KR101778237B1 - Replacing a convenient Fire Hose Reel structure - Google Patents

Abstract

The present invention relates to a fire hose reel structure that can be conveniently replaced without replacing a fire extinguisher box that is installed in a wall of a fire extinguisher box. A plurality of fixing rods fixed to the inside of the fire extinguisher box by being coupled to the panel; The fire hose is fixed to the panel in a circularly wound state, so that the fire hose can be easily fixed and a fire can be generated. The fire hose is prevented from being twisted or bent even if the fire hose is stretched by holding the nozzle installed at one side of the fire hose, thereby facilitating the suppression of the fire.

Description

[0001] FIELD OF THE INVENTION [0001] The present invention relates to a fire hose reel structure,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fire hose reel structure that is easy to replace, and more particularly, to a fire hose reel structure for a fire hose reel that is easy to replace and which can be easily replaced with a fire hose installed inside a fire extinguisher box, Structure.

Generally, an indoor fire hydrant is a fire extinguishing facility using a fire hose and a nozzle provided in a fire hydrant in a resident of a fire extinguisher in the early stage of a fire. The structure is composed of a water source, a pressurized water supply and water supply unit, a pipe, a fire extinguisher box containing a hose, a nozzle, and the like, and a fire extinguishing pump start switch can be started and used.

The arrangement of the indoor fire extinguisher box is provided for each layer of the specific fire extinguisher, but the horizontal distance from each part of the floor to one hose fitting port can not exceed 25m. The indoor fire hydrant opening and closing valve should be installed at a distance of 1.5m or less from the floor. The volume of water source is to be not less than the value obtained by multiplying 2.6m ³ by the installation number of indoor fire hydrant (the number of installation is more than 5, when it is more than 5).

When all indoor fire extinguishers in each layer are used at the same time, the water pressure of each nozzle end should be 1.7kg / ㎠, and the discharge rate should be 130ℓ / min or more. Indoor fire hydrants should be marked with fire extinguishers on the surface and an indicator light (red light) on the top of the fire hydrant box. The light should be reflected at an angle of 15 ° or less to the mounting surface and easily identifiable at a distance of 10m.

A dedicated pipe is installed in each layer, and a check valve is provided in a pipe nearest to the ejection face of the pressurized water supply / discharge device. In the absorptive pipe of the pressurized water supply device using the pump, a hood valve is provided for the filtration device and the water level lower than the pump, and a stop valve is provided for the other. Corrosion resistance and heat resistance pipes shall be used. In case of using main pipe with a diameter of not less than 50mm and connecting pipes of connection pipe system, pipe diameter shall be not less than 100mm and branch pipe length shall be not less than 65mm.

1, the conventional fire hose 14 is folded and folded over a long fire hose 14 so as to be hung on a hook provided on the fire extinguisher box 10, Install it.

However, since the folded portion of the folded portion is partially broken during the storage for a long period of time, the fire hose 14 is partially broken, which makes it difficult to fire quickly.

In addition, when the fire hose 14 is hooked to the hanger sequentially by the fire hose user, the fire hose is often twisted and pulled. The twisted hose is returned to its original position due to the high water pressure during the supply of the water for fire fighting. In this process, the water nozzle 15 is rotated due to the high water pressure, so that a fire accident occurred.

In order to solve the problem of the fire hose stored in the conventional fire hydrant box shown in Fig. 1, the prior art has been disclosed as follows.

Korean Registered Patent No. 10-1351939 (Announcement 2014.1.15) "Fire extinguisher with fire-extinguishing fire hose" is connected to one side of water-intake pipe, and the other side of the fire-extinguishing hose is connected to the outside of the bobbin And the other side of the draw-out fire hose connected to one side is connected to the bobbin, the lead-out connection terminal is connected to the outer circumferential surface of the bobbin to which the other side of the draw-out fire hose is connected, A flexible tube for connecting the draw-out connection terminal and the draw-in connection terminal is disposed inside the bobbin, and is installed to penetrate the outer sheath and the bobbin The multi-stage rotary bar is rotatably mounted to a hole formed at the center of the outside sheathing with bearings, and is rotatably mounted on an eccentric one side of the outside sheath, And a lever capable of rotating the bobbin by being sandwiched between the pivoting protrusions is provided so that the fire hose can be quickly unwound and wound on the bobbin.

The prior art constructed as described above has an effect of improving the fire extinguishing ability since the fire hose can be quickly moved from the fire hose to the fire point in the field of fire fighting against the angle of use when the fire extinguisher equipped with the fire fighting fire hose is used , There is a problem that when the fire hose is wound around the bobbin after the fire is suppressed, the fire water remaining inside the fire hose is not properly discharged, so that the fire hose is frozen in the winter season.

In addition, since the prior art has to be installed after piercing the existing inner side wall of the fire extinguisher box, it is difficult to install the bobbin with the fire hose in a state where the fire extinguishing box is highly corroded.

Patent Document 1: Korean Patent Registration No. 10-1351939 (published on Apr. 201, 2014)

In order to solve the above problems, the present invention provides a fire hose reel structure which is convenient to be replaced and which can be stored inside a fire extinguisher box by roundly wrapping a fire hose for suppressing a fire by using water for fire when a fire occurs There is a purpose.

In addition, when replacing a fire hose of a fire extinguisher installed in a conventional fire extinguisher, the fire extinguisher can be replaced without attaching the entire fire extinguisher to the inside of the building. There is a purpose.

It is also an object of the present invention to provide a fire hose reel structure that is easy to replace so that the fire-fighting water remaining inside the fire hose can be easily discharged after using the fire hose.

In addition, the present invention provides a fire hose reel structure that is easy to replace, so that the fire hose is prevented from being twisted or bent when the length is extended in a state where a nozzle installed on one side of a circularly wound fire hose is held, There is a purpose.

According to an aspect of the present invention, there is provided a fire hose reel structure for a fire extinguisher, A plurality of fixing rods fixed to the inside of the fire extinguishing container by being coupled to the panel; And a plurality of fixing bars that are foldably installed on the panel for fixing the fire hose wound round in a circular shape.

The fixing bar of the present invention is characterized in that a plurality of the fixing bars are bent and formed so as to fix a fire hose in a circular wound state.

In the fixing bar of the present invention, a length adjusting portion is formed so that the length of the fixing hose can be adjusted by fixing the length of the fixing hose. The length adjusting portion of the present invention is characterized in that the fixing bar is provided with a positioning hole, And the length of the fixing bar can be adjusted by providing a connecting rod having a length that is adjustable to the length of the connecting bar, And a tension fixing member for fixing the fixed bar, the length of which is adjusted by the coupling, is provided on the connecting rod.

The fire hose of the present invention is characterized in that the valve and hose are provided with male and female couplings so as to be detachable in one-touch manner so as to remove the water for fire fighting remaining inside the fire hose.

The fire hose of the present invention is further characterized in that a spring is further installed to prevent a portion connected to the valve from being twisted or bent.

In the present invention, since the state of the fire hose is fixed in a circular shape through the fixing bar, it is convenient to fix the fire hose, and the fire hose is twisted or bent even when the fire hose is extended by holding the nozzle installed on one side of the fire hose So that the fire suppression is facilitated.

Further, when the fire hose is wound in a circular shape, there is an advantage that the coupling is separated by one-touch so as to facilitate the discharge of the fire-fighting water remaining inside, so that the inflow of air into the fire hose is smooth and the water for fire fighting is easily discharged.

In addition, since the fire water contained in the fire hose can be easily discharged, it is possible to prevent breakage of the fire hose caused by the frost when the temperature is low as in winter.

Further, when the fire hose is wound in a circular shape or the fire hose is fixed to the fixed bar, there is an effect that the fire hose is prevented from being twisted or bent by a spring at a portion connected to the valve.

In addition, since the lamp is installed inside the fire extinguisher box, the lamp is turned on when the temperature falls below zero as in the winter, so that the internal temperature of the fire extinguisher is maintained as an image to prevent the valve and the fire hose from freezing .

1 is a block diagram showing a state in which a conventional fire hose is stored.
FIG. 2 is an exploded perspective view of a fire hose reel structure according to the present invention. FIG.
Fig. 3 is a view showing a state in which a fire hose reel structure according to the present invention is installed in a fire hydrant box. Fig.
FIG. 4 is a sectional view showing a configuration in which a fire hose reel structure according to the present invention is installed in a fire hydrant box. FIG.
FIG. 5 is a perspective view showing another embodiment of the fire hose reel structure of FIG. 2 that is easy to replace; FIG.
FIG. 6 is a disassembled view of the fire hose reel structure shown in FIG. 5 that is installed in a fire hydrant box. FIG.
7 is a perspective view showing still another embodiment of a fire hose reel structure that is easy to replace according to the present invention.
8 is a cross-sectional view showing a state in which a fire hose is coupled to a fire hose reel structure which is easy to replace in FIG. 7 and installed in a fire hydrant box.
Fig. 9 is a configuration diagram showing the configuration of another embodiment of Fig. 8; Fig.
FIG. 10 is a perspective view showing another embodiment of FIG. 7; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a fire hose reel structure according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exploded perspective view showing a fire hose reel structure for easy replacement according to the present invention, FIG. 3 is a view showing a state in which a fire hose reel structure according to the present invention is installed in a fire hydrant box, Fig. 5 is a perspective view showing another embodiment of a fire hose reel structure for easy replacement in Fig. 2, and Fig. 6 is a perspective view showing a fire hose reel structure according to another embodiment of the present invention. FIG. 7 is a perspective view showing still another embodiment of a fire hose reel structure for easy replacement according to the present invention, and FIG. 8 is a perspective view of a fire hose reel structure according to another embodiment of the present invention. FIG. 9 is a sectional view showing a state in which a fire hose is connected to a fire hose reel structure which is convenient to be replaced in FIG. 7 and installed in a fire hydrant box. FIG. And FIG. 10 is a perspective view showing another embodiment of FIG.

Referring to FIGS. 2 to 4, the fire hose reel structure according to the present invention can be easily replaced. The panel 100 is disposed on the inner surface of the fire extinguisher box 10, A plurality of fixing rods 110 are screwed into the holes 101 so as to be supported on the inner front surface and the rear surface of the fire extinguisher box 10 so that the panel 100 is connected to the fire extinguisher box The plurality of fixing rods 110 are screwed into the holes 101 and fixed by adjusting the length of the fixing rods 110 in accordance with the width of the inside of the fire extinguishers 10.

A plurality of fixing bars 120 are provided on the panel 100 to fix the fire hose 20 wound in a circular shape and the fixing bar 120 is folded to one side, 121 are installed.

The second folding section 121 includes a rotation protrusion 121-1 and a rotation slot 121-2 and the rotation protrusion 121-1 and the rotation slot 121-2 are formed in a " And a shaft 121-3 is provided at a side end of the fixed bar 120. The shaft 121-3 rotates the rotation protrusion 121-1 in the rotation groove 121-2.

The fire hose 20 fixed to the fixing bar 120 is designed to easily discharge the fire water contained in the inside when it is wound in a circular shape and to prevent twisting of the fire hose 20 when the fire hose 20 is rounded. The one-touch coupling 140 is installed at the end of the fire hose 20 connected to the fire hose 20.

The one-touch coupling 140 may use any product made of female couplings and male couplings, and it is preferable to use a product configured to be detachable with one-touch among the products currently on the market. The configuration of the one-touch coupling 140 can be easily configured by a person skilled in the art, and a description thereof will be omitted.

In addition, a spring 150 is installed at a portion where the fire hose 20 is connected to the valve 30 to prevent the fire hose 20 from being twisted or bent.

The fire hose reel structure of the present invention is not limited to the configuration shown in Figs. 1 to 4, but can be implemented differently as shown in Figs. 5 and 6.

Referring to FIGS. 5 and 6, the fire hose reel structure of FIG. 2 of the present invention is composed of a panel 100, a fixing rod 110, and a fixing bar 120.

The panel 100 is formed in a square shape so as to be installed inside the fire extinguisher box, and a hole 101 is formed at each corner so that the fixing rod 110 can be engaged.

The fixing rods 110 are coupled to the holes 101 and are respectively supported on the inner front surface and the rear surface of the digestive tank 10 so that the panel 100 is positioned inside the digestive tank 10. The first folding unit 111 is formed in the fixing bar 110 so as to be easily inserted into the digestive tank 10 while the first folding unit 111 is coupled to the hinge 112, 112 are rotatably mounted on the shaft. And the first folding unit 111 is configured in the form of a link.

The fixing bar 120 has a plurality of 'C' shapes so as to fix the fire hose 20.

The fixing bar 120 is formed with a second folding section 121 to facilitate binding in a state where the fire hose 20 is wound and the second folding section 121 is formed by a link do.

The fixing bar 120 is provided with a length adjuster 122 to adjust the length of the fire hose 20 along the width of the fire hose 20 when the fire hose 20 is fastened.

The length adjusting part 122 is provided with a positioning hole 120-1 in the fixing bar 120 and a connecting rod 120a having a fitting hole 120a-1 on one side of the fixing bar 120 The length of the fixing bar 120 can be adjusted and the second folding unit 121 is formed on one side of the connecting rod 120a and the tension fixing member 122-1 is installed on the connecting rod 120a , The tension fixing member 122-1 is inserted into the positioning hole 120-1 by the coupling hole 120a-1 so that the fixed bar 120 whose length is adjusted can be fixed, (120).

The fire hose reel structure which is easy to replace according to the present invention is not limited as shown in FIGS. 1 to 6, but can be implemented as shown in FIGS. 7 and 8. FIG.

FIG. 7 is a perspective view showing still another embodiment of a fire hose reel structure that can be easily replaced according to the present invention, FIG. 8 is a sectional view showing a state in which a fire hose is coupled to a fire hose reel structure, to be.

In the configuration shown in Figs. 7 and 8, a coupling 140 installed between the panel 100, the fixed rods 110, and the fire hose 20 and the valve 30, and the coupling between the fire hose 20 and the coupling 140 The spring 150 is constructed in the same manner as that of the spring 150. Therefore, the description of the spring 150 will be omitted.

However, since the structure of the fixing bar 120 for fixing the fire hose 20 is different from that of the panel 100, only the structure will be described.

The fixing bar 120 is formed with one side bent at each corner around the center of the panel 100.

The fixed bar 120 is installed on the panel 100 so that the bent portion of the panel 100 is spaced apart from the panel 100 by a predetermined distance, So that the fire hose 20 is positioned.

Since the fire hose 20 has a circular cross section so that the shape of the cross-sectional shape of the fire hose 20 is maintained without fire fighting water, the fire hose 20 is wound round the outside of the fixing bar 120 There is a force to work.

The fire hose 20 is kept in a circularly wound state by the fixing bar 120 while a force for opening to the outside of the fixing bar 120 is applied and in the state where no artificial force is applied, Is not released from the fixing bar 120.

The present invention is not limited to the configurations shown in Figs. 7 and 8, and can be implemented differently as shown in Fig.

Fig. 9 is a configuration diagram showing a configuration of another embodiment of Fig. 8. Fig.

