KR102065500B1 - Device for forcibly bursting container at specified pressure and method thereof - Google Patents

Abstract

A specified test pressure bursting device for a composite respirator container is disclosed. The prescribed test pressure bursting device for a container for air respirator made of a composite material according to the present invention, after installing the air respirator container inside the enclosure of the air respirator safety filling box, pressurized fluid to the air respirator container at the prescribed pressure And then forcibly ruptures the container for the air respirator under a prescribed pressure state, and is operated by externally supplied power, hydraulic pressure or pneumatic force to forcibly break the surface of the air respirator container, thereby causing the air respirator container to rupture. Rupture means for causing the rupture at a prescribed pressure; And provided in the container for the air respirator provided in the container receiving member installed inside the enclosure, or installed in the container receiving member, and integrating the rupture means with the container receiving member or the container for the air respirator. Characterized in that comprises an installation member for. According to the present invention, the bursting means for forcibly rupturing the air respirator container in the air respirator container (or air tank) is installed by the installation member, thereby providing a prescribed pressure to the air respirator container within the air respirator safety filling box. It is possible to force the rupture accurately at, thus providing the effect of accurately confirming the performance of the air respirator safety charger.

Description

Pressure test device and method for stipulating test for composite air respirator container TECHNICAL FIELD [DEVICE FOR FORCIBLY BURSTING CONTAINER AT SPECIFIED PRESSURE AND METHOD THEREOF}

The present invention relates to a specified test pressure burst device and a method of the air respirator container of the composite material, and more specifically, in order to check the performance of the air respirator safety filling charge to fill the air respirator container, The present invention relates to a pressure testing device and a method for stipulating a pressure test device for a composite respirator container which can forcibly rupture a composite respirator container at a prescribed pressure inside the respirator safety pack.

In general, the respiratory air tank (air respirator container) is mainly used by firefighters put into the fire site, it is used to prevent suffocation caused by toxic gas. Inside the breathing air tank (hereinafter referred to as the "air tank"), the compressed air is filled so that the firefighters can supply the air through the breathing mask.

In addition, the air charger for filling the air in the conventional air tank is generally filled with air at a pressure of 30 Mpa, when the air is compressed to a high pressure air-cooled or water-cooled method is used. And the temperature of the air finally discharged from the air charger proceeds in a multi-stage compression configuration is moved to the air tank to a level of 15 ℃ ~ 30 ℃ higher than the atmospheric temperature by the compressive force is stored compressed or stored.

As a device for filling the air tank for breathing, Republic of Korea Patent No. 10-1043200 (Notice: 2011.06.21) discloses an air filling device of the breathing air tank. The air filling device is provided with a cradle formed with a plurality of mounting holes, the mounting hole and the same number of hoses are connected to the air filling tube can perform the operation of removing the residual air and recharging the plurality of air tanks at the same time.

An air filling device for filling the air tank with such breathing air is installed in a government office (fire department, etc.) that requires an air tank, and directly fills the air tank with the breathing air.

However, there has been a problem of illegally operating the air filling device without permission in accordance with the high law in the fire department.

In order to solve these problems, the safety refill box for air respirator, which can safely fill air in the air respirator container made of composite material, is installed in the government office to solve the safety hazards and illegal elements due to illegal charging. Could.

However, the performance of the safety charging box could not be confirmed because no means for confirming the performance of the safety charging box for the air respirator installed in the government office was provided. In other words, the performance test on the safety box should be carried out with the items specified in the Ministry of Trade, Industry and Energy Notice and KGS Code (Korea Gas Safety Corporation Code), but the performance of the safety box could not be accurately confirmed because such equipment was not provided. .

In particular, it was possible to confirm the performance of the safety filling box by rupturing the air tank made of composite materials (aluminum, carbon fiber, etc.) at the correct pressure, but there was no means to rupture the air tank at the correct pressure. As a result, there was a problem that the performance verification test of the safety charging box could not be made accurately.

. Republic of Korea Patent No. 10-1043200 (Notification Date: 2011.06.21)

An object of the present invention is to provide a pressure regulating container for a composite air respirator in the interior of the air respirator safety pack, in order to verify the performance of the air respirator safety pack for filling air into the air respirator vessel (or air tank). To provide a means to force the rupture accurately.

In addition, the problem to be solved by the present invention is not limited to the above-mentioned technical problem, and other technical problems not mentioned are clearly to those skilled in the art from the following description. It can be understood.

The object is, according to the present invention, after installing the air respirator container inside the enclosure of the air respirator safety filling box, pressurized the fluid to the prescribed pressure for the air respirator container for the air respirator at the prescribed pressure state Bursting means for forcibly rupturing the vessel, which is operated by externally supplied power, hydraulic pressure or pneumatic force to forcibly break the surface of the vessel for air ventilator so that the vessel for air ventilator ruptures at the prescribed pressure ; And an air respirator container provided in the container receiving member installed inside the enclosure or installed in the container receiving member, for integrating the rupture means with the container receiving member or the container for the air respirator. It is achieved by means of a pressure test device for specified test of a container for an air respirator made of a composite material comprising an installation member.

The bursting means may be formed of a hot wire member which is installed to be in close contact with the surface of the air respirator container by the installation member and is heated to a high temperature by a power supplied from the outside to damage the surface of the air respirator container. .

The installation member may include: a reflective member surrounding the hot wire member to be in close contact with the surface of the container for the air ventilator, and to allow heat generated from the hot wire member to be concentrated on the surface of the container for the air ventilator; And it may be configured to include a strap for coupling the reflective member in close contact with the surface of the container for the air breathing apparatus.

When the installation member is coupled to the air respirator container, the driving body is fixed to the outer circumferential surface of the air respirator container by the installation member so that the cutting rotary blade contacts the surface of the air respirator container. The member has an elastic band for elastically binding the drive body to the air ventilator container such that the cutting rotary blade gradually penetrates into the inside of the air ventilator container when the drive body is actuated to break the air ventilator container. Or a clamp with a metal spring.

When the installation member is installed in the container receiving member, a cutting hole for passing a portion of the cutting rotary blade is formed in the container receiving member, and the driving body is formed on the outer side of the container receiving member by the installation member. Is fixed to the installation member, the driving rotary member resiliently drives the driving body so that the cutting rotary blade gradually penetrates into the inside of the air ventilator container during operation of the drive body. It may consist of a clamp having an elastic band or metal spring for binding to the outside.

A burst detection sensor is provided inside the container accommodating member for detecting a burst of the container for the air respirator, and a switch for supplying power, pneumatic or hydraulic pressure to the burst means is provided, and the switch is provided with the burst detection. Receiving a burst detection signal detected by the sensor may be configured to block the power, pneumatic or hydraulic pressure supplied to the burst means.

The object of the present invention is a method of forcibly rupturing an air respirator container at a prescribed test pressure by using a prescribed test pressure burst device of a composite air respirator container according to the present invention. An installation step of installing an air respirator container in the container accommodation member provided; The bursting means operated by power, hydraulic pressure or pneumatically supplied from the outside to forcibly break the surface of the air respirator container is installed on the outside of the container accommodating member by an installation means consisting of an elastic band or the air respirator container. Bursting means installation step for installing directly on; Pressurizing the fluid to a prescribed pressure in the container for the air respirator while the rupture means is installed; And when the pressure of the air respirator container reaches a set pressure, the bursting step of applying power, hydraulic pressure or pneumatic pressure to the bursting means causes the air respirator container to rupture, thereby rupturing the air respirator container. It is achieved by the prescribed test pressure bursting method of the container for air respirator made of a composite material comprising a.

The rupture means installation step, when the rupture means is made of a drive body and a cutting rotary blade, the rupture means is directly installed in the container for the air ventilator, while the cutting rotary blade is rotated by the elastic force of the elastic band The cutting rotary blades may be in close contact with the air respirator container so as to gradually dig the air respirator container to form an inclined space between the driving body and the outer circumferential surface of the air respirator container. .

The rupture means installation step, the rupture means is made of a driving body and a cutting rotary blade, when the rupture means is installed on the outside of the container receiving member, a portion of the cutting rotary blade passes through the container receiving member. The cutting rotary blade is brought into close contact with the container for the air respirator so that the cutting rotary blade rotates and gradually digs the container for the air respirator by the elastic force of the elastic band while the cutting rotary blade rotates. The method may further include contacting the outer surface of the accommodation member to form an inclined space between the driving body and the outer circumferential surface of the container accommodation member.

In the forced bursting step, a burst detection sensor is installed in the container accommodating member to detect a burst of the container for the air respirator, and a switch for supplying power, pneumatic or hydraulic pressure to the burst means outside the enclosure. And, The switch may further comprise the step of blocking the power, pneumatic or hydraulic pressure supplied to the bursting means by receiving the burst detection signal detected by the burst detection sensor.

According to the present invention, the rupture means for forcibly rupturing the air respirator container (or air tank) of the composite material is installed in the air respirator container or the container receiving member by the installation member, so that the inside of the air respirator safety filling box The composite air ventilator container can be forcibly ruptured at the prescribed pressure, thus providing the effect of accurately confirming the performance of the air ventilator safety pack.

In addition, it is possible to rupture the composite container accurately at a certain pressure, so that the test method can provide information necessary for design and research on the problems that may occur in the container, the internal pressure (burst) chamber for protecting the container, and the safety filling box. Can provide a beneficial effect.

1 is a schematic exploded perspective view showing a prescribed test pressure bursting device for a container for air respirator made of a composite material according to the first embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view for explaining a prescribed test pressure burst device of the container for air respirator made of the composite material shown in FIG.
3 is a schematic cross-sectional view showing a prescribed test pressure bursting device for a container for air respirator made of a composite material according to a second embodiment of the present invention.
4 is a schematic cross-sectional view showing a prescribed test pressure bursting device for a container for an air respirator made of a composite material according to a third embodiment of the present invention.
Figure 5 is a schematic flowchart illustrating a method of forcibly rupturing the air respirator container by using the specified test pressure burst device of the air respirator container according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of already known functions or configurations will be omitted to clarify the gist of the present invention.

In the accompanying drawings, Figure 1 is a schematic exploded perspective view showing a prescribed test pressure bursting device of the air respirator container made of a composite material according to a first embodiment of the present invention, Figure 2 is a composite material shown in FIG. Is a schematic cross-sectional view illustrating the specified test pressure bursting device for a respirator container.

As shown in Fig. 1 and Fig. 2, the specified test pressure bursting device of the container for air respirator made of a composite material, the air respirator container 20 inside the enclosure 12 of the air respirator safety charging box (10) After the installation, pressurize the fluid to the prescribed pressure to the air respirator container 20 using a pump or a booster, and then forcibly ruptures the air respirator container 20 under the prescribed pressure, from the outside A rupture means 30 for operating the power supply, hydraulic pressure, or pneumatic pressure to forcibly break the surface of the air respirator container 20 so that the air respirator container 20 ruptures at a prescribed pressure, 12) provided in the vessel receiving member 14 installed inside or provided in the vessel 20 for air respirator installed in the vessel receiving member 14, the bursting means 30 to the vessel 20 for the air respirator Integral or container receiving member 14 It is configured to include an installation member 40 for integration.

This will be described in more detail.

The air respirator safety charging box 10 has a structure in which a container receiving member 14 is provided inside the enclosure 12, and an air filling device (not shown) is provided. The container receiving member 14 is configured to insert the air ventilator container 20 and has an open structure at the top thereof. The air respirator safety charging box 10 of such a structure is configured to prevent an explosion accident that may occur when air is charged at high pressure in the air respirator container 20.

Air respirator container 20 is composed of a carbon fiber or a composite material composed of a combination of aluminum and carbon fiber.

The rupture means 30 is a cutting rotation for rotating the drive body 32 driven by the hydraulic, pneumatic or power supplied from the outside and the drive body 32 to break and rupture the air respirator container 20. It comprises a blade 34.

The rupture means 30 configured as described above is integrated with the air ventilator container 20 by the installation member 40 and is integrated.

That is, the drive body 32 is fixed to the outer peripheral surface of the air ventilator container 20 by the installation member 40 so that the cutting rotary blade 34 abuts on the surface of the air ventilator container 20.

On the other hand, the installation member 40, the driving body 32 so that the cutting rotary blade 34 gradually penetrates into the interior of the air ventilator container 20 when the drive body 32 is operated, and breaks the air ventilator container 20. 32) with a resilient band or metal spring clamp for elastically engaging the vessel 20 for the air ventilator.

In the present embodiment will be described based on the installation member 40 is made of an elastic band 42.

The elastic band 42 is provided with a buckle 44 is used for tightening the drive body 32 when fixing the drive body 32 to the container for air breathing apparatus 20 and to secure the tightened state.

Meanwhile, as illustrated in FIG. 2, a burst detection sensor 60 is provided inside the container accommodating member 14 to detect a burst of the air ventilator container 20. The rupture detection sensor 60 may be configured as a pressure sensor for detecting a change in pressure, but is not limited thereto, and a detection sensor having various structures may be applied.

In addition, a switch 50 for supplying power, pneumatic or hydraulic pressure to the bursting means 30 is provided. The switch 50 is provided on one side of the enclosure 12, and receives the burst detection signal detected by the burst sensor 60 to cut off the power, pneumatic or hydraulic pressure supplied to the burst means 30. It works as

The burst detection sensor 60 and the switch 50 are intended to prevent safety accidents by preventing power or pneumatic or hydraulic pressure from being continuously supplied even after the air ventilator container 20 is ruptured.

The operation of the prescribed test pressure bursting device of the container for air respirator made of the composite material according to the present invention configured as described above will be described.

In order to check the performance of the air respirator safety charging box 10 made to compress and fill air in the air respirator container 20, the air respirator container 20 in the interior of the air respirator safety charging box 10 In order to rupture the air respirator container 20 at the target pressure after filling the air with the set pressure, the driving body 32 is aired so that the cutting rotary blade 34 contacts the outer surface of the air respirator container 20. It adheres to the outer circumferential surface of the respirator container 20.

Next, the drive body 32 is bound to the air ventilator container 20 using the elastic band 42.

At this time, the elastic band 42 is in a state in which the drive body 32 is elastically bound to the air ventilator container 20 with its own elastic force.

When the driving body 32 is bound to the air ventilator container 20 by the above-described process, the air ventilator container 20 is inserted into the container receiving member 14 and installed.

When the driving body 32 of the rupture means 30 in the air ventilator container 20 is inserted into the container accommodating member 14 in a state of being bound by the installation member 40, an air filling apparatus (not shown) is used. Air is filled into the air respirator container (20).

After the air is filled to the air respirator container 20, that is, when the filling is completed at the set pressure, the actuator 50 is supplied to the driving body 32 by controlling the switch 50. To be driven.

As the driving body 32 is driven, the cutting rotary blade 34 breaks the air ventilator container 20, so that the air ventilator container 20 ruptures at a set pressure. At this time, since the driving body 32 is bound to the air ventilator container 20 by the elastic band 42, the cutting rotary blade 34 rotates and gradually penetrates the air ventilator container 20 to the air ventilator. The vessel 20 will be ruptured.

At this time, when the air ventilator container 20 is ruptured, the burst detection signal detected by the burst detection sensor 60 is transmitted to the switch 50, whereby the switch 50 is applied to the drive body 32 Shut off power, pneumatics or hydraulics so that no additional energy is supplied.

Since the air ventilator container 20 is ruptured in this process, the experimenter can check the performance of the air respirator safety filling box 10 according to the rupture of the air ventilator container 20.

On the other hand, in the accompanying drawings, Figure 3 is a schematic cross-sectional view showing a prescribed test pressure bursting device of the container for air respirator made of a composite material according to a second embodiment of the present invention.

As shown in Fig. 3, the prescribed test pressure bursting device for a container for air respirator made of a composite material according to the second embodiment is provided with a container accommodating when the installation member 40 is installed in the container accommodating member 14. The member 14 is formed with a cutting hole 14A through which a part of the cutting rotary blade 34 passes, and the driving body 32 is fixed to the outer side of the container receiving member 14 by the mounting member 40. Except that E is the same as the above embodiment.

In addition, the installation member 40 includes a driving body such that the cutting rotary blade 34 gradually penetrates into the inside of the air ventilator container 20 when the drive body 32 is operated to break the air ventilator container 20. 32 is made of an elastic band 42 for elastically binding to the outside of the container receiving member (40). Of course, the installation member 40 may be made of a clamp having a metal spring.

In a state in which the driving body 32 is elastically bound to the outside of the container receiving member 14, and the cutting rotary blade 34 is in contact with the outer surface of the air ventilator container 20 through the incision hole 14A, When power, pneumatic or hydraulic pressure is applied to the driving body 32 and the cutting rotary blade 34 is rotated and operated, the cutting rotary blade 34 breaks while digging into the outer surface of the air ventilator container 20. The respirator vessel 20 is ruptured.

As such, even when the air ventilator 20 is ruptured, the driving body 32, which is the rupture means 30, is not damaged, so that it can be reused. That is, the prescribed test pressure bursting device of the container for air respirator made of the composite material according to the second embodiment has a rupture means 30 disposed outside the container receiving member 14, so that the air respirator container 20 is ruptured. Since the rupture means 30 is not damaged or damage can be minimized, economic effects can be obtained.

In the accompanying drawings, Figure 4 is a schematic cross-sectional view showing a specified test pressure bursting device of the container for air respirator made of a composite material according to a third embodiment of the present invention.

As shown in Fig. 4, the prescribed test pressure bursting device for the container for air respirator made of the composite material according to the third embodiment has a rupture means (30) of the container for air respirator (20) by the installation member (40). It is the same as the above-described embodiment except that it is installed to be in close contact with the surface and is heated to a high temperature by the power supplied from the outside, and the heating wire member 70 is damaged to damage the surface of the air respirator container 20.

At this time, the installation member 40 is wrapped around the heating member 70, in close contact with the surface of the air ventilator container 20, the heat generated from the heating element 70 is concentrated to the surface of the air ventilator container 20 It comprises a reflecting member 44 for reflecting as possible, and a binding band 46 for bringing the reflecting member 44 into close contact with the surface of the container 20 for air breathing apparatus.

In this way, the heating member 70 is bound to the outer circumferential surface of the air ventilator container 20 by the reflecting member 44 and the binding band 46, so that high heat is generated when power is supplied to the heating member 70 Since the respirator container 20 is broken, the air respirator container 20 can be ruptured accurately at a desired pressure.

In particular, since the reflective member 44 is wrapped around the heating member 70, the heat generated from the heating member 70 acts on the air ventilator container 20 without loss, and thus the breakage of the air ventilator container 20 is prevented. It is easily done.

A method of forcibly rupturing the air respirator container made of a composite material at a specified pressure by using a prescribed test pressure burst device of the air respirator container made of the composite material configured as described above is based on FIGS. 1 to 5. Explain.

Container installation step (S1)

An air respirator container 20 is installed in the container receiving member 14 provided in the enclosure 12 of the air respirator safety charging box 10.

Bursting means installation step (S2)

The container receiving member is provided with an installation means 40 consisting of an elastic band 42 and a rupture means 30 which is operated by externally supplied power, hydraulic pressure or pneumatic force to forcibly damage the surface of the air respirator container 20. It is installed on the outside of (14) or directly on the container for air respirator 20.

If the rupture means 30 is composed of the drive body 32 and the cutting rotary blade 34, and the rupture means 30 is directly installed in the air ventilator container 20, as shown in FIG. Likewise, the cutting rotary blade 34 is in close contact with the outer surface of the air ventilator container 20 so that the cutting rotary blade 34 gradually digs the air ventilator container 20 by the elastic force of the elastic band 42. The inclined space S is formed between the driving body 32 and the outer circumferential surface of the air ventilator container 20.

In addition, when the rupture means 30 consists of the drive body 32 and the cutting rotary blade 34, and the rupture means 30 is installed outside the container receiving member 14, as shown in FIG. Likewise, a portion 14A of the cutting rotary blade 34 is formed in the container accommodating member 14 so that the cutting rotary blade 34 passes, and the cutting rotary blade 34 rotates so that the elastic band 42 is used for the air respirator. In order to dig the vessel 20 gradually, the cutting rotary blade 34 is brought into close contact with the surface of the vessel 20 for the air ventilator, and the drive body 32 is brought into close contact with the outer surface of the container receiving member 14 to drive the drive body 32. ) And the inclined space (S) is formed between the outer peripheral surface of the container receiving member (14).

In this way, a space S is formed between the drive body 32 and the outer circumferential surface of the air ventilator container 20 or between the drive body 32 and the outer circumferential surface of the container accommodation member 14, and the drive body 32 is formed. Since the elastic band 42 is bound, when the rotary cutting edge 34 rotates, the rotary cutting edge 34 is formed by the elastic force of the elastic band 42 by the elastic force of the space respirator 42 by the space S permits. 20) can be dug.

On the other hand, when the bursting means 30 is directly installed in the air respirator container 20 in the above-described container installation step (S1), after combining the bursting means 30 to the air respirator container 20, the container for the air respirator (20) is inserted into the container receiving member (14).

Pressure pressurization step (S3)

In the above-described process, the fluid is pressurized to a prescribed pressure in the container for air respirator 20 in a state where the rupture means 30 is installed.

Forced burst step (S4)

When the pressure of the air respirator vessel 20 reaches the set pressure, the driving body 32 of the bursting means 30 is driven by applying power, hydraulic pressure or pneumatic pressure to the bursting means 30. When the driving body 32 is driven, the rotary cutting edge 34 rotates to damage the air ventilator container 20. Therefore, the air respirator container 20 may rupture at a set pressure.

On the other hand, when the rupture of the air ventilator container 20 in the container receiving member 14 is detected by the rupture detection sensor 60, the switch 50 receiving the rupture detection signal is outside the enclosure 12 Shut off the power, pneumatic or hydraulic pressure supplied to the rupture means (30). This operation is to prevent a safety accident that may occur due to the continuous supply of power, pneumatic or hydraulic pressure even after the air ventilator container 20 is ruptured.

As described above, the rupture means 30 operated by power, pneumatic or hydraulic pressure is provided to damage the air respirator container 20, so that the air respirator container 20 is filled with air at a set pressure. It is possible to rupture the container for air respirator 20 accurately. That is, since the experimenter can forcibly rupture the air respirator container 20 at a desired pressure, an experiment for confirming the performance of the air respirator safety filling box 10 can be performed smoothly.

While specific embodiments of the invention have been described and illustrated above, it is to be understood that the invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the invention. It is self-evident to those who have. Therefore, such modifications or variations are not to be understood individually from the technical spirit or point of view of the present invention, the modified embodiments will belong to the claims of the present invention.

10: air respirator safety charging box 12: enclosure
14 container receiving member 14A: incision hole
20: air respirator container 30: rupture means
32: drive body 34: cutting rotary edge
40: mounting member 42: elastic belt
44: reflection member 46: binding band
50: switch 60: burst detection sensor
70: hot wire member

Claims (11)

After installing the air respirator container inside the enclosure of the air respirator safety charging box, pressurizing the fluid to the prescribed pressure to the air respirator container to forcibly rupture the air respirator container at the prescribed pressure state,
Bursting means for operating by an externally supplied power, hydraulic pressure or pneumatic force to forcibly break the surface of the air respirator container so that the air respirator container is ruptured at a prescribed pressure; And
It is provided in the container for the air respirator provided in the container receiving member is installed in the interior of the container receiving member, for integrating the bursting means to the container receiving member or the container for the air respirator Including an installation member,
The bursting means,
Is installed to be in close contact with the surface of the air respirator container by the installation member is made of a hot wire member to be heated to a high temperature by the power supplied from the outside to damage the surface of the air respirator container,
The bursting means,
A drive body driven by hydraulic, pneumatic or power supplied from the outside; And
It is rotated by the drive body and comprises a cutting rotary blade for breaking and rupturing the air respirator container,
When the rupture means is made of a hot wire member,
The installation member may include: a reflective member surrounding the hot wire member to be in close contact with the surface of the container for the air ventilator, and to allow heat generated from the hot wire member to be concentrated on the surface of the container for the air ventilator; And a binding band for bringing the reflective member into close contact with the surface of the container for the air ventilator.
When the installation member is coupled to the air respirator container, the driving body is fixed to the outer circumferential surface of the air respirator container by the installation member so that the cutting rotary blade contacts the surface of the air respirator container. The member has an elastic band for elastically binding the drive body to the air ventilator container such that the cutting rotary blade gradually penetrates into the inside of the air ventilator container when the drive body is actuated to break the air ventilator container. Or a clamp with a metal spring,
When the installation member is installed in the container receiving member, a cutting hole for passing a portion of the cutting rotary blade is formed in the container receiving member, and the driving body is formed on the outer side of the container receiving member by the installation member. Is fixed to the installation member, the driving rotary member resiliently drives the driving body so that the cutting rotary blade gradually penetrates into the inside of the air ventilator container during operation of the drive body. Consisting of a clamp with an elastic band or metal spring for binding to the outside,
A burst detection sensor is provided inside the container accommodating member for detecting a burst of the container for the air respirator, and a switch for supplying power, pneumatic or hydraulic pressure to the burst means is provided, and the switch is provided with the burst detection. Receiving a burst detection signal detected by the sensor, characterized in that configured to block the power, pneumatic or hydraulic pressure supplied to the burst means,
Pressure bursting device for specified test of composite respirator containers. delete delete delete delete delete delete A method of forcibly rupturing an air respirator container at a specified test pressure by using a prescribed test pressure burst device of the air respirator container made of the composite material according to claim 1,
A container installation step of installing a container for an air respirator in the container receiving member provided in the enclosure of the air respirator safety filling box;
The bursting means operated by power, hydraulic pressure or pneumatically supplied from the outside to forcibly break the surface of the air respirator container is installed on the outside of the container accommodating member by an installation means consisting of an elastic band or the air respirator container. Bursting means installation step for installing directly on;
A pressure pressurizing step of pressurizing the fluid to a prescribed pressure in the air respirator container in a state where the bursting means is installed; And
When the pressure of the air ventilator container reaches a set pressure, by applying power, hydraulic pressure or pneumatic to the burst means means that the bursting means breaks the air ventilator container to rupture the air ventilator container Is configured to include,
The bursting means installation step,
When the bursting means is composed of a driving body and a cutting rotary blade, and the bursting means is directly installed in the container for the air ventilator, the cutting rotary blade rotates and gradually the container for the air ventilator is moved by the elastic force of the elastic band. To dig, the cutting rotary blade is in close contact with the container for the air ventilator to form an inclined space between the drive body and the outer peripheral surface of the air ventilator container,
When the rupture means is installed on the outer side of the container accommodating member, a cutting hole is formed in the container accommodating member through which a part of the cutting rotary blade passes, and the cutting rotary blade rotates to the elastic force of the elastic band. The cutting rotary blade is brought into close contact with the container for the air respirator so as to gradually dig the container for the air respirator, and the drive member is brought into close contact with the outer surface of the container receiving member, between the drive body and the outer circumferential surface of the container receiving member. Further comprising the step of forming an inclined space,
The forced burst step,
A burst detection sensor is installed inside the container accommodating member to detect a burst of the container for the air respirator, and a switch for supplying power, pneumatic or hydraulic pressure to the burst means is installed outside the enclosure. The method may further include receiving a burst detection signal sensed by the burst detection sensor to block power, pneumatic or hydraulic pressure supplied to the burst means.
Method for bursting specified test pressure for composite respirator containers.
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