CN113819800B - Intelligent holster and intelligent holster assembly communication method - Google Patents

Abstract

The invention discloses an intelligent holster and an intelligent holster assembly communication method, wherein the intelligent holster comprises a holster body, a detection module is arranged on the side wall of the holster body, a limiting ring is hinged at a muzzle of the holster body, a torsion spring is arranged in one supporting leg of the limiting ring, a limiting notch is formed in the edge of the other supporting leg of the limiting ring, and the detection module comprises a first switch, a second switch, a first button, a second button and a wireless communication unit. The beneficial effects of the invention are as follows: the operation of starting the recorder and uploading the image data, which is originally executed by a user, is transferred to the gun sleeve, the gun sleeve triggers the generation of a command by the mechanical action of the gun sleeve, and the gun sleeve sends the command to the recorder through the wireless communication unit, so that the follow-up information transmission and control are completed.

Description

Intelligent holster and intelligent holster assembly communication method

Technical Field

The invention relates to the technical field of gun matching, in particular to an intelligent gun holster and an intelligent gun holster assembly communication method.

Background

Police officers' gun allocation is typically equipped with a holster for receiving and holding the firearm, and a recorder corresponding thereto, which is turned on by the bearer during the duty cycle for recording for subsequent investigation.

The recorder in the related art is realized by manual operation, and under the emergency, police staff can not reach or forget to open the recorder, so that the data of the event is often not recorded or stored in time, and the development of the follow-up investigation is inconvenient.

Disclosure of Invention

Aiming at the problems, the invention provides an intelligent holster and an intelligent holster component communication method, which mainly solve the problem that police staff cannot reach or forget to open a recorder in emergency.

In order to solve the technical problems, the technical scheme of the invention is as follows:

the utility model provides an intelligent holster, includes the holster body, detection module is installed to the lateral wall of holster body, holster body pulls out muzzle department and articulates there is the spacing ring, one of them supporting legs internally mounted of spacing ring has the torsional spring, another supporting leg edge of spacing ring is provided with spacing notch, detection module includes first switch, second switch, first button, second button and wireless communication unit, first switch installs the inner wall at first installation zone, one of them side of first button be provided with first extension that first switch matches, the opposite side of first button be provided with spacing notch matched first spacing portion, just first button keep away from first switch's one end has just connect the press end, first button with be equipped with first spring between first installation zone's the inner wall, second switch installs the inner wall at second installation zone, one of which side of second button be provided with second extension that the second switch matches, and second button extension is provided with the second extension towards the second extension of first button, second button extension towards the inside contact between the second body forms the second extension towards the fixed part of second holster body.

The first switch continuously detects whether the first button is in a pressing state, if so, the wireless communication unit generates a first command and sends the first command to the recorder, the first command is used for triggering the recorder to start a shooting function, the second switch continuously detects whether the second button is in the pressing state, if not, the wireless communication unit generates a second command and sends the second command to the recorder, and the second command is used for triggering the image data stored by the recorder to be synchronously uploaded to a general control information platform.

In some embodiments, the second command is further used for triggering the recorder to generate a third command and sending the third command to the total control information platform, the third command is used for triggering the total control information platform to transmit back a query command, and the query command is used for calling an action track of the recorder before triggering the second command.

In some embodiments, before the master control information platform invokes the action track, the method further includes the step of analyzing the action track by the recorder, and sending positioning data of which the residence time in the action track exceeds a preset threshold to the master control information platform.

In some embodiments, the positioning data is synchronously transmitted to the smart holster for storage.

In some embodiments, the recorder extracts key image data in the residence time corresponding to the positioning data, intercepts all the portrait data appearing in the key image data, and transmits the portrait data to the general control information platform.

In some embodiments, the portrait data is synchronously sent to the smart holster for storage.

