JP3017781B2 - Hose drying method and drying equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial applications]

The hose drying method and the hose drying apparatus of the present invention are mainly used for drying a fire hose after washing.

[Prior art]

The fire hose A for fire fighting used in the fire fighting activities is washed to remove carbon, mud and the like adhering thereto. If you leave the hose A wet by washing,
If it must be used next before it dries, it will be heavy and difficult to fight fire. If water remains in the hose A, it may freeze in winter or in a cold region, causing the hose A to be clogged. For this reason, conventionally, for example, as shown in FIG. 4, the washed hose A is spirally wound or meandered and folded into the drying chamber B, and the hot air blower C and the heater are placed in the drying chamber B. The hose A was heated from the outside by sending a high-temperature hot air Z from D to dry the hose A. At this time, the water evaporated from the hose A was removed by the dehumidifier E and discharged out of the drying chamber B.

[Problems to be solved by the invention]

However, the conventional method of heating the hose A from the outside has the following problems. a. It takes time to dry the inside of hose A, about 60
It took about 6 hours to complete the drying even when the hot air Z at 9090 ° C. was sent into the drying chamber B. b. Since the hot air Z at 60 to 90 ° C. is sent into the drying chamber B, the temperature in the drying chamber B also rises to the same degree. However, in a normal dehumidifier E, when the room temperature exceeds 45 ° C., the dehumidifier E
The temperature of the refrigerant inside the container rises too much, and the dehumidifying ability is extremely lowered. For this reason, in the conventional drying method, the humidity in the drying chamber B increases, and the hose A becomes more difficult to dry. c. The water in the hose A is not always completely evaporated, and sometimes heated hot water remains inside. When the hose A was stored, the hot water leaked to the outside and hit the operator, and the operator could be burned. d. When the hose A is spirally wound, the hose A collapses and the inner surfaces come into contact with each other. In addition, since the fire hose A is usually lined with rubber (rubberized) on the inner surface, when the rubber is softened by heating, the rubbers in contact with each other adhere to each other, so that the inside of the hose A is used when the hose is next used. Water becomes difficult to pass through.

[Object of the invention]

An object of the present invention is to provide a hose drying method and a drying apparatus capable of drying various hoses such as fire hoses efficiently and promptly without leaving moisture inside, and further preventing the rubber on the inner surface of the hose from adhering to each other. Is to provide.

[Means for Solving the Problems]

According to the first hose drying method of the present invention, as shown in FIG. 2, a hose A such as a fire hose is wound around a rotary drum 2 in a drying chamber B, and a base F _{1 of the} hose A is connected to the rotary drum 2. The hose A is dried by being connected to the connection port 1 provided in the hose A and sending the drying air Z into the interior of the hose A. According to the second hose drying method of the present invention, as shown in FIG. 2, a rotary drum 2 is disposed in a drying chamber B provided with a dehumidifier E, and the rotary drum 2 is provided with a hose such as a fire hose. A is wound, and the base F _{1 of the} hose A is connected to the connection port 1 provided on the rotary drum 2, and a drying air Z is sent into the hose A to dry the hose A. As shown in FIG. 1, the third hose drying apparatus of the present invention winds a dehumidifying apparatus E for dehumidifying the inside of the drying chamber B and a hose A such as a fire hose for a fire in a drying chamber B. It comprises a rotatable drum 2 that can be supported, and an air blower C that sends drying air Z into a hose A that is supported by the rotatable drum 2. As in Figure 1 the claims fourth hose drying apparatus of the present invention, the rotary drum 2 comprises a connecting opening 1 connectable mouthpiece F ₁ hose A, ferrule F of the hose A to the connecting opening 1 By connecting ₁ , the drying air Z sent from the air blower C can be sent into the hose A.

[Action]

In the hose drying method of the present invention, the hose A is set (wrapped) on a hose support (the rotating drum 2 in FIG. 1), and the hose A is moved from the blower C in FIG.
When the drying wind Z is sent into the inside, the moisture in the hose A follows the flow of the drying wind Z and is discharged from the other end to the outside (in the drying chamber B) through the inside of the hose A. It also evaporates from its outer periphery. At this time, the drying wind Z sent into the hose A may be a normal-temperature wind as it is sent from the blower C, or a hot wind obtained by heating the wind sent from the blower C by the preceding heater D. Is also good. Wind Z for drying
Is hot air, the heat is absorbed as heat of vaporization when the water in the hose A evaporates, and is gradually radiated while flowing through the hose A, so that the temperature of the exhaust gas discharged from the other end of the hose A Is about 30 ° C at the beginning of drying and about
It is about 40 ° C. For this reason, the room temperature in the drying chamber B also rises only to that extent, so that the refrigerant in the dehumidifying device E does not become too hot and its dehumidifying ability does not decrease, and the inside of the drying chamber B is sufficiently dehumidified.

【Example】

1 and 2 show an example of a drying apparatus for implementing the hose drying method of the present invention. A shown in these figures is a hose such as a fire hose. B is a drying chamber for accommodating the hose A. 1 and 2, E is a dehumidifying device provided in the drying chamber B, C is a blowing device that is provided in the drying chamber B and sends out drying air Z, and D is a blowing device C. It is a heater that heats the wind from the air as needed. These include existing ones and those improved for the present drying apparatus. Reference numeral 2 shown in FIG. 1 denotes a rotary drum around which the hose A is wound. In this rotary drum 2, a plurality of pipes 11 are arranged and fixed between two ring plates 10 which are appropriately separated from each other, and further, the pipe 11 is connected between the two ring plates 10. A connection plate 14 is fixedly connected to the rings 12 and connected to the center of each ring plate 10 via a connection pipe 15. Inside the rotary drum 2, two air blow tubes 17a and 17b are provided so as to face each other. One of the blowers 17a is connected to the connection plate 14 on the near side, and the other blower 17b is connected to the connection plate 14 on the back. One blower tube 17a is connected to a blower C and a heater D via a connection pipe 18 from a slip ring 16 attached to one connection plate. Although the other blower tube 17b remains connected to the connection plate 14, a blower and a heater are connected to the blower tube 17b as necessary. Reference numeral 1 shown in FIG. 1 is a connection port provided in the blower pipes 17a and 17b for connecting the hose A and sending the drying air Z from the blower C into the hose A. It is. For this connection port 1, for example, the same one as a fire hydrant base installed in the city is used.
The F ₁ are to be connected by one touch. Each of the blower tubes 17a and 17b is provided with five connection ports 1, but the number may be at least more than at least. In addition, each connection port 1 has a pipe as shown in FIG.
Hose A projecting from the space between 11 and tangential to the outer periphery of the rotary drum 2 and connected to the connection port 1 and wound around the outer periphery of the pipe material 11 does not buckle and collapse near the connection port 1. It is like that. Reference numeral 3 shown in FIG. 1 denotes a support roller for supporting the rotary drum 2, and one of the support rollers 3n rotates the rotary drum 2 in the circumferential direction. Each of these support rollers 3 and 3n is disposed so as to support the outer periphery of the ring plate 10, and the rotation shaft 31 of each of the rollers 3, 3n.
Are rotatably supported by bearings 32. A pulley 33 is attached to the rotation shaft 31 of the support roller 3n, which also serves as a rotation among these rollers, and the pulley 33 is a pulley 35 of a motor 34.
When the motor 34 rotates, the rotational force is transmitted through the belt 36 and the supporting roller 3n is used for the same rotation.
And the rotation causes the rotary drum 2 to slowly rotate in the direction of the arrow x in FIG. FIG. 3 shows another embodiment of the hose drying apparatus of the present invention. In this embodiment, an outer rotating drum 4 having a larger diameter than the rotating drum 2 is provided concentrically and doubled. The outer rotating drum 4 has the same structure as the inner rotating drum 2. The hose A is dried by the hose drying method of the present invention using the hose drying apparatus of the embodiment shown in FIG. 2 as follows. First, the connection port 1 as of FIG. 2 connecting the mouthpiece F ₁ which is attached to one end of the hose A, winding the hose A to the outside of the pipe member 11 of the outer periphery while rotating the rotary drum 2 . At this time, it is preferable to wind the hose A while gradually feeding air from the connection port 1 into the hose A. Thus, even when the hose A is wound around the outer circumference of the rotary drum 2, the hose A is not crushed, and a passage for the drying air Z is secured in the hose A. Further, the hose A expands, and the outer peripheral surfaces of the hose A come into point contact or line contact with each other, and a gap is formed between the outer peripheral surfaces, so that the evaporated water is easily diffused. When the hose A is wound around the rotary drum 2, the dehumidifier E is operated to dehumidify the inside of the drying chamber B, and at the same time, the rotating drum 2 is rotated by rotating the supporting roller 3 n which also serves as a rotation. The drying air Z is sent into the hose A, and the water in the hose A is discharged from the other end of the hose A, and is also evaporated from the outer periphery of the hose A. In this case, of the hose A wound around the rotary drum 2, the lower part of the rotary drum 2 sags as shown in FIG. Water evaporates easily. In addition, since the slack portion of the hose A sequentially moves as the rotary drum 2 rotates, the hose A wound on the rotary drum 2 is easily dried uniformly. In this example, the fire hose A could be dried in 2.5 to 4 hours. In order to use the hose drying apparatus shown in FIG. 3, the nozzle F ₂ on the outlet side of the hose A wound on the inner rotating drum 2 is used.
Then, a base F1 at _one end of another hose A is connected, and the hose A is wound around the outside of the pipe 11 of the outer rotating drum 4. In this state, when the drying air Z is sent from the blower C and the heater D into the hose A wound on the inner rotary drum 2, the wind Z is wound on the outer rotary drum 4 from the other end of the hose A. It is fed into the attached hose A and exhausted into the drying chamber B through the hose A. Therefore, according to the hose drying apparatus of FIG. 3, twice the number of hoses A as the hose drying apparatus of FIG. 1 can be dried at one time. In the present invention, if necessary, the rotating drums 2 may be stacked three or more times. In this embodiment, the inner rotating drum 2
And the outer rotary drum 4 can be rotated in synchronization with each other, but in some cases, both rotary drums 2 can be separately rotated. Further, in the hose drying apparatus of the present invention and the drying method using the same, the drying wind Z sent into the hose A is strengthened or weakened at appropriate time intervals, or the drying wind Z is The feeding may be stopped at an appropriate time interval or the like. In such a case, the diameter of the overlapping hose A shrinks or expands.
Is loose or out of alignment. This makes it easier for the wind to hit the portion where the wind Z for drying was hard to hit so far, and the drying efficiency is improved. Further, in the hose drying method of the present invention, as shown in FIG. 1, the dried air blown out of the dehumidifier E is returned from the discharge port G into the drying chamber B so that the outer periphery of the hose A is dried more quickly. Is also good. Further, the exhaust heat of the dehumidifier E may be supplied into the drying chamber B to accelerate the drying of the hose A.

【The invention's effect】

The hose drying method for fire fighting and the like and the drying apparatus of the present invention have the following effects. a. Since the drying wind Z is sent into the hose A, the rubber provided on the inner periphery of the hose A does not adhere to the hose A, and the moisture inside the hose A evaporates and the other end of the hose A Is discharged from Therefore, the inside of the hose A is efficiently and quickly dried. b. Since the moisture is also evaporated from the outer periphery of the hose A by the drying wind Z flowing in the hose A, the hose A can be dried in a shorter time. c. When the drying air Z sent into the hose A is hot air, the heat is absorbed as heat of vaporization of moisture or gradually released to the outer periphery of the hose A, and is discharged from the hose A. Since the temperature becomes low, the room temperature in the drying chamber B does not rise excessively, and the inside of the drying chamber B is sufficiently dehumidified without lowering the dehumidifying ability of the dehumidifying device E. Therefore, the hose A can be further dried in a shorter time. d. If the outer circumference of the rotary drums 2 and 4 around which the hose A is wound is constituted by a plurality of pipes 11, the outer circumference of the hose A is
Point or line contact, the moisture evaporating from the outer periphery of the hose A is efficiently dissipated from the gap with the pipe 11. e. If the rotary drum 2 around which the hose A is wound is rotated, the slack portion of the hose A below the rotary drum 2 moves, and the drying air in the drying chamber B flows into the slack portion. The hose A is dried uniformly over the entire circumference of the rotary drum 2. f. If the direction of the connection port 1 is directed tangentially to the outer periphery of the rotary drum 2, the hose A wound on the rotary drum 2 is unlikely to be bent or crushed, and the passage of the drying wind Z in the hose A Is surely secured. g. If a plurality of connection ports 1 are provided in the rotating drum 2, a plurality of hoses A can be dried at one time by one rotating drum 2, thereby improving work efficiency. h. If the hoses A are wound one by one around each of the rotating drums 2 stacked in a double or more, and the hoses A are dried, the working efficiency is doubled accordingly.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an embodiment of a hose drying apparatus for fire fighting and the like of the present invention, FIG. 2 is an explanatory view of a hose drying method for fire fighting and the like of the present invention, and FIG. And FIG. 4 is an explanatory view of a conventional hose drying method for fire fighting and the like using another embodiment of the hose drying apparatus. 1 is a connection port 2, 4 is a rotating drum A is a hose B is a drying room C is a blower D is a heater E is a dehumidifier Z is a drying wind

Continuation of front page (56) References JP-A-3-193068 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) A62C 33/02

Claims (4)

(57) [Claims] 1. A rotary drum 2 in the drying chamber B wound a hose A, such as fire hose, the hose A and connected to a connecting port 1 provided a mouthpiece F ₁ of the hose A rotary drum 2
Drying the hose A by sending a drying air Z into the inside of the hose. Wherein the rotary drum 2 is disposed in the dehumidifying device E is drying room B provided, wound a hose A, such as fire hose to the rotary drum 2, the mouthpiece F ₁ the rotating drum 2 in the hose A And drying the hose A by feeding a drying air Z into the hose A by connecting the hose A to the connection port 1 provided in the hose. 3. A dehumidifier E for dehumidifying the interior of the drying chamber B, a rotary drum 2 capable of winding and supporting a hose A such as a fire hose, and a rotary drum 2 supported by the rotary drum 2. And a blower C for sending a drying wind Z into the hose A. 4. A rotary drum 2 is provided with a connecting port 1 connectable mouthpiece F ₁ hose A, die F ₁ hose A to the connecting opening 1
The hose drying device according to claim 3, wherein the drying air Z sent from the air blowing device C can be sent into the hose A by connecting the hoses.