KR101339804B1 - Pipe cleaning apparatus - Google Patents

Abstract

The present invention provides a pipe cleaning apparatus including a cleaning chamber in which a door is open/closed, a tray installed in the cleaning chamber and having multiple pipes to be cleaned that are tied in a cylinder shape and horizontally stacked in parallel, a nozzle rotatively mounted in the cleaning chamber to spray a straight stream of cleaning fluid toward an opening of one end of each pipe, and a cleaning fluid supply source to supply the cleaning fluid to the nozzle. A straight stream of the cleaning fluid sprayed from the rotating nozzle is rotated like a pinwheel and divided into multiple streams so that the divided multiple streams are introduced into one end of each pