CN213281631U - Intelligent sensing medical protective clothing - Google Patents

Abstract

The utility model relates to a medical protective clothing of intelligent sensing, including the protective clothing body, the shoulder position and/or the wrist position of protective clothing body are provided with environmental parameter sensor, the wrist position of protective clothing body is provided with control panel, lithium cell and display screen, the control panel links to each other with lithium cell, display screen and the environmental parameter sensor who is located the wrist position respectively, the control panel still is connected with the environmental parameter sensor who is located the shoulder through the flexible electric wire on the protective clothing. The utility model discloses can make the user make things convenient for, real-time relevant parameter of learning surrounding environment.

Description

Intelligent sensing medical protective clothing

Technical Field

The utility model relates to a medical protective clothing especially relates to a medical protective clothing of intelligent sensing.

Background

At present, medical protective clothing on the market only has a protective function and does not have an intelligent function of gas detection and position information display. In some special environments, because the air quality in the indoor environment is unknown, the working personnel need to know the air quality parameters in the environment in real time for their own health and working needs, for example, when the concentration of indoor carbon dioxide and the concentration of total volatile organic compounds are higher than a certain value, the health of people can be influenced, and even life risks can be caused, and similarly, when the concentration of indoor oxygen is lower than a certain value, the health of people can be influenced, and even life risks can be caused, and in some special environments, the working personnel need to know the environmental information of their own position in real time.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a medical protective clothing of intelligent sensing is provided, relevant parameter that can real-time supervision user surrounding environment.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a medical protective clothing of intelligent sensing, includes the protective clothing body, the shoulder position and/or the wrist position of protective clothing body are provided with environmental parameter sensor, the wrist position of protective clothing body is provided with control panel, lithium cell and display screen, the control panel links to each other with lithium cell, display screen and the environmental parameter sensor who is located the wrist position respectively, the control panel still is connected with the environmental parameter sensor who is located the shoulder through the flexible electric wire on the protective clothing.

The environment parameter sensor comprises a carbon dioxide sensing module, a total volatile organic compound sensing module, an oxygen sensing module and a positioning module.

The oxygen sensing module and the positioning module are positioned on the shoulder of the protective suit body.

The oxygen sensing module and the positioning module are sleeved together by using a heat-shrinkable tube and are covered outside by adopting a soft protective shell; the output ends of the oxygen sensing module and the positioning module are connected with a first wiring terminal through a lead, and the first wiring terminal is connected with one end of the flexible wire.

The carbon dioxide sensing module and the total volatile organic compound sensing module are positioned at the wrist position of the protective suit body.

The carbon dioxide sensing module, the total volatile organic compound sensing module, the control panel, the lithium battery and the display screen are sleeved together by using heat-shrinkable tubes and are coated outside by adopting a soft protective shell; the input end of the control panel is connected with a second wiring terminal through a wire, and the second wiring terminal is connected with the other end of the flexible wire.

The soft protective shell is pasted through the magic and covers shoulder position and wrist position of protective clothing body.

The flexible electric wire is fixed on the surface of the protective clothing body through a waterproof adhesive tape.

The flexible electric wire is a DuPont wire or a gray flat cable.

Advantageous effects

Since the technical scheme is used, compared with the prior art, the utility model, have following advantage and positive effect: the utility model discloses but oxygen concentration, carbon dioxide concentration, total volatile organic compound concentration and the longitude and latitude information of real-time supervision user place environment to show the information of monitoring through the display screen on the protective clothing, thereby make the user can make things convenient for, real-time learn the relevant parameter of surrounding environment.

Drawings

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

FIG. 2 is a connection diagram of each component of the present invention;

FIG. 3 is a schematic structural diagram of the middle oxygen sensing module and the Beidou GPS dual-mode positioning module of the present invention;

fig. 4 is a schematic structural diagram of the carbon dioxide sensor module, the total volatile organic compound sensor module, the display, the control panel and the lithium battery of the present invention.

Detailed Description

The present invention will be further described with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Furthermore, it should be understood that various changes and modifications of the present invention may be made by those skilled in the art after reading the teachings of the present invention, and these equivalents also fall within the scope of the appended claims.

The utility model discloses an embodiment relates to a medical protective clothing of intelligent sensing, as shown in fig. 1, including protective clothing body 1, this protective clothing body 1 accords with national standard GB 19082 supplyes medical disposable protective clothing requirement standard of 2009. The shoulder position of protective clothing body 1 is provided with sensing module A, sensing module A includes oxygen sensing module 2 and orientation module 3, and wherein orientation module 3 can be big dipper GPS bimodulus orientation module for obtain the current positional information who locates of user. The oxygen sensing module 2 is used for acquiring oxygen concentration information of the current position of a user; the wrist position of the protective suit body 1 is provided with a sensing and control module B, and the sensing and control module B comprises a carbon dioxide sensing module 4, a total volatile organic compound sensing module 5, a control panel 6, a lithium battery 7 and a display screen 8. The carbon dioxide sensing module 4 is used for acquiring carbon dioxide concentration information of the current position of a user; the total volatile organic compound sensing module 5 is used for acquiring a total volatile organic compound concentration value of a current location of a user. The voltage range of the lithium battery 7 is 3.7-5.5V and is used for supplying power for the control board 6. The display screen 8 is used for displaying the environmental parameters monitored by the sensors.

As shown in fig. 2, the control board 6 is connected to the oxygen sensing module 2, the carbon dioxide sensing module 4, the total volatile organic compound sensing module 5, the beidou GPS dual-mode positioning module 3, the display screen 8 and the lithium battery 7, wherein the carbon dioxide sensing module 4, the total volatile organic compound sensing module 5, the lithium battery 7 and the display screen 8 are all located on the wrist portion, so that the carbon dioxide sensing module 4, the total volatile organic compound sensing module 5, the lithium battery 7 and the display screen 8 can be directly integrated on the control board. Because control panel 6 and oxygen sensing module 2 and big dipper GPS bimodulus orientation module 3 are located wrist position and shoulder position respectively, consequently link to each other the output of oxygen sensing module 2 and big dipper GPS bimodulus orientation module 3 with control panel 6's input through flexible electric wire 9 in this embodiment.

As shown in fig. 3, the oxygen sensing module 2 and the big dipper GPS dual-mode positioning module 3 are sleeved together by using a heat-shrinkable tube, and are covered by a soft protective shell; the output ends of the oxygen sensing module 2 and the positioning module 3 are connected with a first wiring terminal 10 through a lead, and the first wiring terminal 10 is connected with one end of the flexible electric wire 9. Wherein, soft protective housing can paste through the mode that the magic was pasted and cover on protective clothing body surface.

As shown in fig. 4, the carbon dioxide sensing module 4, the total volatile organic compound sensing module 5, the control board 6, the lithium battery 7 and the display screen 8 are sleeved together by using a heat-shrinkable tube and are covered by using a soft protection shell; the input end of the control panel 6 is connected with a second wiring terminal 11 through a wire, and the second wiring terminal 11 is connected with the other end of the flexible wire 9. Similarly, soft protective housing can paste through the mode that the magic was pasted and cover on protective clothing body surface.

Wherein, first binding post 10 and second binding post 11 are connected through flexible electric wire 9, have realized linking to each other the sensor that is located the shoulder with the control panel that is located the wrist to make the display screen can show the data that the sensor that is located the shoulder monitored. The flexible electric wire in the embodiment may be a dupont wire or a gray flat cable. When a dupont wire is used, the first and second wire terminals preferably use a dupont wire terminal interface with a latch. The flexible electric wire can be fixed on the surface of the protective clothing body through a waterproof adhesive tape.

The utility model discloses can not difficultly discover, but oxygen concentration, carbon dioxide concentration, total volatile organic compound concentration and the longitude and latitude information of real-time supervision user place environment to show the information of monitoring through the display screen on the protective clothing, thereby make the user can make things convenient for, real-time learn the relevant parameter of surrounding environment.

Claims (9)

1. The utility model provides a medical protective clothing of intelligent sensing, includes the protective clothing body, its characterized in that, the shoulder position and/or the wrist position of protective clothing body are provided with environmental parameter sensor, the wrist position of protective clothing body is provided with control panel, lithium cell and display screen, the control panel links to each other with lithium cell, display screen and the environmental parameter sensor who is located the wrist position respectively, the control panel still is connected with the environmental parameter sensor who is located the shoulder through the flexible electric wire on the protective clothing.

2. The intelligent sensing medical protective garment according to claim 1, wherein the environmental parameter sensor comprises a carbon dioxide sensing module, a total volatile organic compound sensing module, an oxygen sensing module and a positioning module.

3. The intelligent sensing medical protective clothing according to claim 2, wherein the oxygen sensing module and the positioning module are located on the shoulder of the protective clothing body.

4. The intelligent sensing medical protective clothing according to claim 3, wherein the oxygen sensing module and the positioning module are sleeved together by a heat-shrinkable tube and are covered by a soft protective shell; the output ends of the oxygen sensing module and the positioning module are connected with a first wiring terminal through a lead, and the first wiring terminal is connected with one end of the flexible wire.

5. The intelligent sensing medical protective clothing according to claim 2, wherein the carbon dioxide sensing module and the total volatile organic compound sensing module are located at a wrist position of the protective clothing body.

6. The intelligent sensing medical protective clothing according to claim 5, wherein the carbon dioxide sensing module, the total volatile organic compound sensing module, the control panel, the lithium battery and the display screen are sleeved together by using heat-shrinkable tubes and are covered by using a soft protective shell; the input end of the control panel is connected with a second wiring terminal through a wire, and the second wiring terminal is connected with the other end of the flexible wire.

7. The intelligent sensing medical protective clothing according to claim 4 or 6, wherein the soft protective shell is attached to the shoulder position and the wrist position of the protective clothing body through magic tapes.

8. The intelligent sensing medical protective clothing according to claim 1, wherein the flexible wires are fixed on the surface of the protective clothing body through waterproof adhesive tapes.

9. The intelligent sensing medical protective clothing according to claim 1, wherein the flexible electric wire is a DuPont wire or a gray ribbon cable.

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