JPH0231878A - Device for cleaning piping - Google Patents

Abstract

PURPOSE:To uniformly clean the inside of a pipe at a low cost by forming a nozzle to a bent or arc shape and forming many injection holes at the tip, at least one of which is formed to the diameter larger than the diameter of the rest, to the half side of the peripheral cylindrical part. CONSTITUTION:Cleaning water in a nozzle support 3 is injected from the respective injection holes 8a-8f through the axial hole 9 of the nozzle 5 when the high-pressure cleaning water is supplied to a cleaning hose 2. Imbalance thrusts acts on the nozzle 5 when the cleaning water is injected from the respective injection holes 8a-8f. The nozzle 5 moves to the inside wall of the pipe and is pressed to the inside wall in the state of generating rotating force. As a result, the nozzle 5 moves along the inside peripheral wall of the pipe while injecting the cleaning water without rotation of the cleaning hose 2 as a whole. Even if, therefore, the pipe to be cleaned is of a large diameter, the nozzle 5 rotates without detaching from the inside peripheral wall of the pipe and without extremely detaching therefrom. The inside of the pipe is thus uniformly cleaned.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a cleaning device for pipes such as drain pipes used as pipes in buildings such as apartments and buildings.

``Prior art'' Conventionally, an example of this type of cleaning device was disclosed in Japanese Unexamined Patent Publication No. 6
It is disclosed in Japanese Patent No. 2-163788.

This known embodiment basically consists of a high-pressure hose connected to the outlet of the pump via a terminal or drive for rotating the high-pressure hose, and a high-pressure hose connected to the tip of the high-pressure hose and It consists of a nozzle that is inclined or bent at a predetermined angle with respect to the central axis of the hose, and a flexible guide that is connected to the tip of the nozzle via a bendable snake wire.

In the above configuration, high-pressure water is injected diagonally backward from the inner wall of the water pipe from the plurality of injection holes of the nozzle, and the ejection force generates thrust force in the nozzle. Alternatively, the high-pressure hose is rotated by a drive device and fed into the drain pipe to clean the inner wall of the pipe.

However, in the above embodiment, in order to rotate the nozzle within the pipe, it is necessary to rotate the high-pressure hose at a constant speed using a terminal device or a driving device.

Therefore, the longer the high-pressure hose or the more bends the pipe has, the more problems arise with its rotational force.
The device itself also had drawbacks such as being extremely expensive.

"Problems to be Solved by the Invention" The present invention has been made in view of the drawbacks of the conventional technology as described in 1.
The purpose is to solve the problems listed below.

■There is no need to use a terminal or drive device to apply rotational force to the nozzle.

■Able to expand the cleaning range and crush and remove deposits inside the pipe in a well-balanced manner.

(2) Even if there are two or more bends in the pipe, the nozzle can be smoothly guided deep into the pipe by following the bends in the pipe.

■It must be inexpensive.

[Means for Solving the Problems] The pipe cleaning device of the present invention includes a nozzle support attached to the insertion end of a cleaning hose inserted into a pipe, and a nozzle support mounted on the nozzle support and attached to the inner wall of the pipe. The nozzle has a plurality of oriented injection holes, and the nozzle is formed into a bent or arcuate shape with respect to the nozzle support, and the plurality of injection holes formed at the tip cause an unbalanced thrust to act on the nozzle. A large number of injection holes are formed on the half side of the circumferential body, or at least one injection hole is formed with a larger diameter than the other injection holes.

The pipe cleaning device of the present invention also includes an arc-shaped rotating tube attached to the insertion end or the insertion end of a cleaning hose inserted into the pipe, and an arc-shaped rotating tube fixedly attached to the tip of the rotating tube and attached to the inner wall of the tube. A nozzle having a plurality of injection holes oriented toward It is also characterized by being formed with a large diameter.

"Example" Each embodiment of the present invention will be described in detail below.

In one embodiment shown in FIGS. 1 to 6, 1.1 is a pipe such as a drain pipe used as a pipe for buildings such as apartments and buildings. It has one or more bent parts up to the introduction hole of the main pipe.

Reference numeral 2 designates a cleaning hose, such as a high-pressure hose, whose one end is connected to a pump (not shown) provided outside the pipe 1, and whose other end is inserted into the pipe 1 as a pipe to be cleaned.

Reference numeral 3 denotes a cylindrical nozzle support whose one end opening is fixedly and tightly fitted into the insertion end 2a of the cleaning hose 2;
is made of metal or hard synthetic resin material. The cleaning hose 2 is reliably connected to the nozzle support 3 by an inner tube fixture 4 installed inside the nozzle support 3 at a portion near the opening at one end thereof.

A nozzle 5 is attached to the opening at the other end of the nozzle support 3, and the nozzle 5 is rotatably supported by a mini-bearing 6 built into the nozzle support 3. Nozzle 5
is formed into a bent shape with respect to the nozzle support 3 as shown in FIG. In the embodiment, the nozzle 5 is shown in a curved shape, but it may be formed in an arc shape. Reference numeral 7 denotes a bent tip portion of the nozzle 5, and this tip portion 7 faces substantially the same direction as the insertion end portion on the opposite side of the nozzle 5. The tip 7 of the nozzle 5 is therefore located somewhat offset from the central axis of the cleaning hose or nozzle support.

Reference numeral 8 denotes a plurality of injection holes formed at the tip 7 of the nozzle and directed toward the inner wall of the tube 1. In this embodiment, a large number of injection holes 8a, 8b, 8C are formed on the half side of the circumferential body so that unbalanced thrust acts on the nozzle. However, when using FIG. 2 as a reference, the injection hole 8b in the center on the right side
are larger in diameter than the right upper and lower injection holes 8a and 8C, and the right upper and lower injection holes QJ 7L 8a and 8C are somewhat larger in diameter than the remaining injection holes 8d, 8e and 8f. In order to cause an unbalanced thrust to act on the nozzle 5, the positions and diameters of the injection holes can be changed as shown in FIG. 3 or 4. That is, the injection holes 8A in FIG. 3 are the injection holes 8a, 8b, 8c.
, 8d, 8e, and 8f are all the same diameter, but their numbers are tilted towards the half side of the circumferential trunk. Also, the injection hole 8 in Fig. 4
In B, the injection hole 8b located at the center right side of the circumferential body is the remaining injection! ) It is formed to have a larger diameter than the first holes 8a and 8C18d. In short, it is sufficient to form each injection hole in the nozzle 5 so that the unbalanced thrust moves, but desirably, at least one injection hole 8b of the injection holes is formed at the tip 7 in the direction in which the nozzle is bent and extended. It is best to form it on either side of the

"Function" In the above configuration, when high-pressure cleaning water is supplied to the cleaning hose 2 from a pump (not shown), the cleaning water first flows into the nozzle support 3 from the insertion end 2a of the cleaning hose 2.

Next, the cleaning water in the nozzle support 3 passes through the shaft hole 9 of the nozzle 5 and is injected from each injection hole 8a, 8b, 8c, 8d, 8e, and 8f. When cleaning water is injected from each injection hole, an unbalanced thrust acts on the nozzle 5, and the nozzle 5 moves toward the inner wall 1a of the pipe 1 as shown in FIG. 5, generating a rotational force on the inner wall 1a. Being forced into a situation. As a result, the nozzle 5 moves along the inner circumferential wall of the tube 1 while spraying, as shown in FIG. 6, without the cleaning hose 2 rotating as a whole.
Therefore, even if the pipe to be cleaned has a larger diameter than that shown in FIG. 6, the nozzle 5 rotates without moving away from the inner circumferential wall of the pipe or significantly moving away from it.

"Different Embodiments" Next, different embodiments of the present invention shown in FIGS. 7 and 8 will be described. In the description of this embodiment, the same or equivalent parts as in the embodiment of the present invention will be denoted by the same reference numerals, and redundant explanation will be omitted.

The embodiment shown in FIGS. 7 and 8 differs from the embodiment of the present invention in that a nozzle 5Δ, an elongated nozzle guide member 10, and a rotor 11 are provided. The elongated nozzle guide member 10 extends from the distal end 7A of the nozzle 5A via a fixture 12 in an angular direction, in this embodiment obliquely toward the central axis of the nozzle support 3A. Note that the elongated nozzle guide member 10 preferably has elastic force, and may be formed in an arc shape. Further, the rotor 11 uses a mini dual bearing that is fitted onto the fixture 12. Although not particularly shown in the drawings, the rotor 11 may be provided at the tip of the a-long nozzle guide member 10.

In the above configuration, when an unbalanced thrust acts on the nozzle 5A, the nozzle 5A rotates on its inner peripheral wall while being pressed against the inner wall 1a of the tube 1, as shown in FIG. However,
The rotor 11 plays the role of reducing frictional resistance with the inner wall 1a of the tube 1 and its deposits when the nozzle 5A rotates. Further, the elongated nozzle guide member 10 has the effect of facilitating the entry of the nozzle 5A into the bent portion of the tube 1.

“Different Example 2” Next, the embodiments shown in FIGS. 9 to 11 will be described.

20 is a cleaning hose such as a flexible hose inserted into the pipe. 21 is an arc-shaped rotating tube attached to the insertion end or insertion end of the cleaning hose 20;
In this embodiment, it is attached to the cylindrical fixture via a plurality of members. That is, 22 is a cylindrical fixture that is fixedly fitted onto the insertion end of the cleaning hose 20, and inside this cylindrical fixture 22, a fluid flow path of the cleaning hose 20 and a fluid flow path of the rotary tube 21 are formed. Small diameter bearing insertion tube 2 that communicates with
3 is rotatably provided via a bearing 24 such as a miniature bearing. In addition, 25.26 is the bearing 2
Oil seals provided on both sides of 4, 27 rotation suppression adjustment screw for rotating tube, 28 bearing insertion tube 23 and rotating tube 2
This is a fixing tool for fixing 1 and 1.

Reference numeral 30 denotes an injection nozzle head that is fixedly attached to the tip of the rotating tube 21 via a cylindrical fixture 31, and the tip of the rotating tube 21 is inserted into one side wall of the injection nozzle head 30. A fitting part 30a is formed, while this fitting part 3
A cylindrical portion 30C having a diameter smaller than that of the circumference 4 portion 30b is protruded from the other side wall opposite to 0a.

32 is a plurality of injection holes formed in the injection nozzle head 30, and these injection holes 32 are formed radially as shown in FIG.

Therefore, each injection hole 32a, 32b, 32 of the injection hole 32
C and 32d are formed in exactly the same way as in the first embodiment shown in FIG. In this embodiment as well, a large amount of fluid is ejected from one half of the circumferential body portion 3Qb so that an unbalanced thrust accompanying fluid ejection acts on the ejection nozzle head 30.

Therefore, even in the case of this embodiment, each injection hole 3
2a, 32b, 33c, and 33d may be formed as shown in FIG. 2 or 3 described above. In addition, the large diameter injection hole 3
2b is preferably oriented toward either side of the rotary tube 21 in the arc-shaped extending direction (however, not toward the inner wall surface or outer wall surface with respect to the bending direction).

Reference numeral 33 denotes a rotating tube regulating member whose ends are attached to the aforementioned fixing tool 28 on the bearing insertion tube 23 side and fixing tool 31 on the injection nozzle head side, respectively.This regulating member 32 is string-shaped, and the rotating tube 21 is deformed. It is preferable to install this when the material is made of

Therefore, it is not particularly necessary when the rotary tube 21 is made of a hard material.

34 is a bearing 35 on the cylindrical portion 30c of the injection nozzle head 30.
A weight 37 is rotatably attached to the tip of the elongated nozzle guide member 34 through a bearing 36. There is.

In the above configuration, the injection hole 3 of the injection nozzle head 30
2, an unbalanced thrust acts on the injection nozzle head 30, a rotational force is generated in the injection nozzle head 30 and the rotating tube 21, and the injection nozzle head 30 pressed against the inner wall. In this pressed state, the injection nozzle head 30 moves together with the rotary tube 21 on the inner circumferential wall of the tube. In addition, when the cleaning hose 20 is pushed deep into the pipe and there is a bent part, the Φ37J3 and m long nozzle guide members 34 enter or fall along the curve of the bent part, and the injection nozzle head 30 to the back of the tube.

[Effect 1 of the present invention As is clear from the above explanation, the present invention has the following effects.

(1) The nozzle is bent relative to the nozzle support.

In the case of an embodiment in which the injection hole is formed in an arc shape and the nozzle unbalanced thrust is applied to the tip of the nozzle, and the injection nozzle head is attached to the arc-shaped rotating tube and the tip is the same In the case of the embodiment in which the injection hole is formed so that unbalanced thrust acts, the nozzle or the injection nozzle head moves along the inner peripheral wall of the tube while being pressed against the inner wall.

Therefore, there is no need to rotate the high-pressure hose to avoid rotation of the nozzle as in the conventional case, and therefore there is no need to provide a terminal or a drive device for rotating the cleaning hose, resulting in low cost.

(2) Since the nozzle or spray nozzle head rotates along the inner circumferential wall of the tube, the inside of the tube can be cleaned evenly.

Therefore, there is no unevenness in cleaning.

(3) In the case of an embodiment in which the elongated nozzle guide member is fixed or movably attached to the tip of the nozzle or injection nozzle head, the nozzle or injection nozzle head can be can be easily penetrated into the interior.

Therefore, the cleaning range can be expanded compared to the conventional embodiment.

(4) Even if the cleaning hose is inserted into the pipe for a long time, the nozzle or the injection nozzle head is not affected by the rotational force to any extent due to the existence of the cleaning hose and its length.

[Brief explanation of the drawing]

1 to 6 are explanatory diagrams showing one embodiment of the present invention, and FIGS. 7 and 8 are illustrative diagrams showing a different embodiment 1 of the present invention.
``Each explanatory drawing, FIG. 9 to FIG. 11 is each explanatory drawing showing a different embodiment 2 of the present invention. 2 is an enlarged sectional view taken along the line ■--■ in FIG. 1, and FIG. 11 is an enlarged sectional view taken along the line AA in FIG. 10. 1...Pipe, 2.20...Washing hose,
3.3A... Nozzle support body, 5.5A... Nozzle, 7.7A... Tip part, 8.
8A, 8B, 32... Injection hole, 101.34... Elongated nozzle guide member, 21...
- Rotating tube, 32... injection hole, 30... injection nozzle head. Patent application: Susumu Katayama, Attorney: Patent attorney: Hikaru Miura, Yasuhiroji 1, a ″″-8C also 1! Rizufue ■ Sōzu

Claims (1)

[Scope of Claims] 1) A nozzle support attached to the insertion end of a cleaning hose inserted into a pipe, and a nozzle supported by the nozzle support and having a plurality of injection holes directed toward the inner wall of the pipe. The nozzle is formed into a bent or arcuate shape with respect to the nozzle support, and a plurality of injection holes formed at the tip are formed in large numbers on the half side of the circumferential body so that unbalanced thrust acts on the nozzle. 1. A pipe cleaning device characterized in that the injection hole has a diameter larger than that of the other injection holes. 2) The nozzle according to claim 1, wherein the tip of the nozzle is provided with an elongated nozzle guide member having an elastic force that extends in an angular direction or is formed in an arc shape from the tip. Piping cleaning equipment. 3) An arc-shaped rotating tube attached to the insertion end or the insertion end of the cleaning hose inserted into the tube, and a plurality of injection holes fixedly attached to the tip of the rotating tube and oriented toward the inner wall of the tube. The injection holes are formed in large numbers on the half side of the circumferential body so that unbalanced thrust acts on the nozzles, or at least one is formed with a larger diameter than the other injection holes. A pipe cleaning device characterized by: