic positioning guide seat (1), a telescopic positioning sliding block (2), an operating handle (3) and a positioning assembly; the telescopic positioning guide seat (1) is provided with a guide hole (11) and a transverse through hole (13); the telescopic positioning sliding block (2) is arranged in the transverse through hole (13) in a sliding manner along the horizontal direction, and a working surface (21) and a non-working surface (23) are arranged on the telescopic positioning sliding block (2); the positioning assembly is arranged on the guide hole (11) in a telescopic mode along the vertical direction and clamped on the telescopic positioning sliding block (2) through a clamping assembly; operating handle (3) set up in flexible location slider (2) one side, and can drive flexible location slider (2) are followed the horizontal direction horizontal slip, thereby make locating component's bottom surface can switch on working face (21) and the non-working face (23) of flexible location slider (2).

2. The quick telescopic fixture positioning mechanism according to claim 1, wherein the positioning assembly comprises a positioning pin (4) and a positioning block (5); the positioning pin (4) is arranged in the guide hole (11) in a telescopic manner; the positioning block (5) is fixedly arranged at the top of the positioning pin (4), and the top surface of the positioning block (5) is a positioning surface (51).

3. The quick telescopic checking fixture positioning mechanism according to claim 2, characterized in that a step surface (22) is arranged between the working surface (21) and the non-working surface (23), and the step surface (22) is an inclined surface; the telescopic positioning sliding block (2) slides along the horizontal direction, so that the bottom surface of the positioning pin (4) slides to the non-working surface (23) from the working surface (21) through the step surface (22) or the bottom surface of the positioning pin (4) slides to the working surface (21) from the non-working surface (23) through the step surface (22).

4. The quick telescopic checking fixture positioning mechanism according to claim 3, characterized in that a sliding groove (24) is formed in the telescopic positioning sliding block (2); the clamping assembly comprises a limiting connecting rod (6) and a spring (7); a step (12) is arranged in the guide hole (11); the spring (7) is sleeved on the limiting connecting rod (6) and is abutted against the step (12); the limiting connecting rod (6) penetrates through the sliding groove (24) and is in threaded connection with the bottom surface of the positioning pin (4); the spring (7) is stressed in a natural state to enable the bottom surface of the positioning pin (4) and the bottom cap of the limiting connecting rod (6) to be clamped on the telescopic positioning sliding block (2); in the sliding process of the telescopic positioning sliding block (2) along the horizontal direction, the limiting connecting rod (6) can horizontally move in the sliding groove (24).

5. The quick telescoping gauge positioning mechanism of claim 4, wherein the slide channel (24) extends from the working surface (21) to the non-working surface (23); the sliding groove (24) is positioned on the working surface (21) and the non-working surface (23) and is respectively provided with a limiting part; when the positioning pin (4) slides onto the working surface (21), the limiting part in the working surface (21) limits the positioning pin (4), so that the positioning pin (4) is prevented from continuously sliding; when the positioning pin (4) slides to the non-working surface (23), the limiting part in the non-working surface (23) limits the positioning pin (4), so that the positioning pin (4) is prevented from continuously sliding.

6. The quick telescopic checking fixture positioning mechanism according to claim 1, wherein one end of the operating handle (3) is in threaded connection with the telescopic positioning slider (2).

7. The quick telescopic checking fixture positioning mechanism according to claim 2, wherein the cross section of the telescopic positioning guide seat (1) is quadrilateral; the inner wall of the guide hole (11) is provided with a chamfered edge along the axial direction, a chamfered groove is formed in the side face of the positioning pin (4) along the axial direction, and the chamfered edge is matched with the chamfered groove, so that the positioning pin (4) is prevented from rotating in the telescopic process; or the inner wall of the guide hole (11) is provided with a cutting groove along the axial direction, the side surface of the positioning pin (4) is provided with a cutting edge along the axial direction, and the cutting edge is matched with the cutting groove, so that the positioning pin (4) is prevented from rotating in the telescopic process.

8. The quick telescopic fixture positioning mechanism according to any one of claims 2 to 7, wherein the positioning assembly is in an operative locking state when the positioning pin (4) is moved onto the working surface (21); when the positioning pin (4) moves to the non-working surface (23), the positioning assembly is in a non-working locking state.

9. Use of a quick telescopic fixture positioning mechanism according to any one of claims 1 to 8, characterized in that it comprises the following process:

when the operating handle (3) is pushed to enable the telescopic positioning sliding block (2) to move to the leftmost side, the bottom surface of the positioning assembly is positioned on the working surface (21) of the telescopic positioning sliding block (2), and the positioning assembly is in a working locking state at the moment;

when the telescopic positioning sliding block (2) is moved to the rightmost side by pulling the operating handle (3), the bottom surface of the positioning assembly is positioned on a non-working surface (23) of the telescopic positioning sliding block (2), and the positioning assembly is in a non-working locking state at the moment.

10. The use method of the quick telescopic fixture positioning mechanism according to claim 9, wherein the positioning assembly comprises a positioning pin (4) and a positioning block (5); the positioning pin (4) is arranged in the guide hole (11) in a telescopic manner; the positioning block (5) is fixedly arranged at the top of the positioning pin (4), and the top surface of the positioning block (5) is a positioning surface (51); an inclined plane is arranged between the working surface (21) and the non-working surface (23); be equipped with sliding tray (24) in flexible location slider (2), sliding tray (24) by working face (21) extend to non-working face (23), thereby locating pin (4) are in sliding tray (24) interior side-to-side slip switches on working face (21) and the non-working face (23) of flexible location slider (2).