In some embodiments, the second command is further used for triggering the recorder to generate a fourth command and sending the fourth command to the total control information platform, the fourth command is used for triggering the total control information platform to send alarm information to all recorders with preset authority in the same area, the alarm information comprises event description, and satellite positioning of the recorder when the second command is triggered.

In some embodiments, the second command is further configured to trigger the recorder to detect in real time whether a holding gun action exists in the image data, if yes, intercept a portrait existing in the image data currently, define the portrait as important portrait data, and transmit the important portrait data to the general control information platform.

In some embodiments, the emphasized figure data is synchronously sent to the intelligent holster for storage.

The beneficial effects of the invention are as follows: the invention transfers the operation of starting the recorder and uploading the image data, which is originally executed by a user, to a gun holster, and generates a trigger command by the mechanical action of the gun holster, and the gun holster sends the command to the recorder through a wireless communication unit to complete the subsequent information transmission and control.

Drawings

Fig. 1 is a schematic structural view 1 of a smart holster according to an embodiment of the present disclosure;

fig. 2 is a schematic structural view 2 of a smart holster according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram illustrating an internal structure of a detection module according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a second button according to an embodiment of the present invention;

FIG. 5 is a schematic view of a cut-away configuration of a smart holster according to an embodiment of the present disclosure;

wherein: the gun case comprises a 1-gun case body, a 2-detection module, a 3-limiting ring, a 4-torsion spring, a 11-second limiting part, a 12-third limiting part, a 21-first switch, a 22-second switch, a 23-first button, a 24-second button, a 25-wireless communication unit, a 26-first installation area, a 27-second installation area, a 231-first extending part, a 232-first limiting part, a 233-pressing end, a 234-first spring, a 241-second extending part, a 242-contact part and a 243-second spring.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

As used in this specification and the appended claims, the term "if" may be interpreted as "when..once" or "in response to a determination" or "in response to detection" depending on the context. Similarly, the phrase "if a determination" or "if a [ described condition or event ] is detected" may be interpreted in the context of meaning "upon determination" or "in response to determination" or "upon detection of a [ described condition or event ]" or "in response to detection of a [ described condition or event ]".

The embodiment of the invention discloses an intelligent gun holster and an intelligent gun holster component communication method, which can start a shooting function of a recorder according to a gun holster state, synchronously upload image data stored by the recorder to a general control information platform, ensure timeliness and integrity of data shooting and recording, and facilitate a background to know event progress in time and conduct command control. The following will describe in detail.

Example 1

The embodiment proposes an intelligent gun holster, as shown in fig. 1-5, the intelligent gun holster comprises a gun holster body 1, a detection module 2 is installed on the side wall of the gun holster body 1, a limiting ring 3 is hinged at the gun muzzle of the gun holster body 1, a torsion spring 4 is installed inside one supporting leg of the limiting ring 3, a limiting notch 31 is formed in the edge of the other supporting leg of the limiting ring 3, the detection module 2 comprises a first switch 21, a second switch 22, a first button 23, a second button 24 and a wireless communication unit 25, the first switch 21 is installed on the inner wall of the first installation area 26, a first extension 231 matched with the first switch 21 is arranged on one side of the first button 23, a first limiting part 232 matched with the limiting notch 31 is arranged on the other side of the first button 23, one end of the first button 23, a pressing end 233 is just connected to one end of the first switch 21, a first spring 234 is arranged between the first button 23 and the inner wall of the first installation area 26, the second switch 22 is installed on the inner wall of the second installation area 27, a second switch 241 is installed on one side of the second button 24, a second extension 241 is arranged on the other side of the second button 24, a second extension part 241 is matched with the second extension part 241 of the first extension part of the first button 24 is arranged deep into the second extension part 11, and is in contact with the second extension part 11 of the second extension part 11, and is further extended into the extension part 11 of the second extension part of the body 1, and is formed into the extension part, and is extended into the extension part of the extension part 1. As can be seen from fig. 3, the first button 23 and the second button 24 are mounted on the first mounting region 26 and the second mounting region 27, respectively, by providing through slot-shaped latch holes on the surfaces thereof, and therefore the push switch can perform a certain degree of linear movement by the double restriction of the slot-shaped latch holes and the mounting regions.

The first switch 21 and the second switch 22 may be any type of detection unit, and may be any detection unit capable of detecting mechanical actions, and in this embodiment, the first switch 21 and the second switch 22 are optional groove-type photoelectric switches, which have high reliability and are suitable for detecting high-speed changes.

In this embodiment, the first switch 21 and the first button 23 mainly form a first layer detection structure, the signal obtained by the first switch 21 is used as a trigger signal for starting the shooting function of the recorder, the second switch 22 and the second button 24 form a second layer detection structure, and the signal obtained by the second switch 22 is used as a trigger signal for uploading the image data stored by the recorder to the general control information platform. In general, the present invention transfers the operations of starting the recorder and uploading the image data, which should be performed by the user, to the holster, and triggers the generation of a command by the mechanical action of the holster, which sends the command to the recorder through the wireless communication unit 25, completing the subsequent information transmission and control.

Optionally, a third limiting part 12 for limiting the contact part 242 to continue to pop out is fixedly installed in the holster body 1, and the third limiting part 12 is detachably installed at one end, far away from the detection module 2, of the holster body 1.

Further, the wireless communication unit 25 is a bluetooth module, has a two-way communication function, and is intended to perform data transmission with the recorder in a short distance, and it should be understood that the recorder also has bluetooth hardware for communication with the bluetooth module.

Opening the first layer detection structure: the pressing end 233 is pressed downwards, the first limiting part 232 simultaneously moves downwards to be separated from the limiting notch 31, the limiting ring 3 rotates upwards under the action of the torsion spring 4, the gun can be pulled out outwards without being limited by the limiting ring 3, the first extending part 231 enters the detection port of the first switch 21, and the wireless communication unit 25 generates a first command and sends the first command to the recorder; the first spring 234 continuously gives the upward pushing force to the first button 23, and if the stop collar 3 returns to the locking position under the action of the external force, the first stop portion 232 can reenter the stop notch 31 to complete locking.

Opening a second layer detection structure: after the firearm is drawn out, the contact portion 242, which is originally pressed down by the trigger guard, moves upward under the resilience of the second spring 243, and in conjunction with this, the second extension portion 241, which is just connected to the contact portion 242, moves upward, the second extension portion 241 withdraws from the second switch 22, and the wireless communication unit 25 generates a second command and sends it to the recorder.

The closing of the first layer detection structure and the second layer detection structure is the reverse operation of the opening process, and will not be described herein.

Example two

A communication method of an intelligent holster assembly is disclosed in the first embodiment, wherein the first switch 21 continuously detects whether the first button 23 is in a pressed state, if yes, the wireless communication unit 25 generates a first command and sends the first command to the recorder, the first command is used for triggering the recorder to start a shooting function, the second switch 22 continuously detects whether the second button 24 is in a pressed state, if not, the wireless communication unit 25 generates a second command and sends the second command to the recorder, the second command is used for triggering the image data stored by the recorder to be synchronously uploaded to a general control information platform, and the gun is prompted to leave the holster.

In this embodiment, the mechanical action of the holster triggers the generation of the first command and the second command respectively, and controls the operation of the recorder according to the commands, so as to avoid that the user forgets to open the recorder for recording under high-risk conditions.

Example III

On the basis of the second embodiment, the second command is further used for triggering the recorder to generate a third command and sending the third command to the total control information platform, the third command is used for triggering the total control information platform to return a query command, and the query command is used for calling the action track of the recorder before triggering the second command.

The invention aims to solve the problem of data transmission in a high-risk state, so in the embodiment, after a second command generated by a gun pulling out a gun holster is transmitted to a recorder, the second command is also used for triggering the recorder to generate a third command, the third command is transmitted (4G or 5G) to a general control information platform through a remote transmission module of the recorder, the general control information platform can automatically or manually return a query command, and the action track of the recorder is returned to the general control information platform within a period of time before the second command is generated. Thus, the master control information platform can grasp the action track of the recorder holder as soon as possible.

Before the master control information platform invokes the action track, the method further comprises the steps that the recorder analyzes the action track and sends positioning data of which the residence time in the action track exceeds a preset threshold (the preset threshold can be preset according to actual conditions, such as 5, 10 and 15 minutes) to the master control information platform. After the action track is analyzed by the recorder, the positioning data (coordinates) with overlong residence time are sent to the total control information platform, so that the integrity of key data is ensured, and the method can be used for reference of remote command.

More preferably, in consideration of the fact that the remote communication of the recorder is limited and is lost later under special conditions, the positioning data are synchronously transmitted to the intelligent gun holster for storage, so that the important data are further ensured not to be lost, and the attribute of the gun holster is ensured that the storage module of the gun holster is not too large, so that the important data, namely the positioning data, are selected for storage.

In consideration of the special significance behind long-time residence, the recorder extracts key image data in the residence time corresponding to the positioning data, intercepts all the portrait data appearing in the key image data, and transmits the portrait data to the general control information platform. The image data of the positioning data (coordinates) in the residence time is considered as key image data, and the appearing portrait is segmented and then returned to the key image data.

More preferably, in consideration of the fact that the remote communication of the recorder is limited and is lost later under special conditions, the portrait data are synchronously sent to the intelligent holster for storage, so that the important data are further ensured not to be lost, and the attribute of the holster is determined that the storage module of the holster is not too large, so that the important data, namely the portrait data, are selected for storage.

Example IV

On the basis of the second embodiment, the second command is further used for triggering the recorder to generate a fourth command and sending the fourth command to the master control information platform, the fourth command is used for triggering the master control information platform to send alarm information to all recorders with preset authority (the authority is only possessed by the recorders worn by users with event processing capability) in the same area, the alarm information comprises event description, and satellite positioning of the recorders is performed when the second command is triggered.

In this embodiment, the high-risk state represented by the second command may also trigger the recorder to generate the fourth command, and the fourth command must be transferred through the master control information platform to send alarm information to all recorders having preset authority in the same area, where the event description included in the alarm information generally refers to text information of the personnel involved in the high-risk state, and the satellite positioning of the recorder refers to a specific position of the personnel involved in the gun pulling when the second command is triggered.

Example five

On the basis of the second embodiment, the second command is also used for triggering the recorder to detect whether the flat held gun action exists in the image data in real time, if so, the figures existing in the current image data are intercepted, the figures are defined as important figure data, and the important figure data are transmitted to the general control information platform.

In this embodiment, the recorder continuously detects whether the image data has a holding gun action, if not, the user is considered to be in a standby state and is not processed, if so, the user is considered to be in an extremely dangerous state, and the images in the image are highly suspected, so that the images in the holding gun action image are divided and defined as important image data and transmitted to the general control information platform.

More preferably, in consideration of the fact that the remote communication of the recorder is limited and is lost later under special conditions, the important portrait data is synchronously sent to the intelligent holster for storage, so that the important data is further ensured not to be lost, and the attribute of the holster is determined that the storage module of the holster is not too large, so that the important portrait data is selected for storage.

The third to fifth embodiments are all improved on the basis of the second embodiment, and have no conflict in functions, and can be combined with each other to obtain a better scheme.

The above embodiments are only for illustrating the technical concept and features of the present invention, and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the essence of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The intelligent holster component communication method is characterized in that a first switch continuously detects whether a first button is in a pressing state, if so, a wireless communication unit generates a first command and sends the first command to a law enforcement recorder, the first command is used for triggering the law enforcement recorder to start a shooting function, a second switch continuously detects whether a second button is in the pressing state, if not, the wireless communication unit generates a second command and sends the second command to the law enforcement recorder, and the second command is used for triggering image data stored by the law enforcement recorder to be synchronously uploaded to a total control information platform;

the intelligent gun holster comprises a gun holster body, wherein a detection module is arranged on the side wall of the gun holster body, a limiting ring is hinged at the gun drawing opening of the gun holster body, a torsion spring is arranged in one supporting leg of the limiting ring, a limiting notch is formed in the edge of the other supporting leg of the limiting ring, the detection module comprises a first switch, a second switch, a first button, a second button and a wireless communication unit, the first switch is arranged on the inner wall of a first installation area, a first extension part matched with the first switch is arranged on one side of the first button, a first limiting part matched with the limiting notch is arranged on the other side of the first button, a pressing end is just connected to one end of the first button, which is far away from the first switch, a first spring is arranged between the first button and the inner wall of the first installation area, a second extension part matched with the second switch is arranged on one side of the second button, and the second extension part is in contact with the inner wall of the second installation area, and the second extension part is in the gun holster body, and the second extension part is in contact with the inner wall of the second extension part, and the second extension part is in contact with the inner extension part of the gun holster body, and the limiting part is formed;

a third limiting part for limiting the contact part to continuously pop up is fixedly arranged in the gun sleeve body, and the third limiting part is detachably arranged at one end, far away from the detection module, of the gun sleeve body;

opening the first layer detection structure: the pressing end is pressed downwards, the first limiting part simultaneously moves downwards to be separated from the limiting notch, the limiting ring rotates upwards under the action of the torsion spring, the gun can be pulled out outwards without being limited by the limiting ring, the first extending part enters the detection port of the first switch, and the wireless communication unit generates a first command and sends the first command to the law enforcement recorder; the first spring continuously gives upward pushing force to the first button;

opening a second layer detection structure: after the gun is drawn out, the contact part which is originally pressed down by the trigger guard ring moves upwards under the rebound action of the second spring, and the second extension part which is just connected with the contact part moves upwards, the second extension part withdraws from the second switch, and the wireless communication unit generates a second command and sends the second command to the law enforcement recorder.

2. The intelligent holster assembly communication method of claim 1, wherein the second command is further used to trigger the law enforcement recorder to generate a third command and send the third command to the master control information platform, the third command is used to trigger the master control information platform to return a query command, and the query command is used to invoke a movement track of the law enforcement recorder before triggering the second command.

3. The intelligent holster assembly communication method of claim 2, further comprising, before the master control information platform invokes the action trajectories, the law enforcement recorder parsing the action trajectories and sending positioning data of the action trajectories with residence time exceeding a preset threshold to the master control information platform.

4. The intelligent holster assembly communication method of claim 3, wherein the positioning data is synchronously transmitted to the intelligent holster for storage.

5. The intelligent holster assembly communication method of claim 3, wherein the law enforcement recorder extracts key image data within a residence time period corresponding to the positioning data, intercepts all portrait data appearing in the key image data, and transmits the portrait data to the general control information platform.

6. The intelligent holster assembly communication method of claim 5, wherein the portrait data is synchronously transmitted to the intelligent holster for storage.

7. The intelligent holster assembly communication method of claim 1, wherein the second command is further used to trigger the law enforcement recorder to generate a fourth command and send the fourth command to the master control information platform, the fourth command is used to trigger the master control information platform to send alarm information to all law enforcement recorders having preset authorities in a same zone, the alarm information includes an event description, and satellite positioning of the law enforcement recorder when the second command is triggered.

8. The intelligent holster assembly communication method of claim 1, wherein the second command is further used for triggering the law enforcement recorder to detect in real time whether a holding-up gun action exists in the image data, if yes, capturing a portrait existing in the image data currently, defining the portrait as key portrait data, and transmitting the key portrait data to the general control information platform.

9. The intelligent holster assembly communication method of claim 8, wherein the accent portrait data is synchronously transmitted to the intelligent holster for storage.