CN210879347U - Locking clamp and aiming inspection device - Google Patents

Abstract

The utility model relates to an equipment field for examining aiming device, concretely relates to locking clamp and aim verifying attachment. The locking clamp comprises a mounting base body, a hinged frame, a positioning tooth clamp, a clamping arm and an adjusting assembly, wherein the adjusting assembly comprises a supporting block and a fastener, the positioning tooth clamp and the hinged frame are fixed on the mounting base body, the supporting block is adjustably mounted on the mounting base body in position, the clamping arm is hinged to the hinged frame, the positioning tooth clamp, the hinged frame and the supporting block are distributed along a first direction, the hinged axis of the clamping arm and the hinged frame is along a second direction, and the first direction is perpendicular to the second direction; the clamping arm comprises a limiting pressing clamping section and a locking section, the limiting pressing clamping section is positioned above the positioning tooth clamp, and a clamping position is formed between the limiting pressing clamping section and the positioning tooth clamp; the fastener is adjustably installed on the locking section or the fastener is adjustably installed on the supporting block, and the adjusting direction of the fastener is along the interval direction of the locking section and the supporting block, so that the locking and unlocking of the locking clamp can be realized quickly, and the locking accuracy of the sighting telescope can be improved.

Description

Locking clamp and aiming inspection device

Technical Field

The utility model relates to an equipment field for examining aiming device specifically is a locking clamp and aim verifying attachment.

Background

The sighting telescope needs to be subjected to sighting test in the production process, and the sighting telescope needs to be accurately fixed at a set position of the sighting testing device when the sighting telescope is subjected to the sighting test.

If the fixed position of gun sight is accurate, generally speaking, the fixed locking and unlocking operation process of the gun sight will be more complicated, the fixed locking and unlocking process of the gun sight will be longer time-consuming, and the fixed locking and unlocking process is not beneficial to improving the production efficiency.

Disclosure of Invention

One of the objectives of the present invention is to provide a locking clamp which is easy and fast to lock and unlock and has accurate locking position.

In order to achieve the above object, the locking clamp provided by the utility model comprises a mounting base body, a hinge frame, a positioning tooth clamp, a clamping arm and an adjusting component, wherein the adjusting component comprises a supporting block and a fastener, the positioning tooth clamp and the hinge frame are both fixed on the mounting base body, the supporting block is adjustably mounted on the mounting base body in position, the clamping arm is hinged on the hinge frame, the positioning tooth clamp, the hinge frame and the supporting block are distributed along a first direction, the hinging axis of the clamping arm and the hinge frame is along a second direction, and the first direction is perpendicular to the second direction; the clamping arm comprises a limiting pressing clamping section and a locking section, the limiting pressing clamping section is positioned above the positioning tooth clamp, and a clamping position is formed between the limiting pressing clamping section and the positioning tooth clamp; the fastener is adjustably mounted on the locking section or the fastener is adjustably mounted on the support block, and the adjustment direction of the fastener is along the spacing direction of the locking section and the support block.

Therefore, the locking clamp is locked and unlocked by adopting the adjusting component consisting of the supporting block and the fastener through the structural design of the locking clamp, so that in the operation process of locking and unlocking the locking clamp, on one hand, the stroke of the fastener needing to be screwed is shorter due to the arrangement of the supporting block, and the locking and unlocking of the locking clamp can be realized quickly; on the other hand, because the setting of fastener, also make when locking clamp, the locking section only receives the butt power of fastener regulation direction, under the effect of fastener regulation direction butt power, the arm lock only can be rotatory for articulated frame, the arm lock is difficult to appear deflecting in the front and back both sides of first direction, be difficult to appear deflecting in the front and back both sides of second direction, also be difficult to appear squinting in first direction and second direction, be favorable to promoting the accuracy of gun sight locking.

Preferably, the fastener is adjustably mounted on the supporting block, and the gravity center of the clamping arm is positioned on one side of the hinge axis of the clamping arm and the hinge frame, which is close to the locking section; the fastener is adjustably installed on the locking section, and the center of gravity of the clamping arm and fastener combination is located on one side, close to the locking section, of the clamping arm hinge axis.

It is thus clear that the arm lock keeps in the state of changeing away from location tooth clamp top when locking clamp is in the unblock state like this, all need not to operate the arm lock when packing into and taking out the gun sight like this, is favorable to reducing the centre gripping installation degree of difficulty of gun sight.

In another preferred embodiment, the fastening element is an adjusting screw, which is screwed to the locking section or to the bearing block.

In a further preferred embodiment, the clamping arms have downwardly extending projections, and the hinge bracket includes two legs extending in the second direction, the projections being located between the legs.

It is from top to bottom visible, when the arm lock received the locking force that adjusting part applied to like this, the arm lock is in the atress of the both sides of second direction and warp fairly, is difficult to appear the condition of arm lock skew and skew, is favorable to promoting the accuracy of gun sight locking.

In a further preferred embodiment, the bearing block has a detent on its top face, which detent is located in the adjustment path of the fastener.

Therefore, when the locking clamp locks the sighting telescope, the fastener is abutted to the positioning groove, the matching position of the fastener and the supporting block is stable, the supporting block is prevented from deviating from the position relative to the fastener, and the supporting block is prevented from being separated from the abutment with the fastener.

In a further preferred embodiment, the bearing block is hinged to the mounting base, the bearing block is supported on the top mounting surface of the mounting base, and the hinge axis of the bearing block and the mounting base is normal to the mounting surface of the mounting base.

In another preferred scheme, the positioning tooth clamp is provided with two tooth sockets, and the two tooth sockets are distributed along the second direction; and/or the two limiting pressing and clamping sections are distributed along the second direction.

From top to bottom, it is even to be favorable to the scope to bear the force on both sides around the second direction like this further, guarantees that the scope clamp holds fixedly accurately.

The second purpose of the utility model is to provide a locking clamp which is simple, convenient, quick and accurate in locking and unlocking operation and locking fixed position.

In order to realize the above purpose, the utility model provides an aim verifying attachment is including examining test table, fixing collimator and the aforementioned locking clamp on examining test table, collimator's axis is along the third direction, and locking clamp distributes along the third direction with collimator.

It is from top to bottom visible, the utility model discloses owing to adopt aforementioned locking clamp for not only be favorable to realizing locking clamp's locking and unblock fast, be favorable to promoting the accuracy of gun sight locking moreover.

Preferably, the third direction is parallel to the second direction.

Another preferred solution is that the mounting base is connected to the test table by at least three leveling legs.

From the top, it can be seen that this is advantageous for leveling the mounting base.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the sighting device of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a block diagram of an embodiment of the alignment verification apparatus of the present invention.

Detailed Description

The present embodiment is described with reference to the spatial rectangular coordinate system shown in fig. 1.

Referring to fig. 1 to 2, the collimation inspection device of the present embodiment includes an inspection table 1, a collimator 2, and a locking fixture 3 of the present embodiment, the collimator 2 and the locking fixture 3 are both installed on the inspection table 1, an axial direction of the collimator 2 is along a Y-axis direction, the collimator 2 and the locking fixture 3 are distributed along the Y-axis direction, and the locking fixture 3 clamps a locking sighting telescope 4.

Referring to fig. 1 to 2, the locking clamp 3 includes a mounting base 31, a hinge bracket 33, a positioning tooth clamp 34, a clamping arm 35 and an adjusting assembly, the adjusting assembly includes a supporting block 32 and an adjusting bolt 36, the mounting base 31 is fixed on the detection table 1, the positioning tooth clamp 34 and the hinge bracket 33 are both fixed on the mounting base 31, the supporting block 32 is adjustably mounted on the mounting base 31, the clamping arm 35 is hinged on the hinge bracket 33, the positioning tooth clamp 34, the hinge bracket 33 and the supporting block 32 are distributed along the X-axis direction, and the hinge axes of the clamping arm 35 and the hinge bracket 33 are along the Y-axis direction.

Referring to fig. 1 to 2, the clamping arm 35 includes a limiting pressing section 352 located above the positioning tooth clamp 34 and a locking section 351 located above the supporting block 32, and a clamping position is formed between the limiting pressing section 352 and the positioning tooth clamp 34, and referring to fig. 1, when the sighting telescope 4 is used for sighting inspection by the sighting inspection device, the sighting telescope 4 is installed in the clamping position, and the sighting telescope 4 is clamped between the limiting pressing section 352 and the positioning tooth clamp 34.

Referring to fig. 1 to fig. 2, the adjusting bolt 36 is screwed on the locking section 351, the axial direction of the adjusting bolt 36 is along the spacing direction between the locking section 351 and the support block 32, and in the state of fig. 1 of the present embodiment, the axial direction of the adjusting bolt 36 is along the Z-axis direction.

When it is desired to perform the sighting telescope 4 using the sighting telescope inspection device, the sighting telescope inspection device is in an initial state as shown generally in fig. 3, in which the support block 32 is displaced directly below the locking segment 351, the pressure-limiting clamp segment 352 is rotated away above the positioning tooth clamp 34, the locking clamp 3 is in an unlocked state, in this state, the scope 4 is placed in the tooth groove 341 of the positioning tooth holder 34, and then the holding arms 35 are rotated, so that the limit pressing clamp section 352 is rotated to be in contact with the scope 4, then the supporting block 32 is adjusted to be right below the locking section 351, finally the adjusting bolt 36 is screwed, so that the adjusting bolt 36 is abutted with the supporting block 32, and the limiting pressing section 352 abuts against the sighting telescope 4 to complete the clamping and fixing of the sighting telescope 4, referring to fig. 1 and 2, at this time, the sighting telescope 4 is clamped between the limiting pressing section 352 and the positioning tooth clamp 34, and the axis of the sighting telescope 4 is parallel to the axis of the collimator 2.

When the sighting telescope 4 needs to be removed after the sighting telescope 4 is inspected, the adjusting bolt 36 is firstly unscrewed, then the supporting block 32 is adjusted to be just below the locking section 351, the clamping arm 35 is rotated under the condition that the supporting block 32 does not interfere, the limiting pressing clamping section 352 is rotated to be away from the upper part of the positioning tooth clamp 34, and then the sighting telescope 4 can be taken out from the tooth groove 341 of the positioning tooth clamp 34.

If the adjusting bolt 36 is eliminated, the supporting block 32 can also support the locking section 351 in an abutting manner by using the supporting block 32 alone, and the purpose of clamping and fixing the sighting telescope 4 can be achieved, for example, a supporting block with an inclined top surface is used, however, in the process of adjusting the supporting block to abut against the locking section 351, not only the abutting force along the Z-axis direction but also the pushing force along the moving direction of the supporting block can be generated between the supporting block and the locking section 351, the pushing force along the moving direction of the supporting block can easily cause the phenomenon that the clamping arm 35 is unevenly stressed or even the position of the clamping arm 35 is deviated, so that the stress between the clamping arm 35 and the sighting telescope 4 is unevenly stressed, and the axis of the sighting telescope 4 is angularly deviated, so that the axis of the sighting telescope 4 is not parallel to the axis of the collimator 2, which is not beneficial to the accuracy of the installation position.

Of course, if the support block 32 is eliminated, the locking of the locking clamp 3 is achieved by using an adjustment bolt alone, by abutment of the adjustment bolt with the mounting base 31 in the Z-axis direction, the basic function of locking and unlocking the locking clamp 3 can also be achieved by loosening the adjusting bolt to unlock the locking clamp 3, however, when the locking clamp 3 is in the unlocked state, in order to facilitate the operations of mounting and removing the sighting telescope 4, the limiting and pressing section 352 of the clamping arm 35 needs to be capable of being screwed off from the upper part of the positioning tooth clamp 34, this requires that the locking clamp 3 be able to be spaced a significant distance from the mounting base 31 when unlocked, so as to avoid the interference of the adjusting bolt and the mounting base 31 during the rotation of the clamping arm 35, therefore, during the locking and unlocking operations of the locking clamp 3, the stroke required for screwing the adjusting bolt is long, resulting in slow locking and unlocking operations of the locking clamp 3.

Therefore, in the present embodiment, the locking and unlocking of the locking clamp 3 are realized by adjusting the adjusting assembly composed of the supporting block 32 and the adjusting bolt 36, so that in the operation process of locking and unlocking the locking clamp 3, on one hand, due to the arrangement of the supporting block 32, the stroke of the adjusting bolt 36 to be screwed is short, which is beneficial to quickly realizing the locking and unlocking of the locking clamp 3; on the other hand, because adjusting bolt 36's setting also makes when locking clamp 3, locking section 351 only receives the butt power along Z axle direction, and under the effect of Z axle direction butt power, arm lock 35 only can rotate around Y axle direction for articulated frame 33 and can not take place to deflect and remove in X axle direction and Y axle direction, is favorable to avoiding scope 4 to appear angular deviation in comparison with collimator 2, is favorable to promoting the accuracy that scope 4 locked.

Alternatively, the mounting base 31 and the inspection table 1 may be of the same structure, preferably, the mounting base 31 is fixedly connected to the inspection table 1 through four connecting columns, more preferably, the connecting columns are leveling support columns, the lengths of the leveling support columns are adjustable, for example, the leveling support columns may be bolts, and the mounting base 31 is adjusted by screwing the leveling support columns.

Specifically, referring to fig. 1 to 3, the hinge frame 33 includes two columns 331, the columns 331 extend upward from the mounting base 31, the two columns 331 are distributed along the Y-axis direction, the clamping arm 35 further includes a protrusion 353 located between the limiting pressing section 352 and the locking section 351, the protrusion 353 extends downward from the clamping arm 35, the protrusion 353 is hinged to the two columns 331, and the protrusion 353 is located between the two columns 331. Because the projection 353 is located between the two columns 331, when the clamping arm 35 is supported by the supporting force in the Z-axis direction, the clamping arm 35 is stressed and deformed at two sides in the Y-axis direction, so that the clamping arm 35 is not easy to deflect, further facilitating to avoid the angular deviation of the sighting telescope 4 compared with the collimator 2, and facilitating to improve the accuracy of the sighting telescope 4 locking.

Preferably, the positioning tooth holder 34 has two V-shaped tooth grooves 341 distributed in the Y-axis direction, and the scope 4 is positioned and held in the V-shaped tooth grooves 341. Therefore, the front side and the rear side of the sighting telescope 4 in the Y-axis direction are uniformly stressed, and the sighting telescope 4 is prevented from being angularly shifted compared with the collimator 2.

Preferably, the two limiting pressing sections are distributed along the Y-axis direction, so that the front side and the rear side of the sighting telescope 4 in the Y-axis direction are uniformly stressed, and the sighting telescope 4 is prevented from being angularly shifted compared with the collimator 2.

Preferably, the center of gravity of the combination of the clamping arm 35 and the adjusting bolt 36 is located on the side of the hinge axis of the clamping arm 35 close to the locking section 351, so that the clamping arm 35 is kept in a state of rotating away from the upper side of the positioning tooth clamp 34 when the locking clamp 3 is in the unlocked state, and thus the clamping arm 35 does not need to be operated when the sighting telescope 4 is loaded and unloaded, which is beneficial to reducing the difficulty in clamping and installing the sighting telescope 4.

Specifically, referring to fig. 2, the support block 32 is L-shaped, the lateral portion 321 of the support block 32 is supported on the top mounting surface of the mounting base 31, the lateral portion 321 of the support block 32 is hinged to the mounting base 31, and the vertical portion 322 of the support block 32 abuts against the adjusting bolt 36.

Preferably, the support block 32 has a positioning groove (not shown) on the top surface, and the adjusting bolt 36 abuts in the positioning groove when the locking clamp 3 locks the sighting telescope 4. This is favorable to adjusting bolt 36 and support block 32 cooperation position stable, avoids support block 32 to appear the offset under the scope 4 locking state, avoids support block 32 and adjusting bolt 36 to break away from the butt.

Alternatively, the adjusting screw can be screwed to the support block, for example, the support block is "Z" shaped (not shown), the lateral part of the lower side of the support block is hinged to the mounting base 31, the lateral part of the upper side of the support block is screwed to the adjusting screw, and the adjusting screw abuts against the locking section 351 of the clamping arm 35 when the locking clamp 3 locks the sighting telescope 4.

Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as those skilled in the art will appreciate that various changes and modifications may be made, and any and all modifications, equivalents, and improvements made, while remaining within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.

Claims (10)

1. Locking anchor clamps, its characterized in that:

the adjustable fixture comprises a mounting base body, a hinged frame, a positioning toothed clamp, a clamping arm and an adjusting assembly, wherein the adjusting assembly comprises a supporting block and a fastener, the positioning toothed clamp and the hinged frame are fixed on the mounting base body, the supporting block is adjustably mounted on the mounting base body in position, the clamping arm is hinged to the hinged frame, the positioning toothed clamp, the hinged frame and the supporting block are distributed along a first direction, the hinged axis of the clamping arm and the hinged frame is along a second direction, and the first direction is perpendicular to the second direction;

the clamping arm comprises a limiting pressing clamping section and a locking section, the limiting pressing clamping section is positioned above the positioning tooth clamp, the locking section is positioned above the supporting block, and a clamping position is formed between the limiting pressing clamping section and the positioning tooth clamp;

the fastener is adjustably mounted on the locking section or the fastener is adjustably mounted on the supporting block, and the adjusting direction of the fastener is along the spacing direction of the locking section and the supporting block.

2. The locking clamp of claim 1, wherein:

the fastener is adjustably mounted on the supporting block, and the gravity center of the clamping arm is positioned on one side of the hinge axis of the clamping arm and the hinge frame, which is close to the locking section;

the fastener is adjustably installed on the locking section, and the gravity center of the clamping arm and the fastener combination is located on one side, close to the locking section, of the clamping arm hinge axis.

3. The locking clamp of claim 1, wherein:

the fastener is an adjusting bolt, and the adjusting bolt is in threaded connection with the locking section or in threaded connection with the supporting block.

4. The locking clamp of claim 1, wherein:

the clamping arm is provided with a lug extending downwards, the hinge frame comprises two upright columns distributed along the second direction, and the lug is positioned between the two upright columns.

5. The locking clamp of claim 1, wherein:

the top surface of the support block has a detent located on the adjustment path of the fastener.

6. The locking clamp of any one of claims 1 to 5, wherein:

the supporting block is hinged to the mounting base body, the supporting block is supported on the top mounting surface of the mounting base body, and the hinge axis of the supporting block and the hinge axis of the mounting base body are perpendicular to the mounting surface of the mounting base body.

7. The locking clamp of any one of claims 1 to 5, wherein:

the positioning tooth clamp is provided with two tooth sockets, and the two tooth sockets are distributed along the second direction; and/or the two limiting pressing and clamping sections are distributed along the second direction.

8. Aiming inspection device, including examining test table and fixing examine the collimator on the test table, its characterized in that:

the locking clamp of any one of claims 1 to 7, further comprising a third orientation of the axis of the collimator, the locking clamp and the collimator being distributed along the third orientation.

9. The aiming inspection device of claim 8, wherein:

the third direction is parallel to the second direction.

10. The aiming inspection device of claim 8 or 9, wherein:

the installation base body is connected with the detection platform through at least three leveling supports.

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