JP5385086B2 - Fire hydrant equipment - Google Patents

Description

The present invention relates to a fire hydrant device that opens a fire hydrant door and pulls out a hose with a water discharge nozzle to discharge water.

  Conventionally, a fire hydrant device has been installed in a tunnel such as an automobile road in preparation for a fire.

  FIG. 10 is a front view of a conventional fire hydrant device 100, FIG. 11 is a plan view of the internal structure of the fire hydrant device 100 with the fire hydrant door 104 open, and FIG. 12 is a side view thereof. A fire hydrant door 104 and a fire extinguisher door 106 are provided on the front surface of the housing 102 of the fire hydrant apparatus 100.

  The fire hydrant door 104 is provided with a handle. The lock can be released by pulling the handle toward the front, and the lower side of the fire hydrant door 104 can be opened forward with the rotating shaft. Further, a buffer damper 108 is provided between the hydrant door 104 and the housing 102 so that the hydrant door 104 can be opened smoothly.

  A frame pipe 118 formed in a U shape is arranged on the opening side as a hose bucket structure in the hose storage portion of the housing 102. Hose buckets 116 are attached to both sides of the frame pipe 118, a hose storage space is formed inside, and a hose 112 with a nozzle 110 attached to the tip is housed inside the hose bucket 116 in the housing.

  The hose 112 is accommodated in the hose bucket 116 through a hole opened in the side plate of the hose bucket 116. In the hole, the hose 112 enters the hose bucket 116 through the protective tube 112a to prevent the hose 112 from rubbing and scratching the hose surface when the hose 112 is pulled out.

  Such a fire hydrant device 100 opens a fire hydrant door 104, pulls out a hose 112 with a nozzle 110, and operates a fire hydrant valve opening / closing lever 114 provided in the door in the event of a vehicle accident involving a fire. Can be started to discharge water.

Further, a hose guide 120 using an inverted U-shaped pipe frame or the like is provided inside the fire hydrant door 104, and the hose 114 is drawn out through the hose guide 120.

JP 2005-318972 A

  However, in such a conventional tunnel fire hydrant device, the hose guide 120 is provided inside the fire hydrant door in order to prevent the fire hydrant door from being caught. In some cases, the hose guide 120 is in the way and the workability is poor.

  In order to solve this problem, it is conceivable to eliminate the hose guide 120 provided on the fire hydrant door. However, if the hose guide 120 is abolished, the frame pipe 118 becomes a hose outlet, and the hose is pulled out using the widened hose outlet. There is a case where it wraps around the left and right ends of 104, and even if it pulls the hose in the opposite direction that wraps around thereafter, it may be caught by the door end and may not be pulled out further.

  Also, when pulling out the hose in the lateral direction along the housing surface, the hose in the inner winding state rises from the lower side toward the hose outlet and is pulled out to the outside. Bending may adversely affect the water discharge pressure.

  Further, since the shape of the hose bucket structure is relatively complicated, it is difficult to perform molding and assembly, which causes a cost increase.

An object of this invention is to provide the fire hydrant apparatus provided with the hose bucket structure which can pull out the hose wound inside by the structure with easy manufacture assembly.

The present invention is a hose bucket structure that opens a fire hydrant door that is openably and closably attached to a door opening on the front surface of a housing, draws out a hose with a nozzle stored in a hose storage portion, discharges water, surrounds the hose storage portion, and holds the hose In the fire hydrant device provided with
Hose bucket structure,
A front hose bucket structure that is formed by partitioning a hose outlet on the front surface and surrounding the front surface of the hose storage portion;
A side hose bucket structure disposed apart from the front hose bucket structure and disposed around the side surface of the hose housing;
A plate member that connects the front hose bucket structure and the side hose bucket structure together to close the gap;
In split configuration,
Side hose bucket structure
A depth frame member that surrounds the side surface of the hose housing portion and is arranged in the depth direction, fixing one end to the housing rear wall and fixing the other end to the back surface of the plate member by screws,
A cylindrical anti-slip member fitted and fitted to the depth frame member;
In fire hydrant apparatus characterized by being configured.

Here, the front hose bucket structure is
A vertical frame member that is arranged in a direction in which the hose outlet is vertically partitioned and is fixed to the bottom of the housing, and
A horizontal frame member arranged in a direction to partition the hose outlet sideways, fixing one end to the housing side wall and fixing the other end to the upper end of the vertical frame;
A horizontal frame member that is arranged in a direction to divide the hose outlet sideways, has one end fixed to the side wall of the housing and the other end fixed to the vertical frame member;
It is composed of

The plate member is provided with a nozzle holder that detachably holds the nozzle on the front surface. Moreover, the nameplate which described the operation guidance at the time of fire extinguishing operation is mounted | worn with a plate member on the front.

  According to the present invention, the hose bucket structure is divided into the front hose bucket structure, the rear bucket structure, and the plate member, so that it is necessary to bend the frame member that realizes the hose bucket structure even in a complicated shape. Since it can be configured using a linear frame member as a minimum, the manufacturing process is easy and the productivity can be improved and the cost can be reduced.

In addition, the hose housing part in the housing can be assembled by fixing the housing inner wall side of the frame member constituting the front hose bucket structure and the rear bucket structure by welding or the like, and then connecting and fixing the plate member with screws to the both. It is possible to assemble, improve the work efficiency of assembling the hose storage part in the housing, and reduce the cost.

Explanatory drawing which showed embodiment of the fire hydrant apparatus by this invention from the front 1 is a front view showing the internal structure of the main body with the door side removed. Explanatory drawing which took out and showed the guidance nameplate provided in the mounting plate of FIG. Plan view showing the internal structure of FIG. Explanatory drawing which showed the division | segmentation housing | casing structure of FIG. Explanatory drawing which showed the hose bucket structure in the state which connected the division | segmentation housing | casing of FIG. Explanatory drawing which took out and showed the hose bucket structure of this embodiment Explanatory drawing which showed the hose drawer | drawer performed by opening the fire hydrant door in this invention Explanatory drawing which showed the operation by the overhanging hose guide provided in this embodiment as compared with the case without the overhanging hose guide Front view showing the internal structure of a conventional fire hydrant device with the door removed Plan view showing the internal structure with the door of a conventional fire hydrant device opened Side view showing the internal structure of a conventional fire hydrant device with the door open

  FIG. 1 is a front view showing an embodiment of a fire hydrant device installed in a tunnel according to the present invention. In FIG. 1, the fire hydrant apparatus 10 is divided into a first housing 12-1 on the fire hydrant side and a second housing 12-2 on the fire extinguisher side, and decorative panels 14-1 and 14-2 are provided on the front surface. It is installed, and after the necessary equipment and members are assembled to the first housing 12-1 and the second housing 12-2, it is fixed by the connection fixing portion 15, and in this state, it is carried into the tunnel site. Installed on the gantry 11.

  The decorative plates 14-1 and 14-2 are provided with door openings 16 and 17, respectively. A fire hydrant door 18 and a maintenance door 22 are provided in the door opening 16 of the first housing 12-1, and the inside is a hose storage space and a valve storage space. The fire hydrant door 18 can be opened and closed forward with the lower hinge 21 as the center, and is normally closed at the closed position shown in the figure by being locked by a pair of handles 20. It can be unlocked and opened.

  A maintenance door 22 that opens and closes upward by a hinge 23 is provided on the fire hydrant door 18, and can be opened by opening the fire hydrant door 18 and releasing the inner lock at the time of inspection. Moreover, the suspension ring 25 for suspending an apparatus is attached to the upper both sides of the 1st housing | casing 12-1.

  A notification device door 24 is provided on the right side of the door opening 17 of the second housing 12-2, and a red indicator lamp 26, a transmitter 28, and a response lamp 30 are provided here. Note that a telephone jack 31 is provided inside the notification device door 24 as shown in FIG.

  The red indicator lamp 26 is always turned on so that the installation location of the fire hydrant apparatus 10 can be seen from a distance. In the event of a fire, when the transmitter 28 is pressed and the switch button is turned on, a transmission signal is transmitted to the fire receiver in the monitoring room, a fire alarm is issued, and a response signal is sent from the fire receiver accordingly, and the response lamp 30 To light up.

  A fire extinguisher door 32 is provided on the left side of the door opening 17, and the inside of the housing 12 corresponding to the fire extinguisher door 32 is used as a fire extinguisher storage space, for example, containing two fire extinguishers. The fire extinguisher door 32 is provided with a handle 34. When the handle 34 is pulled forward, the latch is released, and the fire extinguisher door 32 can be opened forward with the left side as a hinge. In addition, a viewing window 35 is provided below the fire extinguisher door 34 so that the presence or absence of the fire extinguisher can be confirmed from the outside.

  FIG. 2 is a front view showing the internal structure of the embodiment of FIG. 1 with the fire hydrant door on the first housing 12-1 side removed and the maintenance door 22 opened upward and supported by a stay 27. The maintenance door 22 is normally closed except for maintenance of the fire hydrant device, and only the fire hydrant door 18 is opened while being kept closed even during fire extinguishing work.

  In FIG. 2, a hose storage space 36 is formed on the left side of the first casing 12-1, and a valve storage space 38 is formed on the right side. The hose storage space 36 is provided with a hose bucket structure 40 that surrounds the hose storage space 36 and presses the hose 44, and forms a hose storage portion therein.

  The hose bucket structure 40 constitutes a front hose bucket structure by the arrangement of the upper horizontal frame member 72a, the lower horizontal frame member 72b, the two vertical frame members 74a and 74b, and the overhanging hose guide 76, and the door opening 16 The hose outlet 45 is partitioned and formed at a substantially central position in the left-right direction.

  A mounting plate 78 as a plate member is fixed to the right side of the vertical frame member 74b that partitions the hose outlet 45 by screws, and two depth frames, which will be clarified in the following description, above and below the right end of the mounting plate 78. The member is arranged.

  A hose holder 50 is attached to the attachment plate 76, and a nozzle 48 attached to the tip of the hose 44 pulled out from the hose outlet 45 is detachably held in the horizontal direction. A sheet-like operation guide name plate 84 is attached to the lower side of the mounting plate 78.

  As shown in FIG. 3, the operation guide nameplate 84 shows, for example, precautions regarding the method for storing the hose 44 in the hose bucket structure 40 and the method for removing the nozzle 48.

  Referring again to FIG. 2, the vertical frame members 74 a and 74 b and the overhanging hose guide 76 that partition and form the hose outlet 45 are such that when the hose 44 is pulled out, the hose 44 that is wound inside collapses or the door opening portion 16 prevents the hose 44 from being damaged or broken, and further prevents the hose 44 from being caught by the right or left end of the open fire hydrant door 18 and being unable to be pulled out.

  In particular, the overhanging hose guide 76 alleviates the sudden bending of the hose when the hose 44 is pulled out to the left, and enables a smooth pull-out.

  A hose 44 is housed in the hose storage space 36 surrounded by the hose bucket structure 40 and the inner wall of the housing. Here, a hose connection port 46 is arranged in the lower part of the right valve storage space 38, and after the primary side of the hose 44 is connected to the hose connection port 46, the hose 44 is wound into the hose storage space 36. However, in this case, the hose 44 is wound so that the hose 44 is wound clockwise when viewed from the door opening 16.

  That is, the hose 44 connected to the hose connection port 46 is first wound in the direction of the hose storage space 36 along the lower inner wall of the first housing 12-1 and is wound from the lower side of the hose storage space 36. The nozzle that is wound clockwise in the storage space, and finally the hose tip attached with the nozzle 48 is taken out from the hose outlet 45 formed near the center of the door opening 16 and fixed to the right mounting plate 78. A nozzle 48 is detachably attached to the holder 50.

  Therefore, since the hose winding start portion is sent to the lower side of the hose storage space 36 by right-hand winding, the hose 44 at the winding start portion does not slide against the hose bucket structure such as the vertical frame members 74a and 74b. Furthermore, there is no need for protection against sliding on the hose bucket structure by the conventional hose left-hand winding of FIG. 10, and the structure can be simplified.

  Further, since the handle of the nozzle 48 held sideways by the nozzle holder 50 faces the center of the lower door opening, the handle is made conspicuous when the fire hydrant door 18 is opened, and the nozzle 48 is taken out by the right hand. Even with the left hand, the handle can be easily grasped and removed with almost no sense of incongruity. In order to make the handle of the nozzle 48 more prominent, it is clearly stated that characters such as “nozzle” and “handle” are made prominent at the handle position, but the handle portion is painted with a fluorescent color or the like. Also good.

  A valve storage space 38 disposed on the right side of the hose storage space 36 provided in the first housing 12-1 has a piping system extending from the hydrant connection port 51 to which the piping from the pump facility is connected to the hose connection port 46. A water supply valve 52, a fire hydrant valve, an automatic pressure regulating valve 56, an automatic drain valve, and a maintenance device 60 are provided. Among these, a name plate 66 is provided corresponding to the fire hydrant valve opening / closing lever 64 provided on the fire hydrant valve, and the fire hydrant valve and the automatic drain valve are concealed on the back side of the name plate 66. In this way, valves that are not operated by a general operator during fire extinguishing are concealed, and the nozzle 48 and the fire hydrant valve starting lever 64 operated during fire extinguishing are conspicuous and arranged close to each other so that fire extinguishing work can be performed efficiently. .

  A pump start switch 55 is disposed in front of the water supply valve 52. The water supply valve 52 and the pump activation switch 55 are devices operated by the fire brigade when extinguishing the fire, and even if the fire hydrant door 18 is opened, it is hidden by the maintenance door 22 and is not shown to the user who wants to operate the fire hydrant device. I try not to cause unnecessary confusion.

  4 is a plan view showing the internal structure of FIG. In FIG. 4, the first housing 12-1 and the second housing 12-2 are fixed by bolts at the connection fixing portion 15. The connection fixing portion will be described later with reference to FIG. In the hose storage space 36 of the first housing 12-1, a hose bucket structure 40 is disposed in a lateral L shape as viewed from above, and the hose 44 is wound clockwise in the hose storage space 36 formed between the inner wall of the housing. Stored in an internally wound state. In addition, two fire extinguishers 37 are housed in the fire extinguisher housing space 39.

  An extended hose guide 76 is provided below the hose outlet 45 formed as a partition in the hose bucket structure 40 as shown in FIG. 2, and the extended hose guide 76 has an outer diameter of the hose 44 inside thereof. An overhanging space with a width substantially equivalent to is secured. Of course, the overhanging amount of the overhanging hose guide 76 is better to project forward so as to be in a position where it does not hit when the fire hydrant door 18 is closed, and to have at least one hose width.

  Behind the attachment plate 78 fixed to the right end of the upper horizontal frame member 72a provided in the hose bucket structure 40, the tip of the depth frame member 80a fixed to the rear wall of the housing by welding or the like is located, and is attached here. The plate 76 is fixed with screws and surrounds the side surface of the hose storage portion. An anti-slip member 82 such as a rubber bush is attached to the depth frame member 80a.

  FIG. 5 is an explanatory view showing the divided housing structure of FIG. In FIG. 5, the housing of this embodiment is divided into a first housing 12-1 and a second housing 12-2, and the first housing 12-1 contains a hose housing space 36 and valves. The box 38 is formed with a space 38.

  A hose bucket structure 40 configured using a frame pipe as a frame material is provided in the hose storage space 36 of the first housing 12-1. The hose bucket structure 40 includes a front hose bucket structure that is formed by partitioning a hose outlet 45 on the front surface and surrounding the front surface of the hose storage space 38, and a side that is disposed surrounding the side surface of the hose storage space 38. The hose bucket structure and the front hose bucket structure are arranged side by side, and are divided by a mounting plate 78 that fixes the side hose bucket structure to the rear.

  The front hose bucket structure is arranged in a direction in which the hose outlet 45 is vertically partitioned, and a pair of vertical frame members 74a and 74b that are erected by welding and fixing to the bottom of the casing, and an upper portion of the hose outlet 45 are horizontally partitioned. The upper horizontal frame member 72a having one end welded and fixed to the side wall of the casing and the other end welded and fixed to the upper ends of the pair of vertical frames 74a and 74b and the lower side of the hose outlet 45 are arranged in the horizontal direction. A lower horizontal frame member 72b having one end welded and fixed to the side wall of the housing and the other end welded to the vertical frame member 74a, and a pair of vertical frame members 74a and 74b so that the lower part of the hose outlet is projected forward. It is constituted by an overhanging hose guide 76 which is fixed by welding. The vertical frames 74a and 74b may extend to the ceiling wall of the first housing 12-1 and be welded and fixed on the inner surface of the ceiling wall.

The side hose bucket structure surrounds the side surface of the hose storage space 36 and is arranged in the depth direction. One end is welded and fixed to the rear wall of the housing, and the other end is fixed to the rear surface of the mounting plate 78 with screws. It consists of frame members 80a and 80b, and a non-slip member 82 of a cylindrical hose that is fitted and mounted on a pair of depth frame members 80a and 80b. The anti-slip member 82 prevents the inner-wound storage state from collapsing due to the hose slipping in the storage portion when the hose is pulled out by contacting the innermost wound hose. When the inner winding storage upper body collapses and the inner diameter of the inner winding becomes smaller, the hoses may be fed together from the hose outlet 45, and by providing the anti-slip member 82, more hoses than necessary may be taken out from the fire hydrant device. Absent. Further, through-holes 107 and 109 are opened in the upper portions of the left and right side walls of the first housing 12-1.
On the upper back side of the second housing 12-2, a terminal box 104 for high electricity and a terminal box 105 for weak electricity are installed.

  Screw holes 100 are formed at four locations on the left partition 106 of the first housing 12-1. A dharma hole 102 is provided in the right partition on the second housing 12-2 side corresponding to the screw hole 100. The second casing is fixed to the first casing 12-1 by screwing a bolt into the screw hole 100 of the first casing so that the bolt head protrudes to the left. The large-diameter hole of the body's Dharma hole 102 is inserted, and the bolt screw portion is moved to the small-diameter hole of the Dalma hole 102. In this state, tighten the bolts and fix them.

  Furthermore, the front frames of the first housing 12-1 and the second housing 12-2 are provided with screw holes 106, 108 for attaching the decorative plates 14-1, 14-2 at four locations, respectively. Yes.

  FIG. 6 is a front view of a state in which the first housing and the second housing of FIG. 5 are connected and fixed. In FIG. 6, a hose bucket structure 40 in which a hose outlet 45 is formed in a partition is formed in the hose storage portion 36 on the left side of the door opening 16 formed in the first housing 12-1. Most of the portion 16 is arranged on the left side of the center line 110.

  In the present embodiment with respect to such a hose bucket structure 40, the hose outlet 45 is positioned as close to the center of the door opening 16 as possible, that is, the center line 112 of the hose outlet 45 is the door opening. The pair of vertical frame members 74a and 74b are offset and attached to the right side so as to be as close to the 16 center lines 110 as possible.

  In the illustrated embodiment, the right side of the hose bucket structure 40 needs to secure the valve storage portion 38, so that the center line 112 of the hose outlet 44 coincides with the center line 110 of the door opening 16. Although not possible, the vertical frame members 74a and 74b are arranged on the right side so that the difference is minimized.

  By arranging the hose outlet 45 in the approximate center of the door opening 16 in this way, the distance from the hose outlet 45 to the left end and the right end of the fire hydrant door 18 in the open state as shown in FIG. Thus, when the hose is pulled out, it is possible to prevent the hose from being moved and caught on the left end or the right end of the fire hydrant door 18, and when a general operator opens the fire hydrant door 18, This makes it easy to recognize the hose drawer structure.

  Further, the position of the upper horizontal frame member 72a in the hose bucket structure 40 that vertically partitions the hose outlet 45 is an imaginary line that indicates the lower end of the maintenance door 22 shown in FIG. The hose bucket structure 40 is fixed to the first housing 12-1 so as to be positioned below the 114.

  As a result, when the hose is pulled out from the hose storage portion 36 through the hose outlet 45, the movement of the hose to the upper side is restricted by the lower edge 45a of the upper frame, and the lower end of the maintenance door 22 where the hose is located at the imaginary line 114 It is possible to prevent the hose from being damaged.

  FIG. 7 is an explanatory view showing the hose bucket structure of this embodiment taken out and shown in an assembled and disassembled state. FIG. 7 (A) is a plan view, FIG. 7 (B) is a front view, and FIG. 7 (C) is a side view. Yes.

  In FIG. 7, the hose bucket structure 40 has a divided structure including a front hose bucket structure, a side hose bucket structure, and a mounting plate 76.

  In the front hose bucket structure, a pair of vertical frame members 74a and 74b are arranged in a direction in which the hose outlet 45 is vertically partitioned, and the upper horizontal frame member 72a is connected to the hose outlet 45 with respect to the vertical frame members 74a and 74b. Place the upper part in the direction to divide it horizontally and fix it by welding. In addition, a lower horizontal frame member 72b is disposed in the horizontal direction toward the lower portion of the hose outlet 45 with respect to the vertical frame member 74a, and the front end is fixed by welding.

  Further, the extended hose guide 76 is welded and fixed to the vertical frame members 74a and 74b so that the lower portion of the hose outlet 45 is extended forward. Further, a hook 90 having a screw hole for fixing the mounting plate 76 is fixed to the right side of the vertical frame member 74b.

  As shown in FIG. 6, the front hose bucket structure configured as described above has the lower ends of the vertical frame members 74a and 74b welded and fixed to the bottom of the casing, and the upper horizontal frame member 72a and the lower horizontal frame member 72b. It is assembled in the housing by fixing the left end to the inner wall of the housing by welding.

  The side hose bucket structure is composed of two depth frame members 80a and 80b. As shown in FIG. 6, the rear ends of the depth frame members 80a and 80b are fixed by welding to the rear wall in the housing and protrude forward. Let

  If the front hose bucket structure and the side hose bucket structure are welded and fixed in the housing, the inside and outside of the housing are subjected to a coating treatment, and after the coating is completed, first, the cylindrical anti-slip member 82 is attached to the depth frame members 80a and 80b. Next, the mounting plate 78 to which the nozzle holder 50 and the operation guide nameplate 84 are attached is aligned, and the four portions are fixed with screws 92, whereby the hose bucket structure 40 is completed.

  Thus, the hose bucket structure of the present embodiment is a structure divided into at least a front part and a side part, and can be manufactured and assembled separately, so that production efficiency can be increased. As the frame member, a straight frame member may be prepared except for the overhanging hose guide 76. By suppressing the bending of the frame member to the minimum necessary, the production efficiency is improved and the cost is consequently reduced. ing.

  In addition, by dividing the depth frame member that constitutes the side hose bucket structure, the fitting of the cylindrical anti-slip member 82 such as a rubber bush to the depth frame members 80a and 80b is completed and the welding fixing and painting to the housing are completed. Can be done after. When the conventional front hose bucket structure and the side hose bucket structure are integrated, it is necessary to attach a non-slip member before mounting to the housing, and it is very difficult to perform painting work, assembly work and mounting work In this embodiment, the bucket member is first welded to the casing, the entire casing including the bucket member can be painted at once, and the anti-slip member 82 and the mounting plate 78 are assembled at the end. , Making manufacturing and assembly simpler and easier. Further, by providing the flat mounting plate 78 with the nozzle holder 50, the nozzle holder 50 can be fixed more firmly than when attached to the frame, and the nozzle 48 can be firmly fixed to the hose accommodating portion 36. .

  FIG. 8 is an explanatory view showing a hose drawer state in the fire hydrant device of the present invention. In FIG. 8, when pulling out the hose, first, the fire hydrant door 18 is opened forward, the nozzle 48 is removed from the nozzle holder 50, and the hose 44 is pulled out to the left as shown, for example. At the same time, the fire hydrant valve opening / closing lever 64 is rotated downward to open the fire hydrant valve, whereby water supply to the hose 44 is started, and fire water is discharged from the nozzle.

