JP2014079440A - Human body protection device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a human body protection device which protects a specific site of a human body from a flame, shock wave or blast (and debris scattering with the blast) or the like which are generated in an explosion of gunpowder or the like in a powder house or a plant or the like.SOLUTION: The human body protection device includes: an air bag 3 which is worn on a human body and deployed so as to surround a specific site of the human body; deployment means 4 which causes the air bag 3 to expand and deploy in a moment; detection means 5 for detecting a flame which has occurred around the human body H and outputting a detection signal on the basis of the detection; and control means 7 for outputting a deployment direction signal to the deployment means 4 when the detection signal is input from the detection means 5. In another embodiment, the device further includes another detection means 6 for detecting a shockwave or blast which has occurred around the human body H and outputting a detection signal on the basis of the detection. In further another embodiment, reinforcing fibers such as carbon fiber are used as a material of the air bag 3. The air bag 3 is formed in such a way that its deployment shape is a substantially conical shape, and its side peripheral surface in its deployment shape has one piece form.

Description

  The present invention relates to a human body protection device using an air bag device, for example, a human body from a flame, a shock wave or a blast (and debris scattered with the blast) generated when an explosive explodes in an explosive warehouse or a factory. The present invention relates to a human body protection device capable of protecting a specific part.

  In general, an airbag device is used for inflating an airbag by instantaneously injecting a gas into a compactly folded airbag, thereby mainly reducing an impact received by an object. Conventionally, there are various techniques for protecting a human body using an airbag. Among them, those installed in automobiles are well known. The airbag mounted on the automobile protects the occupant by the acceleration sensor reacting when the automobile collides, and the airbag is instantaneously deployed. In addition, for example, the airbag device disclosed in Patent Document 1 is equipped with a voice detection means that is mounted on a human body and detects the voice of the user, and the user fell down when working at a high place on a construction site or the like. In some cases, the airbag is deployed by voice to absorb the impact caused by dropping. Furthermore, it is an airbag device similarly worn on the human body. For example, the airbag device disclosed in Patent Document 2 detects the acceleration and angular velocity when the user falls during daily life or business. As a result, the airbag is deployed to absorb the impact received by the user when the vehicle falls over.

  A major characteristic of such an air bag device is that the air bag is instantaneously deployed by the reaction of various sensors. As a result, the airbag can be deployed to protect the object (mainly the human body) even in a very short time that cannot be handled by a person.

JP 2003-126283 A Japanese Patent Laid-Open No. 2008-22934

  By the way, the inventors of the present invention have been searching for means for protecting the human body from flames and shock waves generated when explosives explode, for example, in an explosive warehouse or factory, but there is no effective means. Was the current situation. If explosives explode in a gunpowder depot or factory, there is a possibility of causing great damage to the human body. In particular, the face with exposed skin may be damaged greatly. The damage caused by the explosion is wide-ranging, including burns caused by flames, falls caused by the blast, damages caused by debris flying by the blast, and brain damage caused by shock waves. Since these phenomena occur in a very short time at the time of the explosion, it is impossible for people nearby at the time of the explosion to evacuate after recognizing the explosion.

  The inventors of the present invention have examined whether the above-described characteristics of the airbag device can be used to protect a human body from a flame, a shock wave, and the like generated during an explosion. However, in the airbag devices disclosed in Patent Documents 1 and 2, the sensor responds to an event mainly performed by the user. That is, the sensor responds to the user's voice (Patent Document 1) and the acceleration and angular velocity when the user falls (Patent Document 2). Not suitable for use to protect the human body from events.

  The present invention utilizes the characteristic of an airbag device that an airbag is instantaneously deployed when a sensor reacts. For example, a flame, a shock wave, or a blast generated when an explosive explodes in an explosive warehouse, a factory, or the like ( Another object of the present invention is to provide a human body protection device that protects a specific part of the human body from debris scattered with the blast.

Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
The human body protection device according to claim 1 according to the present invention is attached to a human body,
An airbag 3 deployed so as to surround a specific part of the human body H;
Deployment means 4 for inflating and deploying the airbag 3 instantaneously;
Detecting means 5 for detecting a flame generated around the human body H and outputting a detection signal based on the detection;
Control means 7 for receiving the detection signal output from the detection means 5 and outputting a deployment command signal to the deployment means 4 when the detection signal is input;
It is characterized by having.

  Until now, airbag devices have been used to mitigate the impact on the human body by momentarily deploying the bag between the object to be protected (in this case, the human body) and the object that the human body collides with. In this case, by providing a detecting means (specifically, an IR sensor) 5 for detecting a flame, a specific part of the human body H is detected before the flame or heat of the flame reaches the human body H at the time of explosion. The airbag 3 is deployed and protected so as to surround it.

The human body protection device according to claim 2 is the human body protection device according to claim 1,
Furthermore, it comprises other detection means 6 for detecting a shock wave or a blast generated around the human body H and outputting a detection signal based on the detection,
The control unit 7 receives the detection signal output from the other detection unit 6 and outputs a deployment command signal to the deployment unit 4 when the detection signal is input.

  In addition to flames, there are things that can damage the human body during an explosion. Such as shock waves or blasts and debris scattered with the blasts. In this case, in addition to the detection means (IR sensor) 5 for detecting the flame, other detection means (specifically a pressure sensor) 6 for detecting the shock wave or the blast is provided, so that the shock wave or the blast and this The airbag 3 is deployed and protected so as to surround a specific part of the human body H before debris scattered by the blast reaches the human body H.

The human body protection device according to claim 3 is the human body protection device according to claim 1 or 2,
The material of the airbag 3 is characterized by using reinforcing fibers such as carbon fibers.

  Since a reinforcing fiber such as carbon fiber is used as the material of the airbag 3, the airbag 3 has a sufficient strength to withstand flames, shock waves, and the like.

The human body protection device according to claim 4 is the human body protection device according to any one of claims 1 to 3,
The airbag 3 is characterized in that a deployed shape is a cylindrical shape or a conical shape, and a side peripheral surface of the deployed shape is formed in a single sheet.

  Since the airbag 3 becomes a cylindrical shape or a conical shape when inflated and deployed, the airbag 3 can surround specific parts such as the head, limbs, and trunk of the human body H. Further, since the airbag 3 has a single peripheral surface in the deployed shape (cylindrical or conical), there is no gap or the like on the lateral surface of the deployed airbag 3.

  According to the human body protection device of the present invention, for example, when explosives explode in an explosive warehouse or a factory, etc., by providing a detection means for detecting flames, the flame or the heat of the flames is expelled during the explosion. The detection means detects the flame before reaching the position, and the airbag is deployed so as to surround a specific part of the human body to protect it from the flame and heat. As a result, it is possible to reduce injuries and fatal accidents due to explosives such as gunpowder.

  In addition to the detection means for detecting flames, other detection means for detecting shock waves or blasts are provided, so that shock waves or blasts and debris scattered along with the blasts at the time of an explosion may reach the human body. Another detection means detects a shock wave or a blast, and the airbag is deployed to protect a specific part of the human body. In addition, by providing other detection means for detecting other than the flame in this way, for example, even when an object exists between the human body and the flame and the flame cannot be detected, the airbag is deployed. Can protect the human body.

  Further, since reinforcing fibers such as carbon fibers are used as the material of the airbag, the airbag has sufficient strength to withstand flames, shock waves, and the like. Therefore, a situation such as breakage of the deployed airbag does not occur.

  In addition, since the airbag becomes cylindrical or conical when inflated and deployed, it can surround specific parts such as the head, limbs, and trunk of the human body, and in its deployed shape (cylindrical or conical). Since the side peripheral surface is a single sheet, there is no gap on the side peripheral surface of the deployed airbag, and it is possible to prevent a human body from being damaged by a flame or shock wave entering through the gap. That is, reliable human protection is possible.

It is a front view which shows embodiment (before deployment of an airbag) of a human body protection apparatus. It is a front view which shows embodiment (after deployment of an airbag) of a human body protection apparatus. (A) It is typical sectional drawing which shows the accommodation state of an airbag. (B) It is typical sectional drawing which shows the expansion | deployment state of an airbag. It is a functional block diagram in embodiment of a human body protection apparatus. In embodiment of a human body protection apparatus, it is explanatory drawing which shows the process sequence from the occurrence of an explosion until an airbag is deployed. (A) It is a front view which shows other embodiment. (B) It is a front view which shows other embodiment. It is explanatory drawing which shows other embodiment.

Embodiments of the present invention will be specifically described below with reference to the drawings.
This embodiment (human body protection device) is configured to be worn on a human body, and the object is, for example, an operator working in an explosives store or a factory, and as shown in FIGS. In addition, a specific part of the human body (the head in this embodiment) is protected.

  As shown in FIGS. 1 to 3, the human body protection device 1 is an airbag device, and includes an annular main body 2 that is mounted around the neck of a human body (user) H, and an airbag 3 that is accommodated in the main body 2. And deployment means 4 for deploying the airbag 3, detection means 5 (6), and control means 7.

As shown in FIG. 3, the airbag 3 uses a reinforcing fiber such as carbon fiber as a material of the fabric, is folded in a compact state in the stored state, and is stored inside the annular portion of the main body 2. As shown in FIG. 2, the airbag 3 is inflated and deployed so as to surround the head H _{1 of the} user H, and has a substantially conical shape with a predetermined thickness spreading upward from the annular portion in the deployed state. At this time, the user's head is accommodated in the airbag 3 having a substantially conical shape. Moreover, the airbag 3 is formed in a single sheet on its side peripheral surface (that is, a substantially conical side peripheral surface) in the deployed shape, and has no joints or gaps. In this embodiment, the deployed shape of the airbag 3 is a substantially conical shape, but may be configured to be deployed in another shape (for example, a cylindrical shape) that can surround the head H ₁ .

  As shown in FIGS. 1 and 2, the inflator 4 as a deployment means is provided in the main body 2, and gas (compressed air) is introduced into the airbag 3 by exploding explosives, and the airbag 3 is instantaneously moved. Inflate to expand.

  The main body 3 is provided with a plurality of detection means 5 so as to go around the annular portion. This detection means 5 is an IR sensor that detects a flame generated at the time of an explosion, and is configured to be able to detect 360 ° centering on the user H, so that it can reliably detect the flame no matter which direction the explosion occurs. can do. When detecting the flame, the IR sensor 5 outputs a detection signal to the control unit 7 described later based on the detection.

  The main body 3 is provided with a plurality of other detection means 6 so as to go around the annular portion. The other detection means 6 is a pressure sensor that detects a shock wave or a blast generated at the time of an explosion, and is configured to be able to detect 360 ° around the user H as in the case of the IR sensor 5. Even if an explosion occurs, a shock wave or a blast can be reliably detected. When the pressure sensor 6 detects a shock wave or a blast, based on the detection, the pressure sensor 6 outputs a detection signal to the control unit 7 described later in the same manner as the IR sensor 5.

  Further, the main body 3 is provided with a control means (control unit) 7. As shown in FIGS. 4 and 5, the control unit 7 is electrically connected to the IR sensor 5 and the pressure sensor 6 and to the inflator 3, and is output from the IR sensor 5 or the pressure sensor 6. When this detection signal is received, a deployment command signal is output so that the inflator 4 deploys the airbag 3.

Here, the operation of the human body protection device 1 when an explosion occurs will be described. As shown in FIG. 5, when an explosion occurs in an arbitrary place in a powder storage or a factory, one IR sensor 5b detects a flame generated by the explosion among the plurality of IR sensors 5 (5a to 5n). When detecting the flame, the IR sensor 5b outputs a detection signal to the control unit 7. When the detection signal from the IR sensor 5b is input, the control unit 7 outputs a deployment command signal to the inflator 3 (see FIG. 4). When the inflator receives the deployment command signal, the explosive device explodes the explosive and sends the compressed air into the airbag 3. Thereby, the airbag 3 can be inflated and deployed so as to surround the head H _{1 of the} user H and protect the head H ₁ from the flame. Further, once the airbag 3 is deployed, the head H ₁ can be protected not only from a flame but also from a shock wave or a blast and debris scattered with the blast. Note that the IR sensor 5 and the pressure sensor 6 that are detection means normally output the detection signal to the control unit 7 in response to the IR sensor 5 that normally detects the flame generated at the time of the explosion. When there is an object between the users H and the IR sensor 5 does not react or the reaction is delayed, the pressure sensor 6 detects a shock wave or a blast and the airbag 3 is deployed. Thus, the protection performance is improved by detecting twice.

According to the above-described embodiment, when explosives explode in an explosive cabinet or factory, the IR sensor 5 detects the flame before the flame or the heat of the flame reaches the user H, and the work The airbag 3 is deployed so as to surround the head H _{1 of the} person H to protect it from flames and heat. Thereby, the injury by an explosion and the death accident can be reduced.

In addition, the pressure sensor 6 detects the shock wave or the blast before the shock wave or the blast and the debris scattered with the blast reach the user H, so that the air surrounds the head H ₁ of the worker H. The bag 3 is deployed to protect it. Thus, by providing the pressure sensor 6 in addition to the IR sensor 5, for example, an object exists between the user H and the flame, and the IR sensor 5 cannot detect the flame. Even in this case, the airbag 3 can be deployed to protect the user H.

  Furthermore, since the reinforcing fiber such as carbon fiber is used as the material of the airbag 3, the airbag 3 has sufficient strength to withstand flames, shock waves and the like. Therefore, the deployed airbag 3 will not be damaged.

Moreover, since the airbag 3 is substantially conical when inflated and deployed, it is suitable for surrounding the head H _{1 of the} user H, and the side circumferential surface of the deployed shape is a single piece. Therefore, there is no gap or the like on the side peripheral surface of the deployed airbag 3, and it is possible to prevent the wearer H from being damaged by a flame or shock wave entering through the gap. That is, reliable human protection is possible.

FIG. 6 shows another embodiment of the present invention. In the embodiment described above, the head H ₁ is protected among the specific parts of the human body H. For example, as shown in FIG. the body portion H ₂ may be configured to surround. Further, as shown in FIG. 6 (b), the air bag 3 may be configured to surround the arm portions H ₃ of the user H to deploy. Furthermore, it may be configured to protect the whole body of the user H in combination with the above-described embodiment that protects the head H ₁ .

  Note that the technique of the human body protection device 1 according to the present invention can be used not only for human body protection but also for a protection device that protects other than the human body such as the automobile 10 from flames or shock waves caused by an explosion as shown in FIG. It is.

DESCRIPTION OF SYMBOLS 1 ... Human body protection apparatus 3 ... Air bag 4 ... Deployment means (inflator)
5 ... Detection means (IR sensor)
6. Other detection means (pressure sensor)
7. Control means (control unit)
H ... Human body

  The present invention relates to a human body protection device using an air bag device, for example, a human body from a flame, a shock wave or a blast (and debris scattered with the blast) generated when an explosive explodes in an explosive warehouse or a factory. The present invention relates to a human body protection device capable of protecting a specific part.

  In general, an airbag device is used for inflating an airbag by instantaneously injecting a gas into a compactly folded airbag, thereby mainly reducing an impact received by an object. Conventionally, there are various techniques for protecting a human body using an airbag. Among them, those installed in automobiles are well known. The airbag mounted on the automobile protects the occupant by the acceleration sensor reacting when the automobile collides, and the airbag is instantaneously deployed. In addition, for example, the airbag device disclosed in Patent Document 1 is equipped with a voice detection means that is mounted on a human body and detects the voice of the user, and the user fell down when working at a high place on a construction site or the like. In some cases, the airbag is deployed by voice to absorb the impact caused by dropping. Furthermore, it is an airbag device similarly worn on the human body. For example, the airbag device disclosed in Patent Document 2 detects the acceleration and angular velocity when the user falls during daily life or business. As a result, the airbag is deployed to absorb the impact received by the user when the vehicle falls over.

  A major characteristic of such an air bag device is that the air bag is instantaneously deployed by the reaction of various sensors. As a result, the airbag can be deployed to protect the object (mainly the human body) even in a very short time that cannot be handled by a person.

JP 2003-126283 A Japanese Patent Laid-Open No. 2008-22934

  By the way, the inventors of the present invention have been searching for means for protecting the human body from flames and shock waves generated when explosives explode, for example, in an explosive warehouse or factory, but there is no effective means. Was the current situation. If explosives explode in a gunpowder depot or factory, there is a possibility of causing great damage to the human body. In particular, the face with exposed skin may be damaged greatly. The damage caused by the explosion is wide-ranging, including burns caused by flames, falls caused by the blast, damages caused by debris flying by the blast, and brain damage caused by shock waves. Since these phenomena occur in a very short time at the time of the explosion, it is impossible for people nearby at the time of the explosion to evacuate after recognizing the explosion.

  The inventors of the present invention have examined whether the above-described characteristics of the airbag device can be used to protect a human body from a flame, a shock wave, and the like generated during an explosion. However, in the airbag devices disclosed in Patent Documents 1 and 2, the sensor responds to an event mainly performed by the user. That is, the sensor responds to the user's voice (Patent Document 1) and the acceleration and angular velocity when the user falls (Patent Document 2). Not suitable for use to protect the human body from events.

  The present invention utilizes the characteristic of an airbag device that an airbag is instantaneously deployed when a sensor reacts. For example, a flame, a shock wave, or a blast generated when an explosive explodes in an explosive warehouse, a factory, or the like ( Another object of the present invention is to provide a human body protection device that protects a specific part of the human body from debris scattered with the blast.

Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
Human body protection device according to claim 1, wherein according to the present invention includes a main body 2 of circular that will be mounted around the human body H,
An airbag 3 that is housed inside the main body 2 in a state before deployment, and is deployed so as to surround a specific part of the human body H in a cylindrical shape or a conical shape in the deployed state ;
Deployment means 4 for inflating and deploying the airbag 3 instantaneously;
Detecting means 5 for detecting a flame generated around the human body H and outputting a detection signal based on the detection;
Control means 7 for receiving the detection signal output from the detection means 5 and outputting a deployment command signal to the deployment means 4 when the detection signal is input;
With
A plurality of detection means 5 are provided in an annular portion of the main body 2 so as to be able to detect 360 degrees around the human body H.

  Until now, airbag devices have been used to mitigate the impact on the human body by momentarily deploying the bag between the object to be protected (in this case, the human body) and the object that the human body collides with. In this case, by providing a detecting means (specifically, an IR sensor) 5 for detecting a flame, a specific part of the human body H is detected before the flame or heat of the flame reaches the human body H at the time of explosion. The airbag 3 is deployed and protected so as to surround it.

The human body protection device according to claim 2 is the human body protection device according to claim 1,
Furthermore, it comprises other detection means 6 for detecting a shock wave or a blast generated around the human body H and outputting a detection signal based on the detection,
The control unit 7 receives the detection signal output from the other detection unit 6 and outputs a deployment command signal to the deployment unit 4 when the detection signal is input.

  In addition to flames, there are things that can damage the human body during an explosion. Such as shock waves or blasts and debris scattered with the blasts. In this case, in addition to the detection means (IR sensor) 5 for detecting the flame, other detection means (specifically a pressure sensor) 6 for detecting the shock wave or the blast is provided, so that the shock wave or the blast and this The airbag 3 is deployed and protected so as to surround a specific part of the human body H before debris scattered by the blast reaches the human body H.

The human body protection device according to claim 3 is the human body protection device according to claim 1 or 2,
The material of the airbag 3 is characterized by using reinforcing fibers such as carbon fibers.

  Since a reinforcing fiber such as carbon fiber is used as the material of the airbag 3, the airbag 3 has a sufficient strength to withstand flames, shock waves, and the like.

The human body protection device according to claim 4 is the human body protection device according to any one of claims 1 to 3,
The airbag 3 is characterized in that a deployed shape is a cylindrical shape or a conical shape, and a side peripheral surface of the deployed shape is formed in a single sheet.

  Since the airbag 3 becomes a cylindrical shape or a conical shape when inflated and deployed, the airbag 3 can surround specific parts such as the head, limbs, and trunk of the human body H. Further, since the airbag 3 has a single peripheral surface in the deployed shape (cylindrical or conical), there is no gap or the like on the lateral surface of the deployed airbag 3.

  According to the human body protection device of the present invention, for example, when explosives explode in an explosive warehouse or a factory, etc., by providing a detection means for detecting flames, the flame or the heat of the flames is expelled during the explosion. The detection means detects the flame before reaching the position, and the airbag is deployed so as to surround a specific part of the human body to protect it from the flame and heat. As a result, it is possible to reduce injuries and fatal accidents due to explosives such as gunpowder.

  In addition to the detection means for detecting flames, other detection means for detecting shock waves or blasts are provided, so that shock waves or blasts and debris scattered along with the blasts at the time of an explosion may reach the human body. Another detection means detects a shock wave or a blast, and the airbag is deployed to protect a specific part of the human body. In addition, by providing other detection means for detecting other than the flame in this way, for example, even when an object exists between the human body and the flame and the flame cannot be detected, the airbag is deployed. Can protect the human body.

  Further, since reinforcing fibers such as carbon fibers are used as the material of the airbag, the airbag has sufficient strength to withstand flames, shock waves, and the like. Therefore, a situation such as breakage of the deployed airbag does not occur.

  In addition, since the airbag becomes cylindrical or conical when inflated and deployed, it can surround specific parts such as the head, limbs, and trunk of the human body, and in its deployed shape (cylindrical or conical). Since the side peripheral surface is a single sheet, there is no gap on the side peripheral surface of the deployed airbag, and it is possible to prevent a human body from being damaged by a flame or shock wave entering through the gap. That is, reliable human protection is possible.

It is a front view which shows embodiment (before deployment of an airbag) of a human body protection apparatus. It is a front view which shows embodiment (after deployment of an airbag) of a human body protection apparatus. (A) It is typical sectional drawing which shows the accommodation state of an airbag. (B) It is typical sectional drawing which shows the expansion | deployment state of an airbag. It is a functional block diagram in embodiment of a human body protection apparatus. In embodiment of a human body protection apparatus, it is explanatory drawing which shows the process sequence from the occurrence of an explosion until an airbag is deployed. (A) It is a front view which shows other embodiment. (B) It is a front view which shows other embodiment. It is explanatory drawing which shows other embodiment.

Embodiments of the present invention will be specifically described below with reference to the drawings.
This embodiment (human body protection device) is configured to be worn on a human body, and the object is, for example, an operator working in an explosives store or a factory, and as shown in FIGS. In addition, a specific part of the human body (the head in this embodiment) is protected.

  As shown in FIGS. 1 to 3, the human body protection device 1 is an airbag device, and includes an annular main body 2 that is mounted around the neck of a human body (user) H, and an airbag 3 that is accommodated in the main body 2. And deployment means 4 for deploying the airbag 3, detection means 5 (6), and control means 7.

As shown in FIG. 3, the airbag 3 uses a reinforcing fiber such as carbon fiber as a material of the fabric, is folded in a compact state in the stored state, and is stored inside the annular portion of the main body 2. As shown in FIG. 2, the airbag 3 is inflated and deployed so as to surround the head H _{1 of the} user H, and has a substantially conical shape with a predetermined thickness spreading upward from the annular portion in the deployed state. At this time, the user's head is accommodated in the airbag 3 having a substantially conical shape. Moreover, the airbag 3 is formed in a single sheet on its side peripheral surface (that is, a substantially conical side peripheral surface) in the deployed shape, and has no joints or gaps. In this embodiment, the deployed shape of the airbag 3 is a substantially conical shape, but may be configured to be deployed in another shape (for example, a cylindrical shape) that can surround the head H ₁ .

  As shown in FIGS. 1 and 2, the inflator 4 as a deployment means is provided in the main body 2, and gas (compressed air) is introduced into the airbag 3 by exploding explosives, and the airbag 3 is instantaneously moved. Inflate to expand.

  The main body 2 is provided with a plurality of detection means 5 so as to go around the annular portion. This detection means 5 is an IR sensor that detects a flame generated at the time of an explosion, and is configured to be able to detect 360 ° centering on the user H, so that it can reliably detect the flame no matter which direction the explosion occurs. can do. When detecting the flame, the IR sensor 5 outputs a detection signal to the control unit 7 described later based on the detection.

  The main body 2 is provided with a plurality of other detection means 6 so as to go around the annular portion. The other detection means 6 is a pressure sensor that detects a shock wave or a blast generated at the time of an explosion, and is configured to be able to detect 360 ° around the user H as in the case of the IR sensor 5. Even if an explosion occurs, a shock wave or a blast can be reliably detected. When the pressure sensor 6 detects a shock wave or a blast, based on the detection, the pressure sensor 6 outputs a detection signal to the control unit 7 described later in the same manner as the IR sensor 5.

  Further, the main body 2 is provided with a control means (control unit) 7. As shown in FIGS. 4 and 5, the control unit 7 is electrically connected to the IR sensor 5 and the pressure sensor 6 and to the inflator 3, and is output from the IR sensor 5 or the pressure sensor 6. When this detection signal is received, a deployment command signal is output so that the inflator 4 deploys the airbag 3.

Here, the operation of the human body protection device 1 when an explosion occurs will be described. As shown in FIG. 5, when an explosion occurs in an arbitrary place in a powder storage or a factory, one IR sensor 5b detects a flame generated by the explosion among the plurality of IR sensors 5 (5a to 5n). When detecting the flame, the IR sensor 5b outputs a detection signal to the control unit 7. When the detection signal from the IR sensor 5b is input, the control unit 7 outputs a deployment command signal to the inflator 3 (see FIG. 4). When the inflator receives the deployment command signal, the explosive device explodes the explosive and sends the compressed air into the airbag 3. Thereby, the airbag 3 can be inflated and deployed so as to surround the head H _{1 of the} user H and protect the head H ₁ from the flame. Further, once the airbag 3 is deployed, the head H ₁ can be protected not only from a flame but also from a shock wave or a blast and debris scattered with the blast. Note that the IR sensor 5 and the pressure sensor 6 that are detection means normally output the detection signal to the control unit 7 in response to the IR sensor 5 that normally detects the flame generated at the time of the explosion. When there is an object between the users H and the IR sensor 5 does not react or the reaction is delayed, the pressure sensor 6 detects a shock wave or a blast and the airbag 3 is deployed. Thus, the protection performance is improved by detecting twice.

According to the above-described embodiment, when explosives explode in an explosive cabinet or factory, the IR sensor 5 detects the flame before the flame or the heat of the flame reaches the user H, and the work The airbag 3 is deployed so as to surround the head H _{1 of the} person H to protect it from flames and heat. Thereby, the injury by an explosion and the death accident can be reduced.

In addition, the pressure sensor 6 detects the shock wave or the blast before the shock wave or the blast and the debris scattered with the blast reach the user H, so that the air surrounds the head H ₁ of the worker H. The bag 3 is deployed to protect it. Thus, by providing the pressure sensor 6 in addition to the IR sensor 5, for example, an object exists between the user H and the flame, and the IR sensor 5 cannot detect the flame. Even in this case, the airbag 3 can be deployed to protect the user H.

  Furthermore, since the reinforcing fiber such as carbon fiber is used as the material of the airbag 3, the airbag 3 has sufficient strength to withstand flames, shock waves and the like. Therefore, the deployed airbag 3 will not be damaged.

Moreover, since the airbag 3 is substantially conical when inflated and deployed, it is suitable for surrounding the head H _{1 of the} user H, and the side circumferential surface of the deployed shape is a single piece. Therefore, there is no gap or the like on the side peripheral surface of the deployed airbag 3, and it is possible to prevent the wearer H from being damaged by a flame or shock wave entering through the gap. That is, reliable human protection is possible.

FIG. 6 shows another embodiment of the present invention. In the embodiment described above, the head H ₁ is protected among the specific parts of the human body H. For example, as shown in FIG. the body portion H ₂ may be configured to surround. Further, as shown in FIG. 6 (b), the air bag 3 may be configured to surround the arm portions H ₃ of the user H to deploy. Furthermore, it may be configured to protect the whole body of the user H in combination with the above-described embodiment that protects the head H ₁ .

  Note that the technique of the human body protection device 1 according to the present invention can be used not only for human body protection but also for a protection device that protects other than the human body such as the automobile 10 from flames or shock waves caused by an explosion as shown in FIG. It is.

DESCRIPTION OF SYMBOLS 1 ... Human body protection apparatus 3 ... Air bag 4 ... Deployment means (inflator)
5 ... Detection means (IR sensor)
6. Other detection means (pressure sensor)
7. Control means (control unit)
H ... Human body

Claims (4)

Attached to the human body,
An airbag that is deployed to surround a specific part of the human body;
Deployment means for momentarily inflating and deploying the airbag;
Detecting means for detecting a flame generated around the human body and outputting a detection signal based on the detection;
Control means for receiving the detection signal output from the detection means and outputting a deployment command signal to the deployment means when the detection signal is input;
A human body protection device comprising: Furthermore, it comprises other detection means for detecting a shock wave or a blast generated around the human body and outputting a detection signal based on the detection,
2. The human body protection according to claim 1, wherein the control means receives the detection signal output from the other detection means, and outputs a deployment command signal to the deployment means when the detection signal is input. apparatus.   The human body protection device according to claim 1 or 2, wherein a reinforcing fiber such as carbon fiber is used as a material of the airbag.   The human body according to any one of claims 1 to 3, wherein the airbag is deployed in a cylindrical shape or a conical shape, and a side peripheral surface of the deployed shape is formed in a single sheet. Protective device.

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