CN215959845U - Dangerous environment personnel life state monitoring system - Google Patents

Abstract

The utility model relates to the technical field of dangerous environment rescue equipment and discloses a dangerous environment personnel life state monitoring system which comprises a body mechanism, wherein two sides of the body mechanism are movably connected with connecting mechanisms, the body mechanism comprises an upper layer protective shell, the top of the upper layer protective shell is provided with an anti-collision groove, a display screen is arranged inside the anti-collision groove, a communication hole is formed inside the anti-collision groove, and the bottom of the upper layer protective shell is fixedly connected with a lower layer protective shell. This dangerous environment personnel life state monitoring system through setting up upper protective housing and lower floor's protective housing to set up upper protective housing and lower floor's protective housing's size, set up the environment monitoring hole simultaneously at lower floor's protective housing's surface, thereby make and form the clearance between environment monitoring hole and the upper protective housing, at the in-process that uses, clothing or skin cover can be avoided in the environment monitoring hole, have reached the effect that promotes the environment monitoring sensitivity.

Description

Dangerous environment personnel life state monitoring system

Technical Field

The utility model relates to the technical field of dangerous environment rescue equipment, in particular to a dangerous environment personnel life state monitoring system.

Background

In dangerous working environments such as urban sewage pipeline operation, fire fighting, hazard detection and the like, once the environment and personnel are abnormal, life danger is possibly brought, and other personnel cannot know the specific state of the personnel because the personnel are not in a real field, for example, a fireman is in a coma due to oxygen deficiency or sudden collapse of a heavy object, and other personnel cannot know the state of the personnel immediately, so that precious rescue time is lost.

Existing positioning or monitoring devices often fail to accurately monitor vital signs and the environment due to structural design issues.

It is therefore desirable to provide a system for monitoring the life status of personnel in hazardous environments, which solves the above mentioned problem of insensitivity of the conventional positioning or monitoring devices.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a dangerous environment personnel life state monitoring system which has the advantages of sensitive monitoring and the like and solves the problem of insensitive monitoring of the traditional monitoring equipment mentioned in the background technology.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: a dangerous environment personnel life state monitoring system comprises a body mechanism, wherein two sides of the body mechanism are movably connected with connecting mechanisms;

the body mechanism comprises an upper-layer protective shell, an anti-collision groove is formed in the top of the upper-layer protective shell, a display screen is arranged in the anti-collision groove, a call hole is formed in the anti-collision groove, a lower-layer protective shell is fixedly connected to the bottom of the upper-layer protective shell, an environment monitoring hole is formed in the outer surface of the lower-layer protective shell, a contact groove is formed in the bottom of the lower-layer protective shell, and a state monitoring probe is fixedly connected to the inside of the contact groove.

Through dividing into upper protective housing and lower floor's protective housing with body mechanism to set up the anticollision groove on upper protective housing surface, make the display screen sink and reduce the probability that is hit, then set up the environment monitoring hole in lower floor's protective housing's side, carry out the monitoring of environment, and set up the contact chamber, oppression through the contact chamber makes skin and state monitoring probe contact, with this sensitivity that promotes the monitoring.

Preferably, the processor main body, the positioning device, the communication module and the wireless transmission device are fixedly connected to the inside of the upper-layer protective shell respectively.

The signal receiving and transmitting sensitivity of the positioning device, the communication module and the wireless transmission device can be improved by placing the processor main body, the positioning device, the communication module and the wireless transmission device in the upper protection shell.

Preferably, the display screen is connected with the processor main body through a wire, and the communication hole is connected with the pickup end of the communication module.

Be connected through display screen and treater main part to make the display screen can show each monitoring facilities's data, let the operation personnel can audio-visually know current environment state and self state, with the production that reduces the risk factor.

Preferably, the projection area of the lower-layer protection shell is smaller than that of the upper-layer protection shell, the inner part of the lower-layer protection shell is communicated with the upper-layer protection shell, and the left side and the right side of the lower-layer protection shell are both provided with connecting grooves.

Through setting up the size of lower floor's protecting sheathing to leave the clearance between messenger's lower floor's protecting sheathing and the upper strata protecting sheathing, with this probability that reduces environmental monitoring hole and is blockked, with this sensitivity that promotes environmental monitoring.

Preferably, the inside of lower floor's protecting sheathing is provided with environmental monitoring sensor, vital sign monitoring sensor, environmental monitoring hole and environmental monitoring sensor intercommunication, the state monitoring probe is interconnected with vital sign monitoring sensor.

Through above-mentioned various equipment can monitor environment and human sign respectively to data transmission to the treater main part with monitoring, and through transmitting to the monitoring backstage through wireless transmission device, make the sign of understanding operation personnel that backstage personnel can be timely, environment and the position of locating.

Preferably, the edge of the contact groove is provided with an arc-shaped chamfer, and the bottom of the state monitoring probe is horizontal to the bottom of the lower-layer protective shell.

Set up the arc chamfer through the edge at the contact tank, incised wound skin when avoiding pushing down skin makes skin extruded to the inside and the contact of state monitoring probe of contact tank simultaneously, improves vital sign detection sensor's detection precision.

Preferably, the connecting mechanism comprises a main connecting belt and a secondary connecting belt, and the main connecting belt and the secondary connecting belt are respectively located inside connecting grooves on two sides of the lower-layer protective shell.

The whole device is fixed on the surface of the human body by the insertion of the connecting main belt and the connecting auxiliary belt.

Compared with the prior art, the utility model provides a dangerous environment personnel life state monitoring system, which has the following beneficial effects:

1. this dangerous environment personnel life state monitoring system through setting up upper protective housing and lower floor's protective housing to set up upper protective housing and lower floor's protective housing's size, set up the environment monitoring hole simultaneously at lower floor's protective housing's surface, thereby make and form the clearance between environment monitoring hole and the upper protective housing, at the in-process that uses, clothing or skin cover can be avoided in the environment monitoring hole, have reached the effect that promotes the environment monitoring sensitivity.

2. This dangerous environment personnel life state monitoring system sets up the contact groove through the bottom at lower floor's protecting sheathing to with the inside of state monitoring probe setting at the contact groove, when wearing the device, lower floor's protecting sheathing extrusion skin makes skin surface form the swell and contacts with state monitoring probe, thereby can make state monitoring probe pertinence monitor the muscle and vein, has reached the effect that promotes vital signs monitoring accuracy.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the structure of the present invention;

FIG. 3 is a bottom view of the present invention;

fig. 4 is a frame diagram of the working principle of the present invention.

Wherein: 1. a body mechanism; 101. an upper protective outer shell; 102. an anti-collision groove; 103. a display screen; 104. a call hole; 105. a lower protective housing; 106. an environment monitoring hole; 107. a contact groove; 108. a condition monitoring probe; 2. a connecting mechanism; 201. connecting the main belt; 202. and connecting the secondary belt.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Detailed description of the utility model

The embodiment is an embodiment of a life state monitoring system for dangerous environment personnel.

Referring to fig. 1-4, a life state monitoring system for dangerous environment personnel comprises a body mechanism 1, wherein two sides of the body mechanism 1 are movably connected with connecting mechanisms 2;

body mechanism 1 includes upper protective housing 101, anticollision groove 102 has been seted up at the top of upper protective housing 101, the inside in anticollision groove 102 is provided with display screen 103, conversation hole 104 has been seted up to the inside in anticollision groove 102, the bottom fixedly connected with lower floor's protective housing 105 of upper protective housing 101, environment monitoring hole 106 has been seted up to lower floor's protective housing 105's surface, contact chamber 107 has been seted up to lower floor's protective housing 105's bottom, the inside fixedly connected with state monitoring probe 108 of contact chamber 107.

Through the technical scheme, the upper-layer protective shell 101 and the lower-layer protective shell 105 are arranged, the sizes of the upper-layer protective shell 101 and the lower-layer protective shell 105 are arranged, and the environment monitoring hole 106 is formed in the outer surface of the lower-layer protective shell 105, so that a gap is formed between the environment monitoring hole 106 and the upper-layer protective shell 101, and in the using process, the environment monitoring hole 106 can prevent clothes or skin from covering, so that the effect of improving the environment monitoring sensitivity is achieved;

contact groove 107 is seted up through the bottom at lower floor's protective housing 105 to set up state monitoring probe 108 in contact groove 107's inside, when wearing the device, lower floor's protective housing 105 extrudes skin, makes skin surface form the bulge and contacts with state monitoring probe 108, thereby can make state monitoring probe 108 pertinence monitor the muscle and vein, has reached the effect that promotes vital signs monitoring accuracy.

Specifically, the processor body, the positioning device, the communication module, and the wireless transmission device are fixedly connected to the inside of the upper protective casing 101.

Through the technical scheme, the processor main body, the positioning device, the communication module and the wireless transmission device are placed in the upper-layer protective shell 101, so that the device can receive signals and transmit signals well, wherein the processor main body, the positioning device, the communication module and the wireless transmission device are all existing equipment, and can be selected to be compatible with each other according to the manufacturing cost.

Specifically, the display screen 103 is connected to the processor body through a wire, and the communication hole 104 is connected to a sound pickup end of the communication module.

Through the technical scheme, the progress of the processor main body is read through the display screen 103, so that an operator can visually know the current situation and report the field situation with the monitoring background through the call hole 104.

Specifically, the projected area of the lower protective housing 105 is smaller than that of the upper protective housing 101, the inside of the lower protective housing 105 is communicated with the upper protective housing 101, and the left side and the right side of the lower protective housing 105 are provided with connecting grooves.

Through the technical scheme, the sizes of the lower-layer protective casing 105 and the upper-layer protective casing 101 are set, so that a gap is formed between the lower-layer protective casing 105 and the upper-layer protective casing 101, the contact between the environment monitoring hole 106 and air is improved, and the environment monitoring hole is prevented from being covered.

Specifically, an environment monitoring sensor and a vital sign monitoring sensor are arranged inside the lower protective casing 105, an environment monitoring hole 106 is communicated with the environment monitoring sensor, and a state monitoring probe 108 is interconnected with the vital sign monitoring sensor.

Through above-mentioned technical scheme, environmental monitoring sensor, vital sign monitoring sensor set up in the lower floor to reduce the contact distance with the human body, promote the stability and the sensitivity of monitoring.

Specifically, the edge of the contact groove 107 is provided with an arc-shaped chamfer, and the bottom of the condition monitoring probe 108 is horizontal to the bottom of the lower protective housing 105.

Through above-mentioned technical scheme, the corner of contact tank 107 sets to the arc chamfer, when can preventing that the device from pushing down skin, causes the crushing to skin, sets up state monitoring probe 108's position and length to make state monitoring probe 108 can the pertinence carry out the oppression monitoring to the muscle and vein, promote the sensitivity of monitoring.

Specifically, the connection mechanism 2 includes a connection main belt 201 and a connection sub belt 202, and the connection main belt 201 and the connection sub belt 202 are respectively located inside connection grooves on both sides of the lower protective casing 105.

Through the technical scheme, the connecting main belt 201 and the connecting auxiliary belt 202 are matched with each other, so that the whole device can be fixed on the surface of a human body.

Detailed description of the utility model

The embodiment is an embodiment of a working scheme of a life state monitoring system for dangerous environment personnel.

The device is worn on the surface of a human body through the connecting mechanism 2, on one hand, the current environment is monitored, on the other hand, the life state of a person is monitored, then the collected data is transmitted to the monitoring background through a wired or wireless method, and the implementation mode of the device is divided into five parts;

1. a front environment monitoring section:

the current temperature, air pressure and oxygen concentration are collected through various sensors, and other sensors, such as methane and other toxic gases in underground drainage pipelines, are loaded according to the requirements and specific working environments.

2. Human body life part:

the current heartbeat, blood pressure, etc. are collected by various sensors and the data is displayed on the display screen 103 and transmitted to the monitoring back-end.

3. A positioning device:

the positioning device for the current personnel can adopt the position positioning relative to background monitoring, including GPS positioning.

4. Life monitoring module-data calculation and communication:

the sensor data of the two parts are calculated to obtain complete life state data, on one hand, the data are sent to a background monitoring system, on the other hand, background commands including voice communication and state data of other people working at the same time can be received, and once accidents happen to the people working at the same time, the nearest people can obtain the indication of the background monitoring system and immediately participate in rescue.

5. A background monitoring system:

in a safety zone not far away from an operation site, a communication device is installed to keep real-time communication with each dangerous environment worker, monitoring software is installed on a computer to display the state data of each worker in real time, background software sets each safety data range through scientific parameters, once the monitored data are abnormal, an audible and visual alarm is given to remind rescuers to take action, and once the abnormal data are generated, the background personnel can immediately ask the nearest personnel to rescue through the current position and the historical action track of each dangerous environment worker (to prevent positioning accidents).

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

Claims (7)

1. The utility model provides a dangerous environment personnel life state monitoring system, includes body mechanism (1), its characterized in that: two sides of the body mechanism (1) are movably connected with connecting mechanisms (2);

body mechanism (1) includes upper protective housing (101), anticollision groove (102) have been seted up at the top of upper protective housing (101), the inside in anticollision groove (102) is provided with display screen (103), conversation hole (104) have been seted up to the inside in anticollision groove (102), the bottom fixedly connected with lower floor's protective housing (105) of upper protective housing (101), environment monitoring hole (106) have been seted up to the surface of lower floor's protective housing (105), contact groove (107) have been seted up to the bottom of lower floor's protective housing (105), the inside fixedly connected with state monitoring probe (108) of contact groove (107).

2. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the inside of the upper layer protective casing (101) is fixedly connected with a processor main body, a positioning device, a communication module and a wireless transmission device respectively.

3. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the display screen (103) is connected with the processor main body through a wire, and the communication hole (104) is connected with the sound pickup end of the communication module.

4. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the projection area of lower floor's protecting sheathing (105) is less than upper protecting sheathing (101), the inside and the upper protecting sheathing (101) intercommunication of lower floor's protecting sheathing (105), the left and right sides of lower floor's protecting sheathing (105) all is provided with the spread groove.

5. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the inside of lower floor's protecting sheathing (105) is provided with environmental monitoring sensor, vital sign monitoring sensor, environmental monitoring hole (106) and environmental monitoring sensor intercommunication, state monitoring probe (108) and vital sign monitoring sensor interconnect.

6. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the edge of the contact groove (107) is provided with an arc-shaped chamfer, and the bottom of the state monitoring probe (108) is horizontal to the bottom of the lower protective shell (105).

7. The life state monitoring system for the personnel in the dangerous environment according to claim 1, characterized in that: the connecting mechanism (2) comprises a connecting main belt (201) and a connecting auxiliary belt (202), wherein the connecting main belt (201) and the connecting auxiliary belt (202) are respectively positioned inside connecting grooves at two sides of the lower-layer protective shell (105).

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