CN218305861U - Respirator backplate of integrated Mesh communication terminal - Google Patents

Abstract

A respirator back plate integrated with a Mesh communication terminal comprises a back plate body, wherein an independent back bearing system and an assembly component for fixing a self-contained positive pressure air respirator component are arranged on the back plate body; the Mesh communication terminal is characterized in that an assembly groove is formed in the surface of the back plate body, the back plate body is assembled with the Mesh communication terminal through the assembly groove, and signal enhancement antennas which are used for being assembled and connected with the Mesh communication terminal are arranged on two sides of the back plate body. The utility model discloses the integrated level is high, the stable performance, portable with do benefit to and realize the site operation, can effectively improve rescue personnel's rescue ability.

Description

Respirator backplate of integrated Mesh communication terminal

Technical Field

The utility model relates to an emergency rescue equipment technical field, concretely relates to respirator backplate at integrated Mesh communication terminal.

Background

In the prior art, an emergency communication network is usually arranged on the existing rescue site, particularly in natural disaster rescue sites such as fire disasters, to realize communication, generally, the emergency communication network is mainly composed of a centerless Mesh ad hoc network on the site, wherein the Mesh ad hoc network is connected by a same-frequency network, multi-hop relay is supported, each node can move randomly, the system topology can be quickly reconstructed when being changed quickly, a stable broadband communication link can be created between front-end rescue personnel and a field command department, real-time transmission of field data information is realized, and visual command and scheduling are realized.

The Mesh communication terminal is usually large in size and has a long and inconvenient antenna to store, a special tactical vest or other assembly structures are needed for assembly, and the extended antenna can be blocked in operation. The existing rescue equipment is usually configured in batches, the quantity and the types are more and mutually independent, the Mesh communication terminal of a single weapon end has the defect of inconvenience in carrying and use, great burden is brought to rescue workers, time is consumed for connection and conversion use among the equipment, the normal progress of rescue can be hindered, the rescue opportunity is sometimes even delayed, and irreparable life and property loss is caused.

The self-contained breathing auxiliary equipment (self-contained breathing apparatus) comprises a gas tank, a pressure reducer, a pipeline and other structural components, can be used for providing breathing safety guarantee for a user in a complex environment, is used as common rescue auxiliary equipment for rescuers in a dangerous environment, and can be used as a backpack assembly back plate for integrally assembling the components.

If can integrate above-mentioned individual soldier end Mesh communication terminal with the assembly backplate, will effectively reduce front end rescue personnel's burden, improve rescue operating efficiency, have realistic meaning.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an integrated Mesh communication terminal's respirator backplate, can be used to solve the defect in the above-mentioned technical background.

The utility model provides a technical problem adopt following technical scheme to realize:

a respirator back plate integrated with a Mesh communication terminal comprises a back plate body, wherein an independent back bearing system and an assembly component for fixing a self-contained positive pressure air respirator component are arranged on the back plate body; the assembly groove is formed in the plate surface of the back plate body, the back plate body is assembled with the Mesh communication terminal through the assembly groove, and the signal enhancement antennas which are connected with the Mesh communication terminal in an assembling mode are arranged on the two sides of the back plate body.

As a further limitation, the Mesh communication terminal is detachably assembled and connected in the assembling groove;

the assembly groove and the Mesh communication terminal are inserted and pre-fixed through a matched insertion structure, and a spring buckle matched with the insertion structure is arranged on the opposite side of the insertion structure to clamp and fix the pre-fixed Mesh communication terminal.

As a further limitation, the Mesh communication terminal comprises a separable host and a battery; and the battery is a rechargeable battery.

As a further limitation, the signal enhancing antenna is provided on the backplate body on both sides corresponding to the gas tank mounting position.

As a further limitation, the Mesh communication terminal is in communication connection with an earphone, a microphone and a camera in the helmet of the rescue worker, and performs audio and video input and output through the earphone, the microphone and the camera.

As a further limitation, the Mesh communication terminal is a wide-band and narrow-band integrated terminal and supports simultaneous loading of two waveforms, namely a wide band and a narrow band.

Has the advantages that: the utility model discloses an integrated Mesh communication terminal's respirator backplate integrates Mesh communication terminal and the backpack backplate that bears self-supporting formula malleation air respirator, can effectively improve equipment's integrated level, reduces equipment quantity and the kind that rescue personnel carried to through detachable construction's the flexibility that improves equipment used, when guaranteeing the use of equipping.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention.

Wherein: 1. a signal-enhancing antenna; 2. a gas tank; 3. a back plate body; 4. a rechargeable battery; 5. a second spring buckle; 6. a first spring catch; 7. a Mesh communication terminal host; 8. a signal indicator light; 9. a control button; 10. an expansion interface; 11. a WIFI antenna; 12. a first antenna connection line; 13. a second antenna connection line; 14. an antenna mounting base; 15. a harness threading hole; 16. an ear plate; 17. a cylinder valve.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.

Referring to fig. 1, a preferred embodiment of a respirator back plate integrated with a Mesh communication terminal is shown, in order to facilitate structural display, fig. 1 shows the back side of the respirator back plate, namely the back side of a rescuer. In this embodiment, backplate plate body 3 wholly is engineering plastics material integrated into one piece, its front side then is equipped with owing to carry out the assembly subassembly fixed to self-supporting formula malleation air respirator part, specifically include that the area hasp gas pitcher cassette of fixing is carried out to the gas pitcher, the pressure reducer is connected to the end of giving vent to anger of gas pitcher, pressure reducer end-to-end connection gas cylinder valve 17, breathing pipe is connected to gas cylinder valve 17, backplate plate body 3 has the pipeline storage tank in breathing pipe's the position reservation that connects out, and at breathing pipe end through connecting respirator or direct and asking for help personnel's special helmet be assembled between.

The back plate body 3 uses the double-shoulder straps as a carrying system, the upper part of the front side of the back plate body 3 is fixedly connected with the upper parts of the double-shoulder straps, the two sides of the lower part of the back plate body 3 are provided with ear plates 16 with strap passing holes 15, and the lower parts of the double-shoulder straps are passed in the strap passing holes 15, so that the back plate body can be carried after the length is adjusted.

In the embodiment, the Mesh communication terminal comprises a separable rechargeable battery 4 and a Mesh communication terminal host 7, the corresponding assembly groove comprises an upper part and a lower part, the lower part of the assembly groove is matched with the Mesh communication terminal host 7 in size, a first plug-in groove is formed on the right side surface of the lower part of the assembly groove, a convex first limit step is formed on the left side surface of the lower part of the assembly groove, a first jack is formed on the upper part of the first limit step, a first plug-in seat matched with the first plug-in groove is formed on the right side surface of the corresponding Mesh communication terminal host 7, a first outer step matched with the first limit step is formed on the left side surface of the corresponding Mesh communication terminal host 7, when the Mesh communication terminal host 7 is assembled in the first assembly groove, the first plug-in seat is inserted into the first plug-in groove, the Mesh communication terminal host 7 can be placed in a corresponding size space on the lower part of the assembly groove, the first outer step is placed on the first limit step, and the first plug-in seat is clamped into the first plug-in hole 6 of the first limit step to complete assembly of the Mesh communication terminal host 7.

In this embodiment, a convex second limit step is formed on the upper side surface of the Mesh communication terminal host 7, and a second jack is formed on the upper part of the second limit step; the upper part of the assembly groove is matched with the size of the rechargeable battery 4, a second plug-in groove is formed on the upper side surface of the assembly groove, a second plug-in seat matched with the second plug-in groove is formed on the corresponding upper side surface of the rechargeable battery 4, and a second outer step with a second spring buckle 5 matched with the second limiting step is formed on the lower side surface of the rechargeable battery 4. The rechargeable battery 4 is assembled after the Mesh communication terminal host 7 is assembled and fixed, during assembly, the second plug-in seat of the rechargeable battery 4 is inserted into the second plug-in groove, then the rechargeable battery 4 is placed into the space with the corresponding size at the upper part of the assembly groove, at the moment, the rechargeable battery 4 is pressed downwards, so that the second outer step on the rechargeable battery 4 can be placed on the second limit step of the Mesh communication terminal host 7, and meanwhile, the first spring buckle 5 on the second outer step is clamped into the second jack on the Mesh communication terminal host 7, so that the assembly of the rechargeable battery 4 is completed.

The rechargeable battery 4 is electrically connected with the Mesh communication terminal host 7 through the contact after the assembly is completed, the power is supplied to the Mesh communication terminal host 7, and the rechargeable battery 4 can be replaced by a detachable mode after the electric quantity is used up so as to prolong the service life of equipment of the Mesh communication terminal host 7.

The backplate plate body 3 still is provided with antenna assembly seat 14 in the both sides lower part that corresponds gas pitcher 2 assembly position, carries out the detachable assembly through antenna assembly seat 14 and signal enhancement antenna 1 and is connected to make signal enhancement antenna 1 set up the both sides that correspond gas pitcher 2 assembly position on backplate plate body 3, be unlikely to occupy too much space.

In this embodiment, mesh communication terminal host computer 7 is wide and narrow band fusion terminal to support two kinds of wave forms of loading broadband and narrow band simultaneously, still be provided with signal indicator 8 on the Mesh communication terminal host computer 7 and be used for monitoring the state detection module of wearable equipment critical state, when state detection module detects equipment unusual, remind the host computer user through modes such as sound, light, vibration, the host computer user can take off backplate plate body 3, know equipment information through the state of looking over signal indicator 8.

A control button 9, an expansion interface 10, a WIFI antenna 11, a first antenna connecting wire 12 and a second antenna connecting wire 13 are sequentially formed on the lower side surface of the Mesh communication terminal host 7 from left to right, wherein the WIFI antenna 11 is in communication connection with a sensor, a camera and a pickup on the wearable equipment of a fire fighter, and audio and video input and output are performed through an earphone, a microphone and the camera, the expansion interface 10 can be used as a sensor interface, and the sensor arranged on the wearable equipment of the fire fighter is a pressure sensing unit for receiving pressure value information in the gas tank 2, a combination of a temperature sensor, a humidity sensor, a smoke sensor, an infrared thermoforming sensor and a toxic gas sensor for monitoring the surrounding environment state; the first antenna connection line 12 is used for connecting the left antenna mounting base 14, and the second antenna connection line 13 is used for connecting the right antenna mounting base 14.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A respirator back plate integrated with a Mesh communication terminal comprises a back plate body, wherein an independent back bearing system and an assembly component for fixing a self-contained positive pressure air respirator component are arranged on the back plate body; the Mesh communication terminal is characterized in that an assembly groove is formed in the surface of the back plate body, the back plate body is assembled with the Mesh communication terminal through the assembly groove, and signal enhancement antennas which are used for being assembled and connected with the Mesh communication terminal are arranged on two sides of the back plate body.

2. The Mesh communication terminal integrated respirator back plate of claim 1, wherein the Mesh communication terminal is detachably assembled and connected in the assembly groove.

3. The respirator backplate for an integrated Mesh communication terminal of claim 2, wherein the assembly slot and the Mesh communication terminal are pre-fixed by inserting through a matched plug-in structure, and a spring buckle matched with the plug-in structure is arranged at the opposite side of the plug-in structure to clamp the pre-fixed Mesh communication terminal.

4. The respirator backplate of the integrated Mesh communication terminal of claim 1, wherein the Mesh communication terminal comprises a detachable host and a battery; and the battery is a rechargeable battery.

5. The respirator backplate of integrated Mesh communication terminal of claim 1, wherein the signal enhancing antenna is disposed on both sides of the backplate body corresponding to the mounting position of the gas tank.

6. The respirator backboard integrating the Mesh communication terminal as claimed in claim 1, wherein the Mesh communication terminal is in communication connection with an earphone, a microphone and a camera in a helmet of a rescue worker, and performs audio and video input and output through the earphone, the microphone and the camera.

7. The respirator backplate of integrated Mesh communication terminal of claim 1, wherein the Mesh communication terminal is a wideband-narrowband convergence terminal and supports simultaneous loading of both wideband and narrowband waveforms.

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