  At this time, the hose 44 internally wound in the hose storage space partitioned by the hose bucket structure 40 is drawn out through a hose outlet 45 formed in a partition substantially in the center of the door opening 16 and is internally wound. The hose 44 is pulled out while preventing it from collapsing or rubbing against the door opening 16 to damage or break the hose 44.

  In addition, when the pulling out of the hose 44 to the left side is temporarily stopped, depending on the situation, the portion of the hose 44 that has stopped from the hose outlet 45 may bend and move to the right side. The hose outlet 45 is formed at the approximate center of the door opening 16 so that the distance to the right end of the fire hydrant door 18 is sufficient compared to the case where the hose outlet is formed at the center of the hose bucket structure 40. The hose 44 can be easily pulled out by avoiding such a problem that the hose that is secured with a distance is caught on the right end of the fire hydrant door 18 and cannot be pulled out.

  Further, the lower edge of the upper horizontal frame member 72a that partitions the hose outlet 45 is located below the lower end of the maintenance door 22 provided on the upper side of the door opening 16, so When the hose 44 is pulled out through the outlet 45, the upward movement of the hose 44 is restricted by the lower edge of the upper horizontal frame member 72a, and the hose 44 is prevented from rubbing against the lower end of the maintenance door 22.

  Further, as shown in the drawing, when the hose 44 is pulled out to the left side, the hose 44 that has been wound inside is pulled out through the lower left corner portion of the hose outlet 45, and at this time, the hose is opened from the lower side to the opening inside the corner. It is pulled out in a curved state. In the present embodiment, since the underside of the hose outlet 45 is the overhanging hose guide 76, the hose 44 is not the lower left corner of the hose outlet 45, but is a position overhanging further forward by the overhanging hose guide 76. Thus, the degree of hose bending inside the hose outlet 45 is relaxed, and the hose 44 is reliably prevented from being pulled out by bending.

  FIG. 9 is an explanatory view showing the action of the overhanging hose guide 47 provided in the present embodiment in comparison with the case without the overhanging hose guide.

  FIG. 9A shows this embodiment, and shows the drawing of the hose 44 from the hose outlet 45 provided with the extended hose guide 76 on the lower side. FIG. 9B shows the extended hose guide. A hose withdrawal from a non-hose outlet 45 is shown.

  In the case of the hose outlet 45 shown in FIG. 9B in which no overhanging hose guide is provided, the hose 44 housed in the hose bucket structure 40 is housed in the hose bucket structure 40 with respect to the drawing of the hose 44 to the left. Then, after rising from the lower side with respect to the hose outlet 45, it is bent forward at the hose portion 44b, passes through the lower left corner of the hose outlet 45, and then bent leftward at the hose portion 44c.

  That is, when the hose 44 is pulled out from the hose outlet 45 in the left direction, the hose 44 bends at two locations of the hose portions 44b and 44c. In particular, the first hose portion 44b is bent in the lateral direction as seen in the plane shown in the drawing. The hose 44 that has risen from the top of the hose 44 has also been bent downward in the up-down direction over the lower side of the hose outlet 45, and the hose 44 cannot be pulled out due to the large bend in the hose portion 44b. .

  On the other hand, in the present embodiment shown in FIG. 9A, when the hose 44 wound in the hose bucket structure 40 is pulled out to the left, the lower side of the hose outlet 45 is extended from the unwinding portion. As shown in the hose portion 44a, the hose 44 enters from the bottom as shown in the hose portion 44a and is pulled out in the left direction as shown by the hose portion 44a. The hose curvature inside 45 is greatly improved and the hose 44 can be smoothly pulled out to the left without being caught at the hose outlet 45.

  In the above-described embodiment, the hose bucket structure is configured by using the pipe frame as the frame member. However, the hose bucket structure is not limited to the pipe shape, and may be configured by using a strip-shaped frame member.