9, the panel 100, the fixing rod 110, and the fixing bar 120 are configured as described above. The structure of the panel 100 and the fixing bar 120 is the same as that shown in FIG. 7 And 8, the description thereof will be omitted. However, since the fixing rods 110 configured in the same manner as in FIGS. 5 and 6 are constructed identically, the same reference numerals and symbols are used to describe them.

The fixing rod 110 is installed in the hole 101 formed at each corner of the panel 100 and the fixing rod 110 is inserted into the digestive tank 10 to facilitate entry of the panel 100, The first folding unit 111 is formed and folded.

The first folding section 111 is formed in a link shape in which the hinge 112 is coupled to the hinge 112 so as to be rotatable about an axis.

The present invention can be carried out differently as shown in Fig.

10 is a perspective view showing another embodiment of FIG.

Referring to FIG. 10, the panel 100 of the present invention is formed to be smaller than the size of the inside of the digestive tank 10, and the chamfered portion of the panel 30 is chamfered to be formed in multiple stages. There is no interference with the panel 100 by the valve due to the multi-tiered portion, which facilitates installation.

When the temperature of the panel 100 is lowered to below freezing temperature as in winter, the fire-fighting water remaining in the fire hose 20 stored inside the fire extinguishing box 10 freezes or the valve 30 freezes and fails to function properly The lamp 300 is further constructed.

Although the lamp 200 is illustrated as being installed in the panel 100 in FIG. 10, the lamp 200 is not limited to being installed in the panel 100 and may be installed inside the fire extinguisher box 10, And it is preferable to install the hose 20 at a position where interference does not occur when the fire hose 20 is used.

The lamp 300 is turned on when the temperature falls below zero and prevents the inside of the digester 10 from falling below the temperature due to the heat emitted from the lamp 300. When the temperature rises to the image, (300) is turned off to minimize electricity consumption.

In addition, a control unit (not shown) for controlling the lamp 300 may be further provided or manually turned on / off, and the control unit may constitute a microcomputer for controlling the lamp 300 A thermometer for measuring the inside temperature of the fire extinguisher box 10 is electrically connected to the microcomputer and a relay switch for applying or cutting off the power to the lamp 300 is constructed. A power supply unit that supplies necessary power from the microcomputer, thermometer, and relay switch is configured.

The microcomputer, the thermometer, and the relay switch may further include an AC / DC converter connected to the power unit and the microcomputer so that DC may be supplied.

A process of installing the fire hose reel structure according to the present invention in the existing fire hydrant box will be described with reference to FIGS. 1 to 4. FIG.

First, in order to replace the fire hose 20 installed in the existing digester box 10, the fire hose 20 is separated from the valve 30 provided inside the digester box.

A panel 100 provided with a fixing bar 120 is placed inside the fire extinguisher box 10 to install a new fire hose 20 in the fire extinguishing box 10, 110 are rotated so as to be in close contact with the inner and the inner surfaces of the digester box 10 to fix the panel 100.

The length of the panel 100 is not extended when the fixing rods 110 are rotated and the side ends of the fixing rods 110 are positioned on the inner side and the rear side of the digestive tank 10, Respectively.

The panel 100 is installed in the digestive tank 10 by the fixing rod 110 and is roundly wound around a nozzle installed at one side of the new fire hose 20 and is wound around the fire hose 20 in a circular shape, One of the plurality of fixing bars 120 is placed around the second folding unit 121 so as to position the fixing bar 120 on the panel 100.

The one side of the fire hose 20 wound around the other fixing bar 120 in a state where the fixing bar 120 is tilted is positioned and the fixing bar 120 which is turned is placed on the center of the second folding part 121 So that the fire hose 20 is fixed while being positioned in the initial state.

The fire hose 20 is connected to the other side of the fire hose 20 and the coupling 140 provided on the valve 30 in a state where the fire hose 20 is positioned inside the plurality of fixing bars 120 So as to be connected to the valve 30.

When a fire occurs in the state that the fire hose 20 is installed inside the fire extinguisher box 10 as described above, when the length of the fire hose 20 is extended by holding a nozzle provided on one side of the fire hose 20, The fire hose 20 can be unfolded to the position where the fire occurs without being twisted.

Even if any one of the plurality of fixing bars 120 installed on the panel 100 in the unfolded state of the fire hose 20 is displaced about the second folding section 121 as far as the center of the fire hose 20 The fire hose 20 is not bent or twisted.

Since the spring 150 is provided at the portion where the coupling 140 is installed, the fire hose 20 is not bent and the valve 30 is opened to supply the fire water for the fire hose 20, There is no place for breaking or twisting, so that the injection of the water for fire fighting is easy by the nozzle, so that the fire can be suppressed.

The valve 30 and the fire hose 20 are connected to each other through the one-touch coupling 140 provided on the valve 30 and the fire hose 20 when the fire hose 20 is wound round the center of the nozzle, It is very easy to wind the fire hose 20 in a circular shape.

Since the fire hose 20 is separated from the valve 30 through the coupling 140, the fire water remaining inside the fire hose 20 is discharged to the portion where the coupling 140 is installed.

Since the water for fire fighting is not left inside the fire hose 20 as described above, there is an advantage that the fire hose 20 can be prevented from being frozen by the water for fire fighting in the winter season.

As described above, it is easy to replace the fire extinguishing hose 20 without removing the fire extinguishing box 10 from the wall when replacing the existing fire extinguishing hose 20, It is possible to use the fire hose 20 without replacing the service life of the fire hose 20 (about 8 to 10 years).

10: Fire hydrant 20: Fire hose
30: valve 100: panel
101: hole 110: stationary rod
111: Section 1 Attachment 112: Hinge
120: Fixing bar 120-1: Positioning ball
120a: connecting rod 120a-1: engaging hole
121: SECOND BAND APPARATUS 122:
122-1: Tension fixing member 140: Coupling
150: spring 200: lamp

Claims (6)

In a fire hose reel structure that is easy to replace,
A panel 100 installed to be installed inside the digester box 10;
The panel 100 is fixed between the panel 100 and the fire extinguishing box 10 and fixed to the inside of the fire extinguisher box 10 by being screwed to the panel 100 and adjusting the length according to the inside width of the fire box 10 A plurality of fixed rods (110);
And a length adjuster 122 for adjusting the fixing length of the fire hose 20 such that the fire hose 20 can be foldably installed on the panel 100 to fix the fire hose 20 wound in a circular shape. And a plurality of fixing bars (120)
The length adjuster 122 adjusts the length,
A positioning hole 120-1 is formed in the fixing bar 120,
A connecting rod 120a having a coupling hole 120a-1 is installed at one side of the fixing bar 120 to adjust the length of the fixing bar 120,
A second folding section 121 is formed on one side of the connecting rod 120a,
A fixed bar 120 protruding from the coupling hole 120a-1 and coupled to the positioning hole 120-1 so that the fixed bar 120 is coupled with the connection rod 120a, Wherein a tension fixing member (122-1) for fixing the tension member (122-1) is provided on the connecting rod (120a).
The method according to claim 1,
The stationary rods (110)
The first folding unit 111 is configured so as to facilitate entry of the panel 100 when the panel 100 is installed inside the digestive tank 10,
Wherein the first folding portion (111) is formed in a link shape.
The method according to claim 1,
The fixing bar (120)
And a plurality of the fire hoses (20) are formed on the panel (100) so as to fix the fire hose (20) wound in a circular shape.
delete The method according to claim 1,
In the fire hose 20,
A valve (30) and a hose (20) are provided with male and female couplings (140) so as to be detachable in one-touch manner so as to remove the water for fire protection remaining inside the fire hose (20) Fire hose reel structure.
The method according to claim 1,
In the fire hose 20,
Wherein a spring (150) is installed to prevent a part connected to the coupling (140) from twisting or breaking.

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