The present disclosure relates to the technical field of security equipment, and in particular to a quick-release adapter.
An important law enforcement manner of the policeman and other security personnel is to wear a gun, so it is very important to place the gun. The modern holster basically should be convenient to carry, not affect the action of the user, and be simply, conveniently and quickly putted on and off.
The holster mostly designs a mounting guide rail for holster accessories. Using a connector of the guide rail for the holster accessories, the gun can be easily putted in and taken out of the holster along the guide rail. However, the existing holster generally is common leather or polystyrene and is designed too simply so as to only protect the gun, but not protect a switch of the gun, and when putting on the holster, the user cannot randomly move. When a user puts on a holster with a gun, such holster may affect the action of the user. Moreover, as the holster is a functional part, the user cannot take out and put in the gun by any angles unless following the guide rail of the holster, which is inconvenient to use. Moreover, the user needs to load the gun by double hands after taking out the gun, which is not beneficial to quick use.
Therefore, it is an emergent technical problem how to provide a functional part mounting device which can be conveniently and quickly mounted and detached and has high stability and safety in the prior art.
An objective of the present disclosure is to provide a quick-release adapter to solve the technical problem that it is lack of a functional part mounting device which can be conveniently and quickly mounted and detached and has high stability and safety in the prior art.
To achieve the objective above, the present disclosure provides a quick-release adapter, comprising a quick-release part and a functional part.
The quick-release part comprises a fixing part and a regulating part. The regulating part is engaged with or detached and separated from the fixing part through a chute.
The U-shaped chute is formed in the fixing part and located in three sides of a chute surface of the fixing part to form a U-shaped structure.
The regulating part slides into the fixing part along the chute to form an engaged quick-release part.
The functional part is fixed to a functional mounting surface of the regulating part through a rotating mechanism. The functional part rotates around the rotating mechanism. Further, the rotating mechanism comprises rotation holes, a regulating rod, a rotation, fixing disc and a rotation limiting disc. The regulating rod passes through the rotation holes of the regulating part and the functional part to fasten the regulating part and the functional part. The functional part is limited through the matching of the rotation limiting disc on the functional part and the rotation fixing disc on the regulating part.
Optionally, the rotation fixing disc and the rotation limiting disc are gears with protruded teeth. A groove is arranged between every two adjacent protruded teeth. The groove and the protruded teeth are matched with each other. After the regulating rod is loosened, the protruded teeth of the rotation limiting disc are loosened from the grooves of the rotation fixing disc to regulate the position of the rotation limiting disc.
Optionally, the rotation fixing disc is equipped with at least two limiting holes in, the periphery of the rotation hole. The rotation limiting disc is equipped with limiting bulges at positions corresponding to the limiting holes. The limiting bulges match with the limiting holes. Loosening the regulating rod, the limiting bulges of the rotation limiting disc are loosened from the limiting holes of the rotation fixing disc to regulate the position of the rotation limiting disc.
Optionally, an arc rotation slot is formed in the rotating mechanism on the regulating part. The functional part is engaged in the arc rotation slot.
Optionally, a rotation control button and a rotation control rod are arranged on the rotating mechanism on the regulating part. The rotation control rod is connected with the rotating mechanism on the regulating part to drive a rotary plate to rotate. The rotation control button is connected with the rotation control rod and controls the rotation control rod to move or stop.
Optionally, the quick-release adapter further comprises a supporting part. The supporting part comprises a quick-release part supporting surface and a quick-release part limiting protruded disc. The quick-release part limiting protruded disc and the quick-release part supporting surface form a step structure. The quick-release part limiting protruded disc is attached with the fixing part to fix the fixing part to the supporting part.
Optionally, the fixing part comprises a latching groove located in one side of the U-shaped structure.
The regulating part comprises a latch. The latch is located at a position, corresponding to the latching groove, of a side of the regulating part.
Optionally, the latch is elastic and has a slope towards a bottom side of a U-shaped groove. After the latch slides into the latching groove, a latching side face of the latch relative to the slope is engaged with the latching groove. After the latch is pressed down, the latching side face slides out of the latching groove such that the engagement of the fixing part and the regulating part is released.
The quick-release adapter of the present disclosure achieves the following beneficial effects:
(1) According to the quick-release adapter of the present disclosure, the fixing part is engaged with and detached from the regulating part through the chute such that the functional part fixed to the regulating part can be quickly and stably mounted at the fixing part to achieve quick mounting and detachment of the functional part. The fixing part and the regulating part can be detached and assembled to achieve a random replacement function of different functional parts on a wearable belt and to improve the mounting and carrying flexibility of the functional part.
(2) According to the quick-release adapter of the present disclosure, the functional part is detachably mounted at a fixing part of the supporting part through the supporting part and the quick-release part. The functional part can be quickly and safely mounted and detached through the quick-release part. A user can mount and detach the functional part by multiple angles. Therefore, the user can conveniently use the functional part, and the safety and the stability of the functional part during mounting and detaching are improved.
To describe the technical solutions in the embodiments of the present disclosure or in the prior art more clearly, the following briefly describes the accompanying drawings required for describing the embodiments or the prior art. Apparently, the accompanying drawings in the following description show some embodiments of the present disclosure, and persons skilled in the art may still derive other drawings from these accompanying drawings.
The technical solutions of the embodiments of the present application are clearly and completely described below with reference to the accompanying drawings of the embodiments of the present application. Apparently, the described embodiments are some rather than all of the embodiments of the present application. All other embodiments obtained by persons skilled in the art based on the embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure.
As shown in
The quick-release part 101 comprises a fixing part 111 and a regulating part 112. The regulating part 112 is engaged with or detached and separated from the fixing part 111 through a chute 113.
The fixing part 111 comprises the chute 113 and a latching groove 114. The chute 113 is U-shaped and located in three sides of a chute surface of the fixing part to form a U-shaped structure. The U-shaped structure comprises side slots in two sides and a bottom side slot in a bottom side. The latching groove 114 is located in one side of the U-shaped structure and is used for matching with a latch of the regulating part to limit the regulating part to the interior of the fixing part so as to prevent the regulating part from dropping off.
The regulating part 112 comprises a fixing part attaching surface 115, a functional part mounting surface 116 and a latch 117. The functional part mounting surface 116 and the fixing part attaching surface 115 are arranged back to back. The latch 117 is located in a position, corresponding to the latching groove, of a side of the regulating part. The regulating part slides into the fixing part along the chute to form an engaged quick-release part. The regulating part slides out of the fixing part along the chute to achieve detachment of the quick-release part.
The functional part 102 is fixed to the functional mounting surface 116 of the regulating part through a rotating mechanism. The functional part rotates around the rotating mechanism. Optionally, the functional part, may be a holster or accessories fitting for the quick-release part, such as a flashlight pouch, a truncheon pouch, a handcuff pouch, an expandable baton pouch, a pepper spray pouch and the like.
The regulating part of the quick-release part slides into the chute of the fixing part to achieve its quick wearing function, meanwhile, the latch is engaged in the latching groove of the chute such that the regulating part cannot easily slide away the fixing part. When the regulating part needs to be detached from the functional part, the regulating part can be pulled out after the latch is pressed down so as to achieve a quick release function of the regulating part attaching with the functional part.
The rotating mechanism 201 comprises rotation holes 211, a regulating rod, a rotation fixing disc 213 and a rotation limiting disc 214. The regulating rod passes through the rotation holes 211 of the regulating part and the functional part to fasten the regulating part and the functional part. The regulating rod may be a thumbscrew which can limit the functional part through the matching of the rotation limiting disc on the functional part and the rotation fixing disc on the regulating part by regulating the fastening degree of the regulating part and the functional part to cause that the functional part cannot rotate. After the regulating rod is loosened, the matching between rotation limiting disc on the functional part and the rotation fixing disc on the regulating part is, loosened such that the functional part can rotate. Optionally, as shown in
In some optional embodiments, as shown in
In some optional embodiments, an arc rotation slot 217 is formed in the rotating mechanism 201 on the regulating part 112. The functional part 102 is engaged in the arc rotation slot 217.
In some optional embodiments, as shown in
In some optional embodiments, as shown in
In some optional embodiments, as shown in
In some optional embodiments, as shown in
In some optional embodiments, as shown in
Although the preferred embodiments of the present disclosure have been described, persons skilled in the art can make additional changes and modifications to these embodiments once they learn the basic inventive concepts. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments and all changes and modifications that fall within the scope of the present disclosure. Obviously, persons skilled in the art can make various modifications and variations to the present disclosure without departing from the spirit and scope of the present disclosure. In this way, if these modifications and variations of the present disclosure belong to the scope of the claims of the present disclosure and its equivalent technology, the present disclosure is intended to include these modifications and variations.
Number | Date | Country | Kind |
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201920875913.6 | Jun 2019 | CN | national |
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Number | Date | Country | |
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20200232757 A1 | Jul 2020 | US |