  Moreover, the structure of a frame bucket structure is not limited to said embodiment, If it is a structure divided | segmented into the member of a front surface and a side surface, an appropriate structure is included. The left side of the horizontal frame 72 may be provided with a depth frame 80 that is fixed to the rear surface of the housing without being welded to the side wall of the housing, and may have a U-shaped hose bucket structure that connects each other. The extending frame 76 does not necessarily have to protrude forward, and may be formed by one horizontal frame in the same manner as the upper horizontal frame 72a.

  In the above embodiment, the case is divided into the fire hydrant side and the fire extinguisher side, but the hose outlet of the above embodiment is similarly applied to the integrated housing structure. It is possible to apply a hose bucket structure in which is disposed in the approximate center of the door opening.

Moreover, the nozzle 48 may be attached to the back surface of the fire hydrant door 18 as usual. The fire hydrant door 18 and the maintenance door 22 may be attached to the decorative plate, or attached to the housing side and arranged to be rotatable.
Furthermore, the hose storage space 36 and the valve storage space 38 may be arranged in reverse. The overhanging hose guide 47 may be configured to extend forward and obliquely downward.

  A projection member similar to the hook 90 provided on the vertical frame member 74b may be provided on the right side of the attachment plate 78, and the attachment plate 78 and the depth frames 80a and 80b may be fixed using the hook. . That is, the mounting plate 78 is arranged in a space between the front hose bucket structure and the side hose bucket structure that are arranged apart from each other and forms a closed hose storage space by connecting the hose bucket structures to each other. I just need it. The length of the depth frame member is shorter than that of the above embodiment, and is welded and fixed to the rear surface of the housing so as to match the position of the hook 90 in the depth direction. The hook 90 and the depth hose bucket structure are attached in the depth direction. The structure which connects may be sufficient.

  The vertical frame member 74 may be configured to be welded only to the inner surface of the casing ceiling surface instead of being welded to the bottom of the casing.

Further, the present invention includes appropriate modifications that do not impair the object and advantages thereof, and is not limited by the numerical values shown in the above embodiments.

10: Fire hydrant device 12-1: First housing 12-2: Second housing 36: Hose storage space 40: Hose bucket structure 44: Hose 45: Hose outlet 48: Nozzle 50: Nozzle holder 72a: Upper horizontal frame Member 72b: Lower horizontal frame member 74a, 74b: Vertical frame member 76: Overhang hose guide 78: Mounting plate 80a, 80b: Depth frame member 82: Anti-slip member

Claims (4)

A hose bucket structure is provided that opens a fire hydrant door that can be freely opened and closed at the door opening on the front of the housing, draws out the hose with a nozzle stored in the hose storage part, discharges water, surrounds the hose storage part and holds the hose. In the fire hydrant device,
The hose bucket structure,
A front hose bucket structure that is formed by partitioning a hose outlet on the front surface and surrounding the front surface of the hose storage portion;
Located remotely from the previous SL front hose bucket structure, a side hose bucket structure disposed to surround the side surface of the hose receiving section,
A plate member that connects the front hose bucket structure and the side hose bucket structure together to close the space;
In split configuration,
The side hose bucket structure is
A depth frame member that is disposed in the depth direction surrounding the side surface of the hose storage portion, fixes one end to the back wall of the housing and is screwed and fixed to the back surface of the plate member,
A cylindrical anti-slip member fitted and mounted on the depth frame member;
In fire hydrant apparatus characterized by being configured.

In the fire hydrant device according to claim 1,
The front hose bucket structure is
A vertical frame member that is arranged in a direction in which the hose outlet is vertically partitioned, and is fixed to the bottom or ceiling of the housing;
A horizontal frame member that is arranged in a direction to divide the hose outlet sideways, has one end fixed to the side wall of the housing and the other end fixed to the vertical frame member;
A fire hydrant device characterized by comprising:
2. The fire hydrant apparatus according to claim 1, wherein the plate member is provided with a nozzle holder that detachably holds the nozzle on a front surface.
  2. The fire hydrant apparatus according to claim 1, wherein the plate member is provided with a name plate indicating operation guidance at the time of fire extinguishing operation on the front surface.

Images