CN115307484B - Special-shaped brake clamping hoop for gun experiment - Google Patents

Abstract

The application discloses gun experiment abnormal shape stopper clamp that moves back includes: the sleeve ring is provided with a through hole for the stopper to penetrate, the through hole extends along the first axis direction, a plurality of groups of sliding grooves are uniformly distributed in the circumferential direction of the sleeve ring, and the extending direction of the sliding grooves faces the first axis direction; the force application plates are arranged in parallel, each force application plate comprises a compression section and a mounting section, the compression section is mounted in the corresponding sliding groove and can slide along the extending direction of the corresponding sliding groove, the mounting sections are connected with the compression sections, and the mounting sections are located on the outer sides of the corresponding lantern rings; the adjusting rod is arranged on the lantern ring in a threaded manner and positioned at two ends of the force application plate along the first axis direction, and one end of the adjusting rod, which is relatively close to the first axis, is connected with the compression section of the force application plate.

Description

Special-shaped brake clamping hoop for gun experiment

Technical Field

The disclosure relates to the field of artillery, in particular to a special-shaped annealing device clamping clamp for an artillery experiment.

Background

The recoil mechanism is generally mounted at the barrel portion and functions to reduce the momentum of the post-effect propellant gas energy to the recoil portion of the gun to reduce the recoil length and the force applied to the cradle. When the gun test is carried out, the test instrument needs to be installed on the annealing device, the stability of the installation of the test instrument needs to be ensured, and the installation plane needs to be parallel to gun rifling.

In actual test, the stopper has different shapes, so that the mounting difficulty of the test instrument is greatly increased, the experimental efficiency is low, and the experimental precision is poor.

Disclosure of Invention

In view of the foregoing drawbacks and deficiencies of the prior art, it is desirable to provide a gun trial profile brake clamp.

In a first aspect, an artillery experiment abnormal shape stopper clamp includes: the sleeve ring is provided with a through hole for the stopper to penetrate, the through hole extends along the first axis direction, and a plurality of groups of sliding grooves are uniformly distributed on the sleeve ring along the circumferential direction of the sleeve ring; the force application plates are arranged in parallel, each force application plate comprises a compression section and a mounting section, the compression sections are mounted in the sliding grooves, the compression sections can slide in the sliding grooves along a second direction, the second direction is the radial direction of the lantern ring, the mounting sections are connected with the compression sections, and the mounting sections are located on the outer sides of the lantern rings; the adjusting rod is arranged on the lantern ring in a threaded manner and positioned at two ends of the force application plate along the first axis direction, and one end of the adjusting rod, which is relatively close to the first axis, is connected with the compression section of the force application plate.

According to the technical scheme that this application embodiment provided, the lantern ring includes two sets of spacing rings that are parallel to each other and arrange along first axis direction, two sets of be equipped with between the spacing ring and prestoring the distance, prestoring the distance and being less than force application board is along first axis direction length.

According to the technical scheme that this application embodiment provided, adjust the pole including coaxial coupling's bull stick and dead lever, the bull stick with spacing ring threaded connection, the dead lever with the application of force board can dismantle and be connected.

According to the technical scheme that this application embodiment provided, spacing first screw hole that surrounds first axis circumferencial direction and be equipped with evenly arrange with adjust pole bull stick screw-thread fit, just first screw hole with the spout is linked together.

According to the technical scheme that this application embodiment provided, the application of force board all is equipped with along first axis direction both ends and supplies dead lever male locating hole, the dead lever is close to bull stick one end is equipped with the limiting plate, the limiting plate with application of force board upper surface offsets, the dead lever is kept away from bull stick one end is equipped with the second screw hole, second screw hole is equipped with the screw, the screw with application of force board lower surface offsets.

According to the technical scheme that this application embodiment provided, the application of force board is kept away from relatively the bull stick one end is equipped with the groove of stepping down that can supply the screw to place.

The invention has the beneficial effects that: the application discloses gun experiment abnormal shape stopper clamp that moves back includes: collar, application of force board and regulation pole. The sleeve ring is provided with a through hole for the stopper to penetrate, the through hole extends along the first axis direction, a plurality of groups of sliding grooves are uniformly distributed in the circumferential direction of the sleeve ring, and the extending direction of the sliding grooves faces the first axis direction; the force application plates are arranged in parallel, each force application plate comprises a compression section and a mounting section, the compression sections are mounted in the corresponding sliding grooves, the compression sections can slide along the extending directions of the corresponding sliding grooves, the mounting sections are connected with the compression sections, and the mounting sections are located outside the corresponding lantern rings; the adjusting rod is arranged on the lantern ring in a threaded mode and is positioned at two ends of the force application plate along the first axis direction, and one end, relatively close to the first axis, of the adjusting rod is connected with the compression section of the force application plate.

The ejector is inserted into the through hole, the adjusting rod slides towards the first axis direction under the action of the threads through rotating the adjusting rod, the pressing section of the force application plate is driven to abut against the ejector, the clamping clamp is fixed on the ejector, and then the testing instrument is mounted on the mounting section of the force application plate to test the gun.

The ejector is favorable to adapting to the ejectors with different sizes, is connected firmly, and particularly when the ejector has a special-shaped structure, the fixed connection of the ejectors at different positions can be realized by adjusting the lengths of the adjusting rods at different positions.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is a schematic illustration of one embodiment of an artillery trial profile brake clamp of the present application;

FIG. 2 is a schematic illustration of an embodiment of an artillery trial profile brake clamp of the present application;

FIG. 3 is a schematic illustration of an embodiment of an artillery trial profile brake clamp of the present application;

FIG. 4 is a schematic illustration of an embodiment of an artillery trial profile brake clamp clip of the present application;

1. a brake; 2. a limiting ring; 3. a force application plate; 30. a mounting section; 31. a compacting section; 310. a relief groove; 4. an adjusting rod; 40. a rotating rod; 41. a fixed rod; 410. and a second threaded hole.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the invention are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

As shown in fig. 1-4, a gun experiment special-shaped brake clamping band comprises: the sleeve ring is provided with a through hole for the stopper 1 to penetrate, the through hole extends along the first axis direction, and a plurality of groups of sliding grooves are uniformly distributed along the circumferential direction of the sleeve ring; the force application plates 3, the force application plates 3 are arranged in parallel, the force application plates 3 comprise a pressing section 31 and a mounting section 30, the pressing section 31 is mounted in the sliding groove, the pressing section 31 can slide in the sliding groove along a second direction, the second direction is the radial direction of the lantern ring, the mounting section 30 is connected with the pressing section 31, and the mounting section 30 is positioned outside the lantern ring; the adjusting rod 4 is installed on the lantern ring in a threaded manner and is positioned at two ends of the force application plate 3 along the first axis direction, and one end, relatively close to the first axis, of the adjusting rod 4 is connected with the pressing section 31 of the force application plate 3.

The first axis is the axis of the inner wall of the stopper 1, the lantern ring comprises two groups of limiting rings 2 which are parallel to each other and are distributed along the direction of the first axis, a pre-stored distance is arranged between the two groups of limiting rings 2, and the pre-stored distance is smaller than the length of the force application plate 3 along the direction of the first axis. The pressing sections 31 are two ends of the force application plate 3 along the first axis direction, and the mounting sections 30 are located between two groups of the pressing sections 31 and are used for mounting test instruments.

Specifically, as shown in fig. 2, four sets of the sliding grooves are uniformly arranged on the inner wall of the limiting ring 2 around the first axis direction, four sets of the force application plates 3 correspondingly span between two sets of the limiting rings 2, and the extending directions of the force application plates 3 are parallel to the first axis direction.

Working principle: the ejector 1 is inserted into the through hole, the adjusting rod 4 is rotated to slide towards the first axis direction under the action of the screw thread by the aid of the rotating adjusting rod 4, the pressing section 31 of the force application plate 3 is driven to abut against the ejector 1, the clamping clamp is fixed on the ejector 1, and then the testing instrument is mounted on the mounting section 30 of the force application plate 3 to test the gun. The ejector 1 which is favorable for adapting to different sizes is connected firmly, particularly when the ejector has a special-shaped structure, the fixed connection of the ejector at different positions can still be realized by adjusting the length of the adjusting rod at different positions, and as the ejector 1 is coaxially arranged at a fire gun mouth, the outer wall of the ejector 1 is extruded through a pressure section, the force application plate 3 can be ensured to be parallel to rifling on the plate surface, so that the mounting section 30 on the force application plate is parallel to the rifling, a test instrument is mounted on the mounting section 30, and the experimental precision can be improved.

Further, as shown in fig. 4, the adjusting rod 4 includes a rotating rod 40 and a fixing rod 41 that are coaxially connected, the rotating rod 40 is in threaded connection with the limiting ring 2, and the fixing rod 41 is detachably connected with the force application plate 3.

Four groups of adjusting rods 4 are arranged on each group of limiting rings 2, and the extending direction of each group of adjusting rods 4 points to the first axis direction.

Further, the limiting ring 2 is provided with first threaded holes which are uniformly distributed around the first axis in the circumferential direction, the first threaded holes are in threaded fit with the rotating rod 40 of the adjusting rod 4, and the first threaded holes are communicated with the sliding grooves.

Specifically, the two ends of the force application plate 3 along the first axis direction are provided with positioning holes for the fixing rods 41 to insert, one end of the fixing rods 41, which is close to the rotating rod 40, is provided with a limiting plate, the limiting plate abuts against the upper surface of the force application plate 3, one end of the fixing rods 41, which is far away from the rotating rod 40, is provided with a second threaded hole 410, a screw is arranged in the second threaded hole 410, and the screw abuts against the lower surface of the force application plate 3.

Wherein, the diameter of the rotating rod 40 is larger than that of the fixed rod 41, and a limiting plate is formed at the joint of the rotating rod and the fixed rod and is used for pushing the force application plate 3 to slide along the direction towards the first axis. The second screw is screwed into the second threaded hole 410, and the screw cap portion of the second screw abuts against the inner wall of the limiting ring 2, so that the force application plate 3 can be pulled to slide along a direction away from the first axis during disassembly.

Further, the end of the force application plate 3, which is relatively far away from the rotating rod 40, is provided with a relief groove 310 for placing a screw. For preventing the second screw from scratching the surface of the stopper 1.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the invention referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the invention. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (5)

1. The utility model provides a gun experiment abnormal shape system moves back ware clamp which characterized in that includes:

the sleeve ring is provided with a through hole for the stopper (1) to penetrate, the through hole extends along the first axis direction, and a plurality of groups of sliding grooves are uniformly distributed along the circumferential direction of the sleeve ring;

the force application plates (3) are arranged in parallel, the force application plates (3) comprise a pressing section (31) and a mounting section (30), the pressing section (31) is mounted in the sliding groove, the pressing section (31) can slide in the sliding groove along a second direction, the second direction is the radial direction of the lantern ring, the mounting section (30) is connected with the pressing section (31), and the mounting section (30) is positioned outside the lantern ring;

the adjusting rod (4) is arranged on the lantern ring in a threaded manner and positioned at two ends of the force application plate (3) along the first axis direction, and one end, relatively close to the brake (1), of the adjusting rod (4) is connected with the compression section (31) of the force application plate (3);

inserting the ejector (1) into the through hole, rotating the adjusting rod (4), moving the adjusting rod (4) towards the ejector (1) under the action of threads, driving the pressing section (31) of the force application plate (3) to prop against the ejector (1), fixing the clamping clamp on the ejector (1), and then mounting the testing instrument on the mounting section (30) of the force application plate (3) to test the gun;

the lantern ring comprises two groups of limiting rings (2) which are parallel to each other and are distributed along the first axis direction, a pre-stored distance is arranged between the two groups of limiting rings (2), and the pre-stored distance is smaller than the length of the force application plate (3) along the first axis direction.

2. The gun experiment special-shaped brake clamping hoop of claim 1, wherein: the adjusting rod (4) comprises a rotating rod (40) and a fixing rod (41) which are coaxially connected, the rotating rod (40) is in threaded connection with the limiting ring (2), and the fixing rod (41) is detachably connected with the force application plate (3).

3. The gun experiment special-shaped brake clamping hoop of claim 2, wherein: the limiting ring (2) is provided with first threaded holes which are uniformly distributed around the circumference of the stopper (1), the first threaded holes are in threaded fit with the rotating rod (40) of the adjusting rod (4), and the first threaded holes are communicated with the sliding grooves.

4. A gun experiment profiled brake clamp as defined in claim 3 wherein: the force application plate (3) is provided with locating holes for the fixing rods (41) to be inserted along the two ends of the first axis direction, the fixing rods (41) are close to one ends of the rotating rods (40) and are provided with limiting plates, the limiting plates are propped against the upper surfaces of the force application plate (3), one ends, away from the rotating rods (40), of the fixing rods (41) are provided with second threaded holes (410), and screws are arranged in the second threaded holes (410) and prop against the lower surfaces of the force application plate (3).

5. The gun experiment special-shaped brake clamping hoop of claim 4, wherein: the end, which is relatively far away from the rotating rod (40), of the force application plate (3) is provided with a yielding groove (310) for placing a screw.