CN217210553U - Bayonet laser simulation shooting training pipe - Google Patents

Abstract

The utility model discloses an insertion type laser simulated shooting training pipe, which comprises a first connecting pipe and a second connecting pipe fixed at one end of the first connecting pipe, wherein the other end of the first connecting pipe is fixedly connected with an external thread connecting sleeve for connecting work, a convex positive column is arranged inside one side of the external thread connecting sleeve, a sliding negative column extending to the outside of the external thread connecting sleeve is sleeved inside the other side of the external thread connecting sleeve in a sliding way, so that a spring clamping column can rapidly complete clamping work and separation work with a circular clamping hole and can also rapidly complete splicing work and separation work with a slot mounting sleeve seat through the expansion and contraction of the spring clamping column, thereby facilitating the replacement of different sighting devices, and simultaneously avoiding the falling phenomenon of the inserting column and the slot mounting sleeve seat through the clamping work of the spring clamping column and the circular clamping hole, thereby reducing the rate of sight damage.

Description

Bayonet laser simulation shooting training pipe

Technical Field

The utility model belongs to the technical field of laser simulation shooting training is managed is relevant, concretely relates to bayonet laser simulation shooting training pipe.

Background

Shooting is an athletic event that targets with a gun. International match has man and woman's personal project, there is the group project also, and when carrying out the training of shooting, will use the shooting gun, especially the shooting gun of laser simulation shooting training, when carrying out equipment work, will use laser simulation shooting training pipe, and current laser simulation shooting training pipe is when putting into training work, the sight of its laser simulation shooting training pipe front side is the mode joint through the clamp at shooting training pipe outer wall, thereby carry out equipment work many times, the elasticity of clamp will worsen, thereby when carrying out training work, will cause the sight to drop easily, will increase the sight spoilage like this.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bayonet laser simulation shooting training pipe to the increase sight spoilage problem that provides in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an insertion type laser simulated shooting training pipe comprises a first connecting pipe and a second connecting pipe fixed at one end of the first connecting pipe, wherein the other end of the first connecting pipe is fixedly connected with an external thread connecting sleeve for connection work, a convex positive pole cylinder is arranged inside one side of the external thread connecting sleeve, a sliding negative pole cylinder extending to the outer side of the external thread connecting sleeve is sleeved inside the other side of the external thread connecting sleeve in a sliding mode, a telescopic spring is arranged between the convex positive pole cylinder and the sliding negative pole cylinder and positioned inside the external thread connecting sleeve, three fixed sleeve columns for installation work are arranged inside the middle of the first connecting pipe, a laser transmitter is installed in the middle of the three fixed sleeve columns in a penetrating mode and positioned inside the first connecting pipe, a power supply is arranged on one side, close to the external thread connecting sleeve, inside the first connecting pipe, and the power is located one side of laser emitter, the inside convex lens subassembly that is used for spotlight work that is equipped with of second connecting pipe, the inside protective glass who is used for protection work and printing opacity work that is equipped with of second connecting pipe opposite side covers, second connecting pipe upside outer wall is equipped with removable sight.

Preferably, removable sight is including inserting the post and welding at the slot mount sleeve seat of second connecting pipe outer wall, circular calorie of hole has been seted up at both ends around the slot mount sleeve seat, it pegs graft with slot mount sleeve seat to insert the post, insert the post around the both ends downside cup jointed the spring card post, and insert the post and pass through spring card post and circular calorie of hole joint, insert post upper end middle part fixedly connected with support cylinder, the support cylinder upper end is equipped with sight protecting sheathing, the inside cross sight that is equipped with of sight protecting sheathing.

Preferably, the convex mirror assembly comprises a first convex mirror, a second convex mirror and a third convex mirror, the first convex mirror, the second convex mirror and the third convex mirror are installed inside the second connecting pipe in a sequence from left to right, the diameters of the first convex mirror, the second convex mirror and the third convex mirror are the same, the thickness of the first convex mirror is smaller than that of the second convex mirror, and the thickness of the second convex mirror is smaller than that of the third convex mirror.

Preferably, the positive pole of the laser emitter is electrically connected with the convex-shaped positive pole cylinder, and the negative pole of the laser emitter is electrically connected with the sliding negative pole cylinder.

Preferably, the fixed sleeve column is distributed in the first connecting pipe in a transverse equidistant structure, a sealing gasket is arranged between the fixed sleeve column and the laser emitter, and the fixed sleeve column, the inner wall and the outer wall are coated with insulating paint layer structures.

Preferably, the positive pole of the power supply is electrically connected with the convex positive pole cylinder, and the negative pole of the power supply is electrically connected with the sliding negative pole cylinder.

Preferably, first connecting pipe, second connecting pipe and external screw thread connecting sleeve's preparation material are insulating plastic, first connecting pipe, second connecting pipe and external screw thread connecting sleeve are inside, outside two walls all scribble insulating anti-oxidation paint layer structure.

Preferably, the cover glass includes solid fixed ring and transparent toughened glass, and solid fixed ring fixes the inner wall at the second connecting pipe, and transparent toughened glass is located solid fixed ring inside.

Compared with the prior art, the utility model provides a bayonet laser simulation shooting training pipe possesses following beneficial effect:

the utility model discloses a flexible of spring card post for the spring card post can be quick accomplish joint work and separation work with circular card hole, also make the post of inserting can be quick accomplish grafting work and separation work with the slot mount sleeve seat, thereby conveniently change different sight, through the joint work in spring card post and circular card hole, will avoid inserting the phenomenon that post and slot mount sleeve seat take place to drop simultaneously, thereby just reduce the spoilage of sight.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description, do not constitute a limitation of the invention, in which:

fig. 1 is a schematic view of a structure of a plug-in laser simulated shooting training tube according to the present invention;

fig. 2 is a schematic front sectional view of the shooting training pipe of the present invention;

fig. 3 is an exploded schematic view of the detachable sight according to the present invention.

In the figure: 1. a first connecting pipe; 2. a detachable sight; 21. a cross-shaped sight; 22. inserting a column; 23. a slot mounting sleeve seat; 24. a circular clamping hole; 25. a spring clip post; 26. a support cylinder; 27. a sight protective housing; 3. a cover glass; 4. a second connecting pipe; 5. the external thread is connected with the sleeve; 6. a tension spring; 7. sliding the negative pole cylinder; 8. a positive cylinder in a shape of a Chinese character 'tu'; 9. a power source; 10. a laser transmitter; 11. fixing the sleeve column; 12. a convex mirror assembly; 121. a first convex mirror; 122. a second convex mirror; 123. a third convex mirror.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an insertion type laser simulated shooting training pipe comprises a first connecting pipe 1 and a second connecting pipe 4 fixed at one end of the first connecting pipe 1, wherein the other end of the first connecting pipe 1 is fixedly connected with an external thread connecting sleeve 5 used for connecting work, a convex-shaped positive pole cylinder 8 is arranged inside one side of the external thread connecting sleeve 5, a sliding negative pole cylinder 7 extending to the outer side of the external thread connecting sleeve 5 is sleeved inside the other side of the external thread connecting sleeve 5 in a sliding mode, a telescopic spring 6 is arranged between the convex-shaped positive pole cylinder 8 and the sliding negative pole cylinder 7, the telescopic spring 6 is positioned inside the external thread connecting sleeve 5, three fixed sleeve columns 11 used for installation work are arranged inside the middle of the first connecting pipe 1, a laser emitter 10 is arranged among the three fixed sleeve columns 11 in a penetrating mode, the laser emitter 10 is positioned inside the first connecting pipe 1, a power supply 9 is arranged on one side, close to the external thread connecting sleeve 5, inside the first connecting pipe 1, and power 9 is located one side of laser emitter 10, and the inside convex lens subassembly 12 that is used for spotlight work that is equipped with of second connecting pipe 4, and the inside cover glass 3 that is used for protection work and printing opacity work that is equipped with of second connecting pipe 4 opposite side, the lateral wall is equipped with removable sight 2 on the second connecting pipe 4 upside.

In order to carry out replacement work and fixing work, the detachable sighting device 2 comprises an insert column 22 and an insert slot mounting sleeve seat 23 welded on the outer wall of the second connecting pipe 4, circular clamping holes 24 are formed in the front end and the rear end of the insert slot mounting sleeve seat 23, the insert column 22 is inserted into the insert slot mounting sleeve seat 23, spring clamping columns 25 are sleeved on the lower sides of the front end and the rear end of the insert column 22, the insert column 22 is clamped with the circular clamping holes 24 through the spring clamping columns 25, a supporting column 26 is fixedly connected to the middle of the upper end of the insert column 22, a sighting device protective shell 27 is arranged at the upper end of the supporting column 26, and a cross-shaped sighting device 21 is arranged inside the sighting device protective shell 27;

through the flexible of spring card post 25, make spring card post 25 can be quick accomplish joint work and separation work with circular card hole 24, also make insert post 22 can be quick accomplish grafting work and separation work with slot mount sleeve seat 23, thereby conveniently change different sight, simultaneously through the joint work of spring card post 25 with circular card hole 24, will avoid inserting the phenomenon that post 22 and slot mount sleeve seat 23 take place to drop, thereby just reduce the spoilage of sight.

In order to perform the light condensing operation, the convex mirror assembly 12 includes a first convex mirror 121, a second convex mirror 122 and a third convex mirror 123, the first convex mirror 121, the second convex mirror 122 and the third convex mirror 123 are installed inside the second connection pipe 4 in order from left to right, the diameters of the first convex mirror 121, the second convex mirror 122 and the third convex mirror 123 are the same, the thickness of the first convex mirror 121 is smaller than that of the second convex mirror 122, and the thickness of the second convex mirror 122 is smaller than that of the third convex mirror 123, so that the light condensing operation can be performed better by the convex mirror assembly 12.

In order to carry out laser shooting work, the positive pole of the laser emitter 10 is electrically connected with the convex-shaped positive pole cylinder 8, the negative pole of the laser emitter 10 is electrically connected with the sliding negative pole cylinder 7, and the laser emitter 10 can better carry out laser shooting work.

In order to carry out fixing work, fixed socle 11 is horizontal equidistant structure and distributes inside first connecting pipe 1, is equipped with seal ring between fixed socle 11 and the laser emitter 10, and fixed socle 11, inside and outside two walls scribble insulating paint layer structure, through fixed socle 11, can carry out fixed mounting work to laser emitter 10 better.

In order to provide current and voltage, the positive pole of the power supply 9 is electrically connected with the convex-shaped positive pole cylinder 8, the negative pole of the power supply 9 is electrically connected with the sliding negative pole cylinder 7, and the current and voltage can be better provided for the laser emitter 10 through the power supply 9.

In order to carry out the protection work, the preparation material of first connecting pipe 1, second connecting pipe 4 and external screw thread connecting sleeve 5 is insulating plastics, and first connecting pipe 1, second connecting pipe 4 and external screw thread connecting sleeve 5 are inside and outside two walls all scribbled insulating anti oxidation paint layer structure, through first connecting pipe 1, second connecting pipe 4 and external screw thread connecting sleeve 5, can carry out the protection work better, avoid appearing electric leakage phenomenon.

In order to carry out the guard work, the cover glass 3 is including solid fixed ring and transparent toughened glass, and solid fixed ring fixes the inner wall at second connecting pipe 4, and transparent toughened glass is located solid fixed ring inside, through cover glass 3, can carry out the guard work better, also carries out printing opacity work better simultaneously.

The utility model discloses a theory of operation and use flow: the worker aligns the external thread connecting sleeve 5 with a socket of a simulated shooting gun, then inserts the external thread connecting sleeve 5 and the first connecting pipe 1 into the socket of the simulated shooting gun, connects the external thread connecting sleeve 5 with an internal thread hole in the socket of the simulated shooting gun in a threaded manner, and simultaneously contacts the sliding negative pole cylinder 7 with the outer wall of a trigger in the simulated shooting gun;

when the shooting device is used, a trainer can push the sliding cathode cylinder 7 to slide towards the convex-shaped anode cylinder 8 by pulling a trigger, when the sliding cathode cylinder 7 is in contact with the convex-shaped anode cylinder 8, the power supply 9 can discharge, the laser emitter 10 can work, when the laser emitter 10 works, a light beam can be emitted, when the light beam respectively passes through the first convex mirror 121, the second convex mirror 122 and the third convex mirror 123, the first convex mirror 121, the second convex mirror 122 and the third convex mirror 123 can better perform condensation work, the light beam is thinned, then the thinned light beam can penetrate through the protective glass cover 3 to shoot a target, so that shooting training can be completed, and in the shooting process, aiming work can be completed through the detachable sighting device 2.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a bayonet laser simulation shooting training pipe, includes first connecting pipe (1) and fixes second connecting pipe (4) in first connecting pipe (1) one end, its characterized in that: the other end of the first connecting pipe (1) is fixedly connected with an external thread connecting sleeve (5) used for connecting work, a convex positive column (8) is arranged inside one side of the external thread connecting sleeve (5), a sliding negative column (7) extending to the outer side of the external thread connecting sleeve (5) is sleeved inside the other side of the external thread connecting sleeve (5) in a sliding mode, a telescopic spring (6) is arranged between the convex positive column (8) and the sliding negative column (7), the telescopic spring (6) is located inside the external thread connecting sleeve (5), three fixed sleeve columns (11) used for installation work are arranged inside the middle of the first connecting pipe (1), a laser emitter (10) penetrates through the middle of the three fixed sleeve columns (11), the laser emitter (10) is located inside the first connecting pipe (1), and a power supply (9) is arranged on one side, close to the external thread connecting sleeve (5), inside the first connecting pipe (1), and power (9) are located one side of laser emitter (10), the inside convex lens subassembly (12) that is used for spotlight work that is equipped with of second connecting pipe (4), the inside cover glass (3) that is used for protection work and printing opacity work that is equipped with of second connecting pipe (4) opposite side, second connecting pipe (4) upside outer wall is equipped with removable sight (2).

2. The inserted laser simulated gunnery training tube of claim 1, wherein: removable sight (2) are including inserting post (22) and welding slot mount sleeve seat (23) at second connecting pipe (4) outer wall, circular calorie of hole (24) have been seted up at both ends around slot mount sleeve seat (23), it pegs graft with slot mount sleeve seat (23) to insert post (22), insert post (22) around both ends downside has cup jointed spring card post (25), and insert post (22) through spring card post (25) and circular calorie of hole (24) joint, it has support cylinder (26) to insert post (22) upper end middle part fixedly connected with, support cylinder (26) upper end is equipped with sight protecting sheathing (27), sight protecting sheathing (27) inside is equipped with cross sight (21).

3. The inserted laser simulated gunnery training tube of claim 1, wherein: the convex mirror assembly (12) comprises a first convex mirror (121), a second convex mirror (122) and a third convex mirror (123), the first convex mirror (121), the second convex mirror (122) and the third convex mirror (123) are installed inside the second connecting pipe (4) in a left-to-right sequence, the diameters of the first convex mirror (121), the second convex mirror (122) and the third convex mirror (123) are the same, the thickness of the first convex mirror (121) is smaller than that of the second convex mirror (122), and the thickness of the second convex mirror (122) is smaller than that of the third convex mirror (123).

4. The inserted laser simulated gunnery training tube of claim 1, wherein: the positive pole of the laser emitter (10) is electrically connected with the convex-shaped positive pole cylinder (8), and the negative pole of the laser emitter (10) is electrically connected with the sliding negative pole cylinder (7).

5. The inserted laser simulated gunnery training tube of claim 1, wherein: fixed set post (11) are horizontal equidistant structure and distribute inside first connecting pipe (1), be equipped with seal ring between fixed set post (11) and laser emitter (10), fixed set post (11), inside and outside two walls scribble insulating paint layer structure.

6. The inserted laser simulated gunnery training tube of claim 1, wherein: the positive pole of power (9) is connected with type-convex positive pole cylinder (8) electricity, the negative pole of power (9) is connected with slip negative pole cylinder (7) electricity.

7. The inserted laser simulated gunnery training tube of claim 1, wherein: the manufacturing materials of the first connecting pipe (1), the second connecting pipe (4) and the external thread connecting sleeve (5) are insulating plastics, and the inner wall and the outer wall of the first connecting pipe (1), the second connecting pipe (4) and the external thread connecting sleeve (5) are coated with insulating oxidation-resistant paint layer structures.

8. The inserted laser simulated gunnery training tube of claim 1, wherein: the protective glass cover (3) comprises a fixing ring and transparent toughened glass, the fixing ring is fixed on the inner wall of the second connecting pipe (4), and the transparent toughened glass is located inside the fixing ring.

Images