JP2018038527A - Fire-fighting equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide fire-fighting equipment whose maintenance is performed easily with a simple configuration, and which can achieve space saving.SOLUTION: Fire-fighting equipment includes a housing body part 13 having an opening 17 on the side face, a fire extinguisher storage container 5 provided inside the housing body part 13, a housing door 15 for opening/closing the opening 17 of the housing body part 13 by rotating, a container valve 7 for bringing a discharge port for a fire extinguisher of the fire extinguisher storage container 5 into an open state, a power supply device 9 for supplying power for driving the container valve 7, and a rechargeable battery 11 for supply power to the power supply device 9, and is configured so that when the opening 17 of the housing body part 13 is closed by the housing door 15, the power supply device 9 and the rechargeable battery 11 are located inside the housing body part 13 and the housing door 15, and at least one of the power supply device 9 and the rechargeable battery 11 is disposed on the housing door 15.SELECTED DRAWING: Figure 1

Description

  The present invention relates to fire extinguishing equipment, and more particularly to a fire extinguisher storage container, a power supply device, and a storage battery.

  Space-saving is achieved by placing a fire extinguisher container (extinguishing agent storage container), control equipment (control circuit board and operation panel), power supply device, storage battery, piping member (pipe), injection head, etc. in a cabinet (housing). At the same time, improving the maintainability is necessary in fire extinguishing equipment (package fire extinguishing equipment).

  For this reason, the layout of a fire extinguisher container, a control device, a power supply device, a storage battery, a piping member, etc. is devised. In addition, the cabinet of fire extinguishing equipment is comprised by the housing | casing main body part which has an opening part in the front, and the housing | casing door which opens and closes the said opening part.

  In conventional fire extinguishing equipment, a storage battery and a power supply device are accommodated in an empty space such as an upper portion, a rear surface, and a side surface of the casing main body in the casing main body to devise a layout.

  Here, for example, Patent Document 1 can be cited as a document related to the conventional technology.

JP 2009-56044 A

  By the way, if the storage battery and the power supply device are laid out so that they are accommodated in empty spaces such as the upper part, the back surface, and the side surfaces of the housing main body as in the prior art, there is a problem that maintenance of the storage battery and the power supply device becomes difficult.

  For example, if a storage battery or a power supply device is installed on the upper part of the housing body, the position of the storage battery or the like is about 2 m above the ground, and workability when maintaining the storage battery or the power supply device is deteriorated.

  Further, when performing maintenance of the storage battery and the power supply device, it is necessary to take out the storage battery and the power supply device outside the cabinet by removing a piping member connecting the extinguishant container and the ejection head.

  In order to facilitate the removal, it is conceivable that a storage battery or power supply device having a large mass is supported by the housing body through a slide mechanism, and the storage battery or power supply device is pulled out of the cabinet. By providing, the configuration of the fire extinguishing equipment becomes complicated.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a fire extinguishing equipment that can be easily maintained with a simple configuration and can save space.

  According to the first aspect of the present invention, a casing body having an opening on a side surface, a fire extinguishing agent storage container provided in the casing body, and a shaft extending in the vertical direction are rotated. As described above, the casing door that opens and closes the opening of the casing main body by turning and the discharge port of the extinguishing agent storage container is opened. A container valve; a power supply device that supplies power for driving the container valve; and a storage battery that supplies power to the power supply device, and the opening of the housing body is closed by the housing door. The power supply device and the storage battery are positioned inside the housing body and the housing door, and at least one of the power supply device and the storage battery is the housing. Fire extinguishing equipment provided at the door.

  The invention according to claim 2 is the fire extinguishing equipment according to claim 1, wherein the casing door is divided into a plurality of parts, and the power supply device and the storage battery are divided into the plurality of casing doors. Fire extinguishing equipment provided in either of these.

  The invention according to claim 3 is the fire extinguishing equipment according to claim 2, wherein the housing door is divided into a lower housing door and an upper housing door, and the lower housing door includes the The fire extinguishing equipment is provided with a storage battery and the power supply device.

  According to the present invention, there is an effect that it is possible to provide a fire extinguishing facility that can be easily maintained with a simple configuration and can save space.

It is a figure which shows schematic structure of the fire-extinguishing equipment (fire-extinguishing equipment with which the housing | casing door is closed) which concerns on embodiment of this invention, (b) is an IB arrow line view in (a), (c) is ( It is IC arrow view in a). It is a figure which shows schematic structure of the fire extinguishing equipment (The fire extinguishing equipment with which the upper housing door is closed and the lower housing door is open) which concerns on embodiment of this invention, (b) is the IIB arrow in (a) FIG. It is a figure which shows schematic structure of the fire extinguishing equipment (The fire extinguishing equipment with which the lower housing door is closed and the upper housing door is open) which concerns on embodiment of this invention, (b) is the IIIB arrow in (a) FIG. It is a figure which shows schematic structure of the fire extinguishing equipment (The fire extinguishing equipment in which the lower housing door and the upper housing door are open) according to the embodiment of the present invention. It is a figure which shows the fire-extinguishing equipment which concerns on a modification, Comprising: It is a figure corresponding to FIG.1 (b) etc. FIG. It is a figure which shows the fire-extinguishing equipment which concerns on another modification, Comprising: It is a figure corresponding to FIG.1 (b).

  A fire extinguishing equipment (package fire extinguishing equipment) 1 according to an embodiment of the present invention is installed and used in, for example, an electrical room, a communication machine room, or a parking lot of a complex building, factory, public transportation, hospital, etc. As shown in FIGS. 1 to 4, a cabinet (housing) 3, a fire extinguisher storage container 5, a container valve 7, a power supply device 9, and a storage battery 11 are provided. The cabinet 3 includes a housing body 13 and a housing door 15.

  An opening 17 is formed in the front surface of the housing body 13, and the fire extinguishing agent storage container 5 is provided in the housing body 13. A fire extinguisher such as carbon dioxide is stored inside the fire extinguisher storage container 5.

  The casing door 15 is provided in the casing body 13 so as to rotate about a predetermined axis CL, and the casing body 15 rotates about the axis CL. 13 openings 17 are opened and closed. The axis CL extends in the vertical direction at the other end in the lateral direction of the opening 17 of the housing body 13 and the other end in the width direction of the housing door 15.

  When the opening 17 of the housing body 13 is closed by the housing door 15, one end in the width direction of the housing door 15 is locked to one end in the lateral direction of the opening 17 in the housing body 13. The state in which the opening 17 of the housing body 13 is covered with the housing door 15 is maintained.

  A container valve (for example, a solenoid valve) 7 is provided in the fire extinguisher storage container 5, and opens and closes the discharge port of the fire extinguisher storage container 5.

  The power supply device 9 supplies power to a control circuit board 19 and an operation panel 21 which will be described in detail later. The power supply device 9 supplies power for driving the container valve 7 to the container valve 7 via the control circuit board 19 and the like. Since the power supply device 9 includes a transformer for converting voltage, the mass (weight) is large.

  The storage battery 11 supplies power to the power supply device 9 when power supply from the outside to the power supply device 9 is interrupted, such as during a power failure. Since the storage battery 11 is composed of, for example, a lead storage battery, the mass is large like the power supply device 9.

  And in the fire extinguishing equipment 1, when the opening part 17 of the housing body 13 is closed by the housing door 15, the inside of the housing body 13 and the housing door 15 (inside the cabinet 3 in the closed state). In addition, the power supply device 9 and the storage battery 11 are arranged.

  Further, the extinguishing agent storage container 5 is also located inside the closed cabinet 3, and the power supply device 9 and the storage battery 11 are integrally provided on the housing door 15.

  Note that a configuration in which at least one of the power supply device 9 and the storage battery 11 is provided integrally with the housing door 15 may be employed.

  Since the power supply device 9 and the storage battery 11 are integrally provided on the housing door 15, when the housing door 15 rotates, the power supply device 9 and the storage battery 11 also rotate together with the housing door 15. When the body door 15 is opened and the opening 17 of the housing body 13 is opened, the power supply device 9 and the storage battery 11 are located outside the housing body 13 (cabinet 3).

  The fire extinguishing equipment 1 further includes, for example, a control circuit board (a control circuit configured with a CPU, a memory, a relay, and the like) 19, an operation panel 21, a fire detection unit (not shown), an ejection head 23, and the like. Is provided. Note that a CPU and a memory may be provided on the operation panel 21.

  The control circuit board (control unit) 19 is provided in the closed cabinet 3, and the operation panel 21 is provided in most of the closed cabinet 3 so that a person operates it. An input unit such as a push button and an output unit such as an indicator lamp and an LCD appear on the outer surface of the closed cabinet 3.

  The fire detection unit detects that a fire has occurred near the fire extinguishing equipment 1. The fire detection unit is provided apart from the cabinet 3 outside the cabinet 3, for example, but may be provided integrally on the outer surface of the cabinet 3 outside the cabinet 3. Further, a plurality of fire detection units may be provided.

  A container valve 7 is provided at the discharge port of the fire extinguisher storage container 5, and the ejection head 23 is provided outside the cabinet 3. The container valve 7 and the ejection head 23 are connected by a pipe 25. It is connected. When the container valve 7 is opened, the fire extinguisher in the fire extinguisher storage container 5 passes through the container valve 7 and the pipe 25 and is discharged from the ejection head 23 to the outside of the cabinet 3. Note that a separate pipe may be connected to the tip of the ejection head 23 and the fire extinguishing agent may be discharged from the tip of the pipe.

  As described above, power is supplied to the power supply device 9 from the outside. The power supply device 9 supplies power to the control circuit board 19 and the like, and also supplies power to the storage battery 11 as necessary. The storage battery 11 supplies power to the control circuit board 19 and the like when the supply of power from the outside is interrupted.

  In the fire extinguishing equipment 1, switching between the automatic mode and the manual mode can be performed via the operation panel 21.

  In the automatic mode, the container valve 7 is closed in a normal state where no fire is generated. However, when the fire detection unit detects the occurrence of a fire, the container valve 7 is controlled under the control of the control circuit board 19. The fire extinguishing agent in the extinguishing agent storage container 5 is opened, and the fire extinguishing agent is discharged from the ejection head 23.

  On the other hand, in the manual mode, the extinguishing agent in the extinguishing agent storage container 5 is discharged from the ejection head 23 by an input from the input unit of the operation panel 21.

  The housing door 15 is divided into a plurality of parts in the vertical direction, for example, and each of the divided housing doors 15A and 15B rotates independently of each other.

  The power supply device 9 and the storage battery 11 are provided in any of the housing doors 15A and 15B divided into a plurality.

  That is, the power supply device 9 and the storage battery 11 are provided in one housing door 15A among the housing doors 15A and 15B divided into a plurality, but each housing door is divided into a plurality of housing doors. The power supply device 9 may be provided in one casing door 15A of 15A and 15B, and the storage battery 11 may be provided in the other casing door 15B.

  Furthermore, the control circuit board 19 and the operation panel 21 are also provided in any one of the housing doors 15A and 15B divided into a plurality.

  By opening all the housing doors 15A and 15B divided into a plurality, the openings 17 of the housing body 13 are all opened (see FIG. 4), and the housing doors 15A and 15B are opened. By closing all of them, all the openings 17 of the housing body 13 are closed (see FIG. 1).

  The casing door 15 is composed of a single sheet, and the opening 17 of the casing body 13 is opened by opening the single casing door 15 so that the single casing door 15 is closed. By doing so, you may be comprised so that all the opening parts 17 of the housing body part 13 may close.

  Here, the fire extinguishing equipment 1 will be described in more detail with an example.

  One horizontal predetermined direction is a front-rear direction, another horizontal predetermined direction that is orthogonal to the front-rear direction is a horizontal direction, and a direction orthogonal to the front-rear direction and the horizontal direction is an upper-lower direction. .

  The housing body 13 is formed in a rectangular bowl shape by, for example, bending a steel plate. Although the thickness of the steel plate is appropriately selected, it is desirable to use a steel plate having a thickness of 0.8 mm to 3.2 mm in order to secure necessary strength and reduce weight. The housing body 13 includes one rectangular flat bottom wall 13A, one rectangular flat upper wall 13B, and three rectangular flat side walls 13C, 13D, and 13E. Configured.

  One housing body 13 is formed, for example, by appropriately bending a sheet metal having a predetermined shape (an intermediate product having a predetermined shape with a thickness of 0.8 mm to 3.2 mm). .

  The bottom wall portion 13A and the upper wall portion 13B have their thickness directions in the vertical direction, and the upper wall portion 13B is separated from the bottom wall portion 13A by a predetermined distance above the bottom wall portion 13A and When viewed from the direction, all of the upper wall portion 13B and all of the bottom wall portion 13A overlap each other.

  In the first side wall portion 13C, the thickness direction is in the horizontal direction, and from one side (full length of the side) in the horizontal direction of the bottom wall portion 13A to one side in the horizontal direction of the upper wall portion 13B. It stands up to (the total length of the side).

  In the second side wall portion 13D, the thickness direction is the front-rear direction, and from the rear end side (full length of the side) of the bottom wall portion 13A to the rear end side (full length of the side) of the upper wall portion 13B. ) Has stood up.

  The thickness of the third side wall portion 13E is in the horizontal direction, and the other end in the horizontal direction of the upper wall portion 13B extends from the other side in the horizontal direction of the bottom wall portion 13A (the total length of the side). It stands up to the side (the total length of the side).

  In addition, the cross section (cross section by the plane orthogonal to an up-down direction) of the three side wall parts 13C, 13D, and 13E is formed in "U" shape. Where the wall portions 13C, 13D, and 13E are not provided between the bottom wall portion 13A and the upper wall portion 13B is the opening portion 17 of the housing body portion 13, and the opening portion 17 has a rectangular shape. It is formed and is located in front of the housing body 13.

  Further, below the bottom wall portion 13A, for example, a base 27 made of angle steel and formed in a “B” shape is provided. The base 27 is provided integrally with the bottom wall portion 13A, and is fixed to an anchor bolt fixed to the ground when the casing main body 13 is set up on the ground or the like.

  The housing door 15 is formed in a rectangular plate shape by, for example, bending a steel plate. The housing door 15 is divided into a lower housing door 15A and an upper housing door 15B, and the storage battery 11 and the power supply device 9 are provided on the lower housing door 15A. The power supply device 9 is provided above the storage battery 11. A control circuit board 19 and an operation panel 21 are provided on the upper housing door 15B. The operation panel 21 is provided above the control circuit board 19.

  The thickness of the steel plate constituting the lower housing door 15A and the upper housing door 15B is appropriately selected. For example, the thickness is 0.8 mm to 3.2 mm, which is the same thickness as the steel plate of the housing body 13. It is desirable to use the steel plate in view of securing the necessary strength and reducing the weight.

  The lower housing door 15A is formed in a rectangular flat plate shape, and is provided in the housing body 13 via a lower housing door support member (not shown) such as a hinge. The lower housing door support member is engaged with the lower housing door 15A and the opening 17 (side wall 13E) of the housing body 13 at the other end in the lateral direction (width direction). doing.

  When the lower housing door 15 </ b> A is closed, a locked portion (not shown) provided at one lateral end of the lower housing door 15 </ b> A is provided on the housing body 13. The lower housing door 15 </ b> A is kept closed by being locked by a locking portion (not shown) provided at one end portion in the lateral direction of the opening 17. In the state where the lower housing door 15A is closed, the thickness direction of the lower housing door 15A is the front-rear direction, and the lower portion of the opening 17 of the housing body 13 (the front-rear direction). 15A, the lower housing door 15A closes the portion of the opening 17 formed in a rectangular shape.

  The upper housing door 15B is also formed in a rectangular flat plate shape, and is provided in the housing body 13 in the same manner as the lower housing door 15A. When the upper casing door 15B is closed, the thickness direction of the upper casing door 15B is the front-rear direction, and the rectangular upper portion of the opening 17 of the casing main body 13 is the upper casing. The door 15B is closed.

  The thickness of the casing doors 15A and 15B (the dimension in the front-rear direction when the opening is closed, for example, the thickness dimension of the edge formed by bending the outer periphery of the casing doors 15A and 15B) is 30 mm. The thickness of the housing doors 15A and 15B may be appropriately designed to improve the strength of the housing doors 15A and 15B. However, in order to maintain the weight reduction and improve the strength, 5 mm to 50 mm. Is desirable.

  In the state where the lower housing door 15A and the upper housing door 15B are closed, all the openings 17 of the housing body 13 are closed.

  The extinguishing agent storage container 5 is formed in a cylindrical shape, and is provided in the housing body 13 so that the central axis extends in the vertical direction and is placed on the bottom wall 13A. Yes. The extinguishing agent storage container 5 is located on the rear side in the front-rear direction, and is located on one end side in the lateral direction.

  The fire extinguishing agent storage container 5 is integrally provided on the housing main body 13 by a holding body (not shown), but can be removed from the housing main body 13 by removing the holding body, and from the opening 17. It can be taken out of the housing body 13.

  The container valve 7 is installed at the upper end of the extinguishing agent storage container 5, and the ejection head 23 protrudes from the upper surface of the cabinet 3 (housing main body 13). In addition, the piping 25 from the container valve 7 may be extended, and the ejection head may be provided at a remote location.

  Here, the opening and closing of the fire-extinguishing agent discharge port of the fire-extinguishing agent storage container 5 by the container valve 7 (particularly in the case of changing from the closed state to the open state) will be described in detail with examples.

  When an electromagnetic opener (not shown) constituting the activation device receives an activation signal (activation signal due to the occurrence of a fire) transmitted from the control circuit board 19 constituting the control unit, the electromagnetic opener is activated. Then, a needle (not shown) connected to the electromagnetic opener protrudes to break the sealing plate of the starting gas container (not shown) filled with the starting gas, and the starting gas is put into the conduit (not shown). Is sent out.

  The delivered starting gas is guided to the container valve 7 at the head of the fire extinguishing agent storage container 5, and the sealing plate (not shown) of the container valve 7 is broken, so that the container valve 7 is changed from the closed state to the open state. Then, the extinguishing agent (extinguishing gas) in the extinguishing agent storage container 5 is discharged from the ejection head 23 through the pipe 25.

  The discharged extinguishing agent is also led to a pressure switch (not shown) through the pipe 25, the pressure switch is operated by the pressure of the released gas, and the output signal is input to the control circuit board 19, and the pipe When the control circuit board 19 receives a signal from the pressure switch that detects that the gas pressure in the gas pressure 25 has increased to a predetermined pressure, the control circuit board 19 turns off the activation signal to the electromagnetic opener.

  The electromagnetic opener constituting the activation device can be connected to a cabinet of the same type installed at an adjacent or remote location, and the container valve of the fire extinguisher storage container in the cabinet can be changed from the closed state to the open state.

  The storage battery 11 is formed in a substantially rectangular parallelepiped shape, and the lower casing door 15A is below the lower casing door 15A so that the thickness direction coincides with the thickness direction of the lower casing door 15A. It is integrally installed on one surface in the thickness direction (a surface located rearward when the lower housing door 15A is in a closed state; a surface facing the inside of the housing body 13). ing.

  The power supply device 9 is also formed in a substantially rectangular parallelepiped shape, and is installed integrally with the lower housing door 15 </ b> A above the storage battery 11 in the same manner as the storage battery 11. In addition, the storage battery 11 may be provided above the power supply device 9, or the power supply device 9 and the storage battery 11 are arranged in the width direction of the lower housing door 15A (in the horizontal direction when the lower housing door 15A is closed). ) May be provided.

  Since the storage battery 11 and the power supply device 9 are installed, when the lower housing door 15A is closed, the thickness of the lower housing door 15A can be regarded as being increased rearward.

  The control circuit board 19 also has a substantially rectangular parallelepiped shape, and the upper casing door 15B is below the upper casing door 15B so that the thickness direction coincides with the thickness direction of the upper casing door 15B. One surface in the thickness direction (the surface located rearward when the upper housing door 15B is in the closed state) is integrally installed.

  The operation panel 21 is also formed in a substantially rectangular parallelepiped shape, and is installed integrally with the upper housing door 15 </ b> B above the control circuit board 19 in the same manner as the control circuit board 19. However, the input part and the output part face the outside of the housing main body part 13 through the through hole 29 formed in the upper housing door 15B. As in the case of the power supply device 9 and the storage battery 11, the arrangement positions of the control circuit board 19 and the operation panel 21 installed on the upper housing door 15B may be changed as appropriate.

  Since the control circuit board 19 and the operation panel 21 are installed, the thickness of the upper housing door 15B can be regarded as being increased rearward.

  The external shape of the cabinet 3 in a state where the housing door 15 is closed is a quadrangular prism shape, the lateral dimension is larger than the longitudinal dimension, and the height dimension is larger than the lateral dimension.

  Moreover, in the fire extinguishing equipment 1 in a state where the housing door 15 is closed, the fire extinguisher storage container 5 and the storage battery 11 are slightly separated in the front-rear direction. The design is such that the size of the gap between the extinguishing agent storage container 5 and the storage battery 11 is as small as possible. Thereby, the dimension of the front-back direction of the fire extinguishing equipment 1 can be made small.

  In addition, although the dimension of the storage battery 11 is the largest in the dimension in the front-rear direction, if the dimension in the front-rear direction of the power supply device 9 is the largest, the extinguishing agent storage container 5 and the power supply device 9 are slightly increased. If the control circuit board 19 and the operation panel 21 have the largest dimensions, the fire extinguishing agent storage container 5 and the control circuit board 19 and the operation panel 21 are slightly separated from each other. do it.

  Further, the lower casing door 15A and the upper casing door 15B have substantially the same dimension in the thickness direction and the dimension in the width direction (lateral direction), but the dimension in the height direction is the upper casing door 15B. Is larger than the lower housing door 15A.

  The upper housing door 15B and the lower housing door 15A rotate by an angle exceeding 90 ° from the closed state (see FIGS. 2 to 4). When the upper housing door 15B and the lower housing door 15A are rotated from the closed state by an angle exceeding 90 ° (for example, about 150 °), the power supply device 9 and the storage battery 11 are provided on the lower housing door 15A. Even though the control circuit board 19 and the operation panel 21 are provided on the upper housing door 15B, the opening 17 of the housing body 13 is sufficiently opened.

  That is, when the fire extinguishing equipment 1 is viewed from the front to the rear of the fire extinguishing equipment 1, when the upper housing door 15B and the lower housing door 15A are rotated by 150 ° or more from the closed state, the rectangular shape of the housing main body 13 is obtained. The entire opening 17 having the shape is not obstructed by the upper housing door 15B, the lower housing door 15A, the control circuit board 19, the operation panel 21, the power supply device 9, and the storage battery 11 provided thereon. ,appear.

  Here, the usage mode of the fire extinguishing equipment 1 will be described.

  First, a case will be described in which the fire extinguishing equipment 1 in which the housing door 15 is closed is installed in a room, for example, and the automatic mode is set in a state where no fire has occurred (normal state).

  When the fire detection unit detects that a fire has occurred, the closed container valve 7 is opened, and the extinguishing agent stored in the extinguishing agent storage container 5 is discharged from the ejection head 23.

  In the normal state, power is supplied to the fire extinguishing facility 1 from the outside of the fire extinguishing facility 1. When the supply of power from the outside is interrupted due to the occurrence of a fire or for other reasons, the power of the storage battery 11 is used.

  Next, the case where the power supply device 9 or the storage battery 11 is exchanged or inspected will be described. With the upper housing door 15B closed, only the lower housing door 15A is opened. As a result, the power supply device 9 and the storage battery 11 go out of the housing main body 13 while sticking to the lower housing door 15A (see FIG. 2).

  The power supply device 9 and the storage battery 11 are inspected in a state where the power supply device 9 and the storage battery 11 are out of the housing body 13. At the time of this inspection, the power supply device 9 and the storage battery 11 may be temporarily removed from the lower housing door 15A.

  Further, when the power supply device 9 or the storage battery 11 is replaced in a state where the power supply device 9 or the storage battery 11 is outside the housing main body 13, the power supply device 9 that has been installed in the lower housing door 15A until then is replaced. Then, the storage battery 11 is removed from the lower housing door 15A, and then the new power supply device 9 and the storage battery 11 are attached to the lower housing door 15A.

  Then, after the power supply device 9 and the storage battery 11 are inspected and replaced, the lower housing door 15A is closed and, for example, the automatic mode is set.

  Next, when inspecting or replacing the control circuit board 19 or the operation panel 21, only the upper housing door 15B is opened with the lower housing door 15A closed (see FIG. 3). The control circuit board 19 and the operation panel 21 are exchanged and inspected in the same manner as in the case of the device 9 and the storage battery 11.

  Next, when the fire extinguishing agent storage container 5 or the container valve 7 is exchanged or inspected (including the exchange and filling of the extinguishing agent), the lower housing door 15A and the upper housing door 15B are left open (see FIG. 4), the pipe 25 is removed, and the fire extinguisher storage container 5 and the container valve 7 are carried out of the housing body 13. After this, replacement and inspection (including replacement and inspection of the extinguishing agent in the extinguishing agent storage container 5) are performed. The extinguishing agent storage container 5 and the container valve 7 are installed at predetermined positions inside the housing body 13 and the lower housing door 15A and the upper housing door 15B are closed.

  In the inspection of the fire extinguishing agent storage container 5 and the container valve 7, the lower housing door 15A and the upper housing door 15B are opened, and the fire extinguishing agent storage container 5 and the container valve 7 are moved to the housing body 13. It may be performed while it is installed inside.

  Further, in the above inspection of the fire extinguishing equipment 1, it is desirable to turn off the main switch (not shown) of the fire extinguishing equipment 1.

  According to the fire-extinguishing equipment 1, the power supply device 9 and the storage battery 11 are provided on the housing door 15, so that the empty space in the cabinet 3 can be effectively used, and the power supply device 9 and the storage battery 11 can be used. Even without providing a supporting slide mechanism, the power supply device 9 and the storage battery 11 can be taken out of the cabinet 3 (housing main body 13) simply by opening the housing door 15. Thereby, in the fire extinguishing equipment 1, the structure is simplified, it is easy to maintain, and space saving is achieved.

  Moreover, according to the fire extinguishing equipment 1, since the power supply device 9 and the storage battery 11 are provided in any one of the housing doors 15A and 15B divided into a plurality, when performing maintenance of the power supply device 9 and the storage battery 11 It is only necessary to open one of the plurality of housing doors 15A and 15B, and the power supply device 9 and the storage battery 11 can be easily maintained.

  Further, dividing the housing door 15 reduces the height of each housing door 15A, 15B, and reduces distortion when the housing door 15 is opened. Thereby, the plate | board thickness of the board | plate material which comprises the housing body part 13 and the housing door 15 can be made thin.

  By dividing the housing door 15 and reducing the height of each housing door 15A, 15B, door fixing brackets (door catches) can be eliminated. A cam (not shown) is provided inside the housing of a door handle (not shown) so that the doors 15A and 15B are not easily opened.

  That is, if the housing door 15 is configured with one sheet, the height of the housing door 15 is increased. Therefore, in order to ensure the rigidity of the casing door 15 in the closed state, in addition to the locked part provided in the casing door at the center in the height direction, the upper end and the lower end in the height direction. A door catch may be provided on the housing door 15.

  However, by dividing the housing door 15 and reducing the height of each housing door, it is not necessary to provide the door catch. In addition, problems due to catching (preventing difficulty in opening the housing door 15 in an emergency, damage to mounted components due to impact when opened) are eliminated.

  Moreover, by dividing the housing door 15, each housing door 15 </ b> A, 15 </ b> B is reduced in weight, and each housing door 15 </ b> A, 15 </ b> B is attached to the housing body 13 when the fire extinguishing equipment 1 is assembled. Easy to install. Furthermore, since each housing door 15A, 15B is reduced in weight, components for rotating the door can be reduced in size, which can contribute to the weight reduction of the housing.

  Moreover, since the housing door 15 is divided into the lower housing door 15A and the upper housing door 15B, the weight of each door can be reduced (the mass can be reduced), and the weight can be reduced. The housing doors 15A and 15B can be prevented from falling.

  Moreover, according to the fire extinguishing equipment 1, since the large storage battery 11 and the power supply device 9 are provided in the lower casing door 15A, the center of gravity of the fire extinguishing equipment 1 can be lowered, and the fire extinguishing equipment 1 is stabilized. Can be installed in the state.

  Moreover, according to the fire extinguishing equipment 1, the storage battery 11 and the power supply device 9 are provided on the lower housing door 15A, and the control circuit board 19 and the operation panel 21 are provided on the upper housing door 15B. In addition, parts and devices to be mounted on the housing door 15 are mounted separately for each application or construction method, thereby improving convenience and improving maintainability.

  Moreover, according to the fire extinguishing equipment 1, when the maintenance of the control circuit board 19 and the operation panel 21 is performed, it is only necessary to open and close the upper housing door 15B, and it becomes easy to secure a scaffold for the person who performs the maintenance.

  Moreover, according to the fire extinguishing equipment 1, when maintaining the power supply device 9 and the storage battery 11 having a large mass, it is only necessary to open the small lower housing door 15A, and therefore the labor for opening and closing the lower housing door 15A. Can be reduced.

  Moreover, according to the fire extinguishing equipment 1, by opening the upper housing door 15B and the lower housing door 15A, the entire opening 17 of the housing body 13 is exposed, and maintenance of the fire extinguishing agent storage container 5 is performed. It becomes easy to do.

  As described above, by using two upper and lower casing doors 15, it is possible to use them according to the work situation, and it is possible to achieve both maintainability and space saving.

  By the way, as shown in FIG. 5, at least one of the lower housing door 15 </ b> A and the upper housing door 15 </ b> B may be divided in the width direction so as to have a double door opening.

  Moreover, as shown in FIG. 6, the extinguishing agent storage container door 31 opened and closed by the rear surface (or side surface) of the housing body 13 is provided, and the extinguishing agent storage container door 31 is similar to the case of the storage battery 11 or the like. Thus, the fire extinguishing agent storage container 5 may be provided.

  Thereby, it becomes easy to take out the fire extinguishing agent storage container 5 to the outside of the housing body 13 and install it in the housing body 13.

  In FIGS. 5 and 6, the display of the storage battery 11, the power supply device 9, and the like is omitted.

DESCRIPTION OF SYMBOLS 1 Fire extinguishing equipment 5 Fire extinguisher storage container 7 Container valve 9 Power supply device 11 Storage battery 13 Housing | casing main-body part 15 Housing | casing door 15A Lower housing door 15B Upper housing door 17 Opening part CL axis

Claims (3)

A housing body having an opening on a side surface;
A fire extinguisher storage container provided in the housing body,
A housing door which is provided in the housing main body so as to rotate about an axis extending in the vertical direction, and opens and closes an opening of the housing main body by rotating,
A container valve for opening a fire-extinguishing agent outlet of the fire-extinguishing agent storage container;
A power supply for supplying electric power for driving the container valve;
A storage battery for supplying power to the power supply;
And the power supply device and the storage battery are positioned inside the housing body and the housing door when the opening of the housing body is closed by the housing door. The fire extinguishing equipment is characterized in that at least one of the power supply device and the storage battery is provided on the housing door. In the fire extinguishing equipment according to claim 1,
The housing door is divided into a plurality of parts,
The fire extinguishing equipment, wherein the power supply device and the storage battery are provided in any of the plurality of housing doors. In the fire extinguishing equipment according to claim 2,
The housing door is divided into a lower housing door and an upper housing door,
The fire extinguishing equipment, wherein the storage battery and the power supply device are provided on the lower housing door.

Images