阅读说明：本技术 一种伸缩滑动滚珠解锁战术警棍 (Flexible slip ball unblock tactics baton ) 是由 汪浩 于 2019-10-11 设计创作，主要内容包括：本发明涉及警棍技术领域,特别是涉及一种伸缩滑动滚珠解锁战术警棍。包括外杆和内杆,外杆和内杆通过环箍结构进行伸缩限位固定,环箍结构包括环形座以及滑动环；环形座与外杆用于供内杆伸出的端部固定连接,环形座上设置有导向孔,导向孔内滑动装配有限位件,内杆的外周侧设置有供限位件插入、以限制内杆和外杆相对滑动的限位槽；滑动环上设置有顶推部和避让槽；环箍结构还包括弹性复位件和挡止部。本发明的警棍的环箍结构配件较少,结构简单,降低了制造成本；本结构使得内杆完全中空,可用于放置各种战术配件。另外,由于滑动环的环箍锁紧作用,使得内杆和外杆在使用时结构紧凑晃动小,强度较高,提升了伸缩警棍的击打性能。(The invention relates to the technical field of batons, in particular to a telescopic sliding ball unlocking tactical baton. The telescopic limiting device comprises an outer rod and an inner rod, wherein the outer rod and the inner rod are fixed in a telescopic limiting mode through a hoop structure, and the hoop structure comprises an annular seat and a sliding ring; the annular seat is fixedly connected with the end part of the outer rod, which is used for extending the inner rod, a guide hole is arranged on the annular seat, a limiting piece is assembled in the guide hole in a sliding manner, and a limiting groove for inserting the limiting piece to limit the relative sliding of the inner rod and the outer rod is arranged on the peripheral side of the inner rod; the sliding ring is provided with a pushing part and an avoiding groove; the hoop structure further comprises an elastic reset piece and a stopping part. The baton has fewer hoop structure parts, simple structure and reduced manufacturing cost; the structure makes the inner rod completely hollow, and can be used for placing various tactical accessories. In addition, due to the locking effect of the hoop of the sliding ring, the inner rod and the outer rod are compact in structure and small in shaking when in use, the strength is high, and the striking performance of the telescopic spontoon is improved.)

1. The utility model provides a flexible slip ball unblock tactics baton, establishes outer pole (1) and interior pole (2) together including the cover, its characterized in that: the outer rod (1) and the inner rod (2) are fixed in a telescopic limiting mode through a hoop structure (3), and the hoop structure (3) comprises an annular seat (301) sleeved on the outer peripheral side of the inner rod (2) and a sliding ring (304) assembled on the outer peripheral side of the annular seat (301) in a sliding mode;

the annular seat (301) is fixedly connected with the end part of the outer rod (1) for the extension of the inner rod (2), a guide hole (302) is formed in the annular seat (301), a limiting piece (303) is assembled in the guide hole (302) in a sliding mode, and a limiting groove (306) for the insertion of the limiting piece (303) to limit the relative sliding of the inner rod (2) and the outer rod (1) is formed in the peripheral side of the inner rod (2);

the sliding ring (304) is provided with a pushing part (308) and an avoiding groove (309), the pushing part (308) is used for stopping the limiting piece (303) in the guide hole (302) to realize card insertion locking of the limiting piece (303) and the limiting groove (306), and the avoiding groove (309) is used for inserting the limiting piece (303) to realize unlocking separation of the limiting piece (303) and the limiting groove (306);

the hoop structure (3) further comprises an elastic resetting piece (307) and a stopping portion (305), wherein the elastic resetting piece (307) is used for applying a resetting acting force to the sliding ring (304), and the stopping portion (305) is used for stopping and limiting the sliding ring (304) under the action of the elastic resetting piece (307) so that the pushing portion (308) is located at a corresponding position for stopping the limiting piece (303) in the guide hole (302) in a natural state.

2. The telescopic sliding ball unlocking tactical baton of claim 1 wherein: an annular cavity for installing an elastic reset piece (307) is arranged between the annular seat (301) and the sliding ring (304), one end of the elastic reset piece (307) is blocked and limited with the annular seat (301), and the other end of the elastic reset piece is blocked and limited with the sliding ring (304).

3. The telescopic sliding ball unlocking tactical baton of claim 2 wherein: annular seat (301) are the ladder tubulose, are provided with the ladder face on annular seat (301), top portion of pushing away (308) is for setting up the protruding structure in slip ring (304) inboard, protruding structure sets up the less periphery side in annular seat (301) size, constitute the annular chamber between top portion of pushing away (308) and the ladder face.

4. The telescopic sliding ball unlocking tactical baton of claim 3 wherein: the avoidance groove (309) and the annular cavity are respectively positioned at two sides of the pushing part (308).

5. The telescopic sliding ball unlocking tactical baton of claim 4 wherein: the stopping part (305) is arranged on the annular seat (301), the stopping part (305) realizes stopping and limiting of the sliding ring (304) through mutual stopping with the pushing part (308), and the clearance between the stopping part (305) and the pushing part (308) forms the avoiding groove (309).

6. The telescopic sliding ball unlocking tactical baton of claim 5 wherein: the stop portion (305) is a stop ring which is threadedly assembled on the annular seat (301).

7. The telescopic sliding ball unlocking tactical baton of claim 3 wherein: the sliding ring (304) is guided and slidably assembled on the outer periphery side of the annular seat (301) with larger size.

8. The telescopic sliding ball unlocking tactical baton of claim 1 wherein: the pushing part (308) and/or the limiting part (303) are/is provided with a first guide surface (310), and the first guide surface (310) is used for converting the sliding motion of the sliding ring (304) into an acting force for driving the limiting part (303) to move towards one side of the limiting groove (306); the limiting groove (306) and/or the limiting piece (303) are/is further provided with a second guide surface (311), and the second guide surface (311) is used for guiding the limiting piece (303) out of the limiting groove (306) when the inner rod (2) and the outer rod (1) slide relatively.

9. The telescopic sliding ball unlocking tactical baton of claim 8 wherein: the limiting pieces (303) are balls, the guide holes (302) are provided with a plurality of guide holes which are distributed at intervals along the circumferential direction of the annular seat (301), and the limiting grooves (306) are annular limiting grooves arranged on the outer circumferential side of the inner rod (2); the limiting grooves (306) are formed in the head end and the tail end of the inner rod (2).

10. The telescopic sliding ball unlocking tactical baton of claim 1 wherein: still including installing the inside injection structure in interior pole (2), the injection structure includes holding vessel and injector head (6), be provided with on injector head (6) and press platen (4), still rotate on interior pole (2) and be equipped with and rotate cover (5), be provided with on rotating cover (5) and supply injector head (6) and press platen (4) to expose simultaneously jet orifice and press the hole.

Technical Field

The invention relates to the technical field of batons, in particular to a telescopic sliding ball unlocking tactical baton.

Background

The baton is a special stick used by police or security personnel in the official business, and is convenient for carrying the baton, and the existing baton is usually a telescopic baton. The telescopic baton usually comprises at least two layers of loop bars which are sleeved together, and when in use, the length of the baton can be adjusted by drawing out each loop bar. In addition, the baton also needs to have certain striking performance, so that the stretched loop bars of all layers need to have strong retraction resistance, in order to meet the requirements, an ingenious unlocking driving mechanism is usually arranged in the existing telescopic baton, and in the using process of the baton, the unlocking driving mechanism can meet the telescopic requirements of all layers of loop bars and can lock all layers of loop bars after all layers of loop bars stretch out, so that striking requirements are met. However, the unlocking driving mechanism of the prior baton is complex in structure and high in manufacturing cost, and after the baton is used after being hit for a long time, the situation that the baton cannot stretch out and draw back normally due to deformation and damage of local parts can easily occur, and the public affair execution of police or security personnel can be influenced sometimes.

Disclosure of Invention

The invention aims to provide a telescopic sliding ball unlocking tactical spontoon, which is used for solving the technical problems of complex structure, higher manufacturing cost and poorer structural strength of the telescopic spontoon in the prior art.

In order to achieve the purpose, the invention provides a telescopic sliding ball unlocking tactical spontoon which adopts the following technical scheme:

a telescopic sliding ball unlocking tactical baton comprises an outer rod and an inner rod which are sleeved together, wherein the outer rod and the inner rod are telescopic, limited and fixed through a hoop structure, and the hoop structure comprises an annular seat sleeved on the outer peripheral side of the inner rod and a sliding ring which is assembled on the outer peripheral side of the annular seat in a sliding mode;

the annular seat is fixedly connected with the end part of the outer rod, which is used for extending the inner rod, a guide hole is formed in the annular seat, a limiting piece is assembled in the guide hole in a sliding manner, and a limiting groove for inserting the limiting piece to limit the relative sliding of the inner rod and the outer rod is formed in the peripheral side of the inner rod;

the sliding ring is provided with a pushing part and an avoiding groove, the pushing part is used for blocking the limiting part in the guide hole so as to realize the locking of the limiting part and the inserting card of the limiting groove, and the avoiding groove is used for inserting the limiting part so as to realize the unlocking and separation of the limiting part and the limiting groove;

the hoop structure further comprises an elastic resetting piece and a blocking portion, the elastic resetting piece is used for applying a resetting acting force to the sliding ring, and the blocking portion is used for blocking and limiting the sliding ring under the action of the elastic resetting piece so that the pushing portion is located at a corresponding position where the limiting piece is blocked in the guide hole in a natural state.

Furthermore, an annular cavity for installing an elastic reset piece is arranged between the annular seat and the sliding ring, one end of the elastic reset piece is limited by the annular seat in a blocking manner, and the other end of the elastic reset piece is limited by the sliding ring in a blocking manner.

Further, the annular seat is ladder tubulose, is provided with the ladder face on the annular seat, top pushing part is the protruding structure of setting at the slip ring inboard, protruding structure sets up in the less periphery side of annular seat size, constitute the annular chamber between top pushing part and the ladder face.

Further, the avoidance groove and the annular cavity are respectively positioned on two sides of the pushing part.

Furthermore, the stopping part is arranged on the annular seat, the stopping part realizes stopping and limiting of the sliding ring through mutual stopping with the pushing part, and the spacing between the stopping part and the pushing part forms the avoiding groove.

Further, the stopping part is a stopping ring, and the stopping ring is assembled on the annular seat in a threaded mode.

Further, the sliding ring is guided and slidably assembled on the outer periphery side of the annular seat with a larger size.

Further, a first guide surface is arranged on the pushing part and/or the limiting part, and the first guide surface is used for converting the sliding motion of the sliding ring into an acting force for driving the limiting part to move towards one side of the limiting groove; and a second guide surface is further arranged on the limiting groove and/or the limiting piece and used for guiding the limiting piece out of the limiting groove when the inner rod and the outer rod slide relatively.

Furthermore, the limiting pieces are balls, the guide holes are provided with a plurality of annular grooves which are distributed at intervals along the circumferential direction of the annular seat, and the limiting grooves are annular limiting grooves arranged on the outer circumferential side of the inner rod; the limiting grooves are formed in the head end and the tail end of the inner rod.

Further, still including installing the injection structure inside interior pole, the injection structure includes holding vessel and injector head, be provided with on the injection head and press the clamp plate, still rotate on the interior pole and be equipped with and rotate the cover, it is provided with the jet orifice and the pressure hole that supply injection head and clamp plate to expose simultaneously to rotate to sheathe in.

Compared with the prior art, the telescopic sliding ball unlocking tactical baton provided by the embodiment of the invention has the beneficial effects that: by adopting the baton, when a security task needs to be executed, the elastic reset piece is compressed and stores energy through the sliding of the sliding ring, the pushing part can move away from the hole opening position of the guide hole due to the sliding of the sliding ring, so that the limit locking of the inner rod and the outer rod is unlocked, then the inner rod is pulled, the limit piece can be guided out of the limit groove by pulling the inner rod, so that the inner rod can stretch out and draw back, after the pulling is in place, the sliding ring is loosened, the sliding ring can push the limit piece under the action of the elastic reset piece, the limit piece is inserted into the guide hole again and is inserted into the corresponding limit groove, and the sliding ring can stop the limit piece in the guide hole, so that the hoop locking of the inner rod and the outer rod is realized. The baton has fewer hoop structure fittings and simple structure, and greatly reduces the manufacturing cost of the baton; the structure makes the inner rod completely hollow, and can be used for placing various tactical accessories. In addition, due to the locking effect of the hoop of the sliding ring, the inner rod and the outer rod are compact in structure and small in shaking when in use, the strength is high, the striking performance of the telescopic spontoon is improved, the service life of the telescopic spontoon is prolonged, and the condition that the spontoon is damaged easily is avoided.

Drawings

FIG. 1 is a schematic view of the overall structure of a telescopic sliding ball unlocking tactical baton according to an embodiment of the present invention;

FIG. 2 is a schematic view of the overall structure of a telescopic sliding ball unlocking tactical baton according to the embodiment of the invention;

fig. 3 is a schematic view of a guide hole of a telescopic sliding ball unlocking tactical baton of an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a cross-sectional schematic view of a hoop structure of a telescoping sliding ball unlocking tactical baton with an embodiment of the present invention;

FIG. 6 is an enlarged schematic view of the hoop structure of FIG. 5;

fig. 7 is a partially enlarged view at B in fig. 6.

In the figure, 1-outer rod, 2-inner rod, 3-hoop structure, 301-annular seat, 302-guide hole, 303-limiting piece, 304-sliding ring, 305-stopping piece, 306-limiting groove, 307-elastic resetting piece, 308-pushing piece, 309-avoiding groove, 310-first guide surface, 311-second guide surface, 4-pressing plate, 5-rotating sleeve and 6-spray head.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 7, a telescopic sliding ball unlocking tactical baton (hereinafter, referred to as baton) according to a preferred embodiment of the present invention. The baton comprises an outer rod 1 and an inner rod 2 which are sleeved together, the outer rod 1 and the inner rod 2 are stretched, limited and fixed through a hoop structure 3, and the hoop structure 3 comprises an annular seat 301 sleeved on the outer periphery of the inner rod 2 and a sliding ring 304 assembled on the outer periphery of the annular seat 301 in a sliding manner;

the annular seat 301 is fixedly connected with the end part of the outer rod 1, which is used for extending the inner rod 2, the annular seat 301 is provided with a guide hole 302, a limiting piece 303 is assembled in the guide hole 302 in a sliding manner, and the peripheral side of the inner rod 2 is provided with a limiting groove 306 for inserting the limiting piece 303 so as to limit the relative sliding of the inner rod 2 and the outer rod 1;

the sliding ring 304 is provided with a pushing portion 308 and an avoiding groove 309, the pushing portion 308 is used for stopping the limiting member 303 in the guide hole 302 to lock the insertion of the limiting member 303 and the limiting groove 306, and the avoiding groove 309 is used for inserting the limiting member 303 to unlock and separate the limiting member 303 and the limiting groove 306;

the hoop structure 3 further includes an elastic restoring member 307 and a stopping portion 305, wherein the elastic restoring member 307 is configured to apply a restoring force to the sliding ring 304, and the stopping portion 305 is configured to stop the sliding ring 304 under the elastic restoring member 307, so that the pushing portion 308 is at a corresponding position for stopping the limiting member 303 in the guiding hole 302 in a natural state.

Specifically, the baton in this embodiment includes that interior pole 2 and outer pole 1 that the cover was established together, and interior pole 2 sets up the inboard at outer pole 1. The inner rod 2 constitutes the striking rod of the baton in this embodiment and the outer rod 1 constitutes the grip rod of the baton in this embodiment. In this embodiment, the inner rod 2 and the outer rod 1 are both hollow structures. The hollow structure in the outer rod 1 is used for inserting the inner rod 2, and the hollow structure of the inner rod 2 is used for installing a spraying structure and an illuminating structure. In the embodiment, the inner rod 2 and the outer rod 1 are locked and limited in a telescopic manner through the hoop structure 3.

The hoop structure 3 in this embodiment comprises an annular seat 301 and a sliding ring 304, as shown in fig. 6, the annular seat 301 is in a stepped tubular shape, and the annular seat 301 comprises a large diameter section with a larger diameter and a small diameter section with a smaller diameter, and a stepped surface is formed between the large diameter section and the small diameter section. Annular seat 301 and outer pole 1 fixed connection in this embodiment, it is concrete, annular seat 301 is used for supplying the one end that interior pole 2 stretches out with outer pole 1 to be connected, and the fixed connection mode is threaded connection, and the inboard of annular seat 301 major diameter section is provided with the internal thread, and the periphery side of outer pole 1 is provided with the external screw thread with annular seat 301 major diameter section screw assembly. The inner hole of the annular seat 301 in this embodiment is used for the inner rod 2 to slide in a telescopic manner, and in other embodiments, the annular seat 301 may also be integrally arranged with the outer rod 1, that is, the end of the outer rod 1, which is used for the inner rod 2 to extend out, is in a stepped tubular shape.

In this embodiment, the stopping portion 305 is a stopping ring, the stopping portion 305 is screw-assembled on the small diameter section of the annular seat 301, the stopping portion 305 and the stepped surface of the annular seat 301 are arranged at a certain interval, and the specific stopping portion 305 is screw-assembled on one end of the annular seat 301 for extending the inner rod 2.

In this embodiment, the sliding ring 304 is sleeved on the outer periphery of the annular seat 301, specifically, two sides of the sliding ring 304 are respectively slidably assembled on the outer periphery of the large-diameter section of the annular seat 301 and the outer periphery of the stop portion 305, and due to the arrangement of the stepped surface and the stop portion 305, a circle of annular space is formed between the sliding ring 304 and the small-diameter section of the annular seat 301. In this embodiment, the sliding ring 304 is provided with an avoiding groove 309 and a pushing portion 308, the pushing portion 308 is a ring-shaped protruding structure disposed on the inner side wall of the sliding ring 304, the pushing portion 308 is located in the annular space (i.e., located between the stepped surface and the stopping portion 305), and the pushing portion 308 divides the annular space into an annular cavity and the avoiding groove 309. In this embodiment, the elastic resetting member 307 is elastic, the elastic resetting member 307 is sleeved on the outer peripheral side of the small diameter section of the annular seat 301, and is specifically arranged in a portion (i.e., an annular cavity) between the pushing portion 308 and the stepped surface of the annular seat 301, one end of the elastic resetting member 307 is pushed against the stepped surface, and the other end of the elastic resetting member 307 is pushed against the side surface of the pushing portion 308. The elastic restoring member 307 is naturally compressed, that is, the elastic restoring member 307 applies a restoring force to the pushing portion 308 toward one side of the stopping portion 305, and the stopping portion 305 stops the other side of the pushing portion 308, so as to limit the sliding ring 304 to the position shown in fig. 6, that is, the pushing portion 308 and the stopping portion 305 are in pressing contact, at this time, the space of the annular cavity is at a maximum, and the space of the avoiding groove 309 is at a minimum.

In order to realize the telescopic locking and limiting of the inner rod 2 and the outer rod 1, a plurality of guide holes 302 are further disposed on the sidewall of the annular seat 301 in this embodiment, specifically, as shown in fig. 4, each guide hole 302 is specifically disposed on the small-diameter section of the annular seat 301 and is distributed at equal intervals along the outer peripheral side of the small-diameter section, and in this embodiment, 5 guide holes 302 are disposed. Each guide hole 302 extends along the radial direction of the annular seat 301, and a limiting member 303 is slidably mounted in each guide hole 302, and each limiting member 303 can slide in the corresponding guide hole 302. In this embodiment, a limiting groove 306 is further disposed on the outer peripheral side of the inner rod 2, and the limiting groove 306 is a ring of annular limiting groove 306 disposed on the outer peripheral side of the inner rod 2. In the using process of the baton, one part of each limiting part 303 can be inserted into the limiting groove 306, and one part of each limiting part 303 is located in the guide hole 302, and at the moment, the limiting parts 303 can play a role of bolts, so that the locking and limiting of the inner rod 2 and the annular seat 301 are realized, and the locking and limiting of the inner rod 2 and the outer rod 1 are further realized. It should be noted that, in the present embodiment, the position of the outer hole of each guide hole 302 corresponds to the pushing portion 308, specifically, when the pushing portion 308 is in a natural state, i.e., the position shown in fig. 6, the pushing portion 308 and the stopping portion 305 are in pressing contact, and the outer hole of each guide hole 302 is disposed inside the pushing portion 308 when the pushing portion 308 is in this position. At this time, due to the plugging of the pushing portion 308 to the outer opening of the guide hole 302, each of the position-limiting members 303 is blocked and limited in each of the guide holes 302, thereby realizing the card-insertion locking of the position-limiting members 303 and the corresponding position-limiting grooves 306. Because the inner rod 2 needs to be limited and locked at the position where the inner rod 2 is retracted into the outer rod 1 and at the position where the inner rod 2 is pulled out from the outer rod 1, correspondingly, in this embodiment, two limiting grooves 306 are disposed on the outer peripheral side of the inner rod 2, and the two limiting grooves 306 are respectively located at the two end positions of the inner rod 2, as shown in fig. 5 and 6.

In the embodiment, the pushing portion 308 and/or the limiting member 303 are/is provided with a first guiding surface 310, and the first guiding surface 310 is used for converting the sliding motion of the sliding ring 304 into an acting force for driving the limiting member 303 to move towards the limiting groove 306. The limiting groove 306 and/or the limiting member 303 are further provided with a second guiding surface 311, and the second guiding surface 311 is used for guiding the limiting member 303 out of the limiting groove 306 when the inner rod 2 and the outer rod 1 slide relatively. Specifically, as shown in fig. 7, in the present embodiment, the first guide surface 310 is an inclined guide surface provided on the pushing portion 308, the inclined guide surface is provided on the pushing portion 308 to face the side of the stopping portion 305, and when the pushing portion 308 slides from left to right (i.e. from the side of the stepped surface to the side of the stopping portion 305), the first guide surface 310 converts the acting force applied by the elastic restoring member 307 on the sliding ring 304 into an acting force that drives the limiting member 303 to slide inwards, so as to avoid the problem that the pushing portion 308 cannot continue to slide rightwards due to the pushing portion 308 and the limiting member 303 being blocked from each other. In this embodiment, the cross section of the limiting groove 306 is C-shaped, that is, the inner side walls of the limiting groove 306 are smooth curved surfaces, and the second guiding surface 311 is integrally formed on the smooth curved surface of the limiting groove 306, so that when the inner rod 2 is pulled, due to the guiding effect of the curved surfaces, each limiting member 303 is easily separated from the limiting groove 306 and retracts into the guiding hole 302, thereby releasing the limit lock of the inner rod 2 and facilitating the pulling of the inner rod 2. In this embodiment, in order to further enhance the driving effect of the limiting member 303, the limiting member 303 in this embodiment is a ball, and since the outer surface of the ball is a curved surface, when the ball receives a lateral acting force, a force component effect pointing to the center of the ball is naturally generated, so as to improve the reciprocating driving effect of the ball in the guide hole 302. In other embodiments, the limiting member 303 may also be a cylinder with curved surfaces at two ends, or a shuttle with a wedge-shaped end.

In this embodiment, the inner rod 2 further includes a spraying structure and an illuminating structure, and the spraying structure is used for spraying chili water. In this embodiment, the injection structure is installed at one end of the inner rod 2 facing the outer rod 1, and the illumination structure is installed at the other end. Specifically, spray structure includes holding vessel and injector head 6 in this embodiment, and the storage has the hot pepper water in the holding vessel, and the overall structure and the principle of holding vessel and injector head 6 are similar to common nebula or spray can, and holding vessel and injector head 6 are all fixed in the inside cavity of interior pole 2, still are provided with pressing plate 4 on the injector head 6, can realize realizing the blowout of hot pepper water through pushing down pressing plate 4. The inner rod 2 is provided with a through hole for exposing the nozzle of the nozzle 6 and the pressing plate 4. In this embodiment, the inner rod 2 is further rotatably assembled with a rotating sleeve 5, the rotating sleeve 5 is provided with an injection hole and a pressing hole, when pepper water is required to be injected, the rotating sleeve 5 is rotated to set the direction, at this time, the nozzle of the injection head 6 is exposed from the injection hole, the pressing plate 4 is exposed from the pressing hole, and then the pressing plate 4 is pressed downwards. When hot pepper water does not need to be sprayed, the rotating sleeve 5 rotates again, the spray holes can rotate away from the nozzles of the spray head 6, and the pressing holes can also rotate away from the pressing plate 4, so that the spray head 6 and the pressing plate 4 are hidden, and the condition that hot pepper water is sprayed due to misoperation is avoided. In this embodiment, the illumination structure is a common illumination flashlight, and the inner rod 2 is provided with a button for starting the illumination structure.

The working process of the invention is as follows: before security personnel perform official business, the inner rod 2 is retracted into the outer rod 1, specifically as shown in fig. 6, at this time, the elastic reset piece 307 applies an acting force to the pushing portion 308 of the sliding ring 304, the pushing portion 308 contacts with the stopping portion 305, the pushing portion 308 stops each limiting member 303 at the outer hole of each guiding hole 302, the inner side of each limiting member 303 is inserted into the limiting groove 306 (the limiting groove 306 is the limiting groove 306 arranged at one side of the lighting structure) due to the fact that each limiting member 303 is limited in the guiding hole 302, and therefore the limiting locking of the inner rod 2 and the outer rod 1 is achieved, and the inner rod 2 is prevented from freely extending out of the outer rod 1.

When public affairs need to be executed, the inner rod 2 needs to be pulled out from the outer rod 1, at this time, security personnel needs to press down the sliding ring 304, the sliding ring 304 compresses the elastic resetting piece 307 in the pressing-down process, so that self-energy storage of the elastic resetting piece 307 is realized, the pressing-down movement of the sliding ring 304 drives the pushing portion 308 to slide towards one side of the stepped surface, so that the outer orifices of the guide holes 302 are unblocked, an avoiding groove 309 is formed at the outer orifices of the guide holes 302, the avoiding groove 309 is surrounded by the pushing portion 308, the stopping portion 305 and the side wall of the sliding ring 304 facing one side of the stopping portion 305, and then, by pulling the inner rod 2, each limiting piece 303 is pushed into each guide hole 302 under the action of the second guide surface 311, so that the inner rod 2 is pulled. At this time, the outer side of each limiting member 303 is inserted into the avoiding groove 309, and each limiting member 303 is not separated from the baton due to the stopping and limiting actions of the pushing portion 308, the stopping portion 305, and the side wall of the sliding ring 304.

After the limiting groove 306 on the other side of the inner rod 2 (the limiting groove 306 is the limiting groove 306 arranged on one side of the injection structure) is drawn to the position corresponding to each guide hole 302, then the sliding ring 304 is released, the sliding ring 304 slides to one side of the stopping portion 305 under the action of the elastic restoring member 307, during the sliding process, the first guiding surface 310 will push the limiting member 303 into the guide hole 302, the inner side of the limiting member 303 will be inserted into the limiting groove 306, and the pushing portion 308 will re-block the outer hole of each guide hole 302, so that each limiting member 303 is clamped on the outer peripheral side of the inner rod 2, and the limiting locking of the inner rod 2 and the outer rod 1 is realized again.

When needing to spray hot pepper water among the implementation, through rotatory rotating sleeve 5, then press down pressing plate 4 can, when needs illumination, through pressing down the button on interior pole 2 can. After the official business is finished, the inner rod 2 can be retracted into the outer rod 1 by pressing the sliding ring 304 again.

The baton has fewer hoop structure fittings and simple structure, and greatly reduces the manufacturing cost of the baton; the structure makes the inner rod completely hollow, and can be used for placing various tactical accessories. In addition, due to the locking effect of the hoop of the sliding ring, the inner rod and the outer rod are compact in structure and small in shaking when in use, the strength is high, the striking performance of the telescopic spontoon is improved, the service life of the telescopic spontoon is prolonged, and the condition that the spontoon is damaged easily is avoided.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and substitutions can be made without departing from the technical principle of the present invention, and these modifications and substitutions should also be regarded as the protection scope of the present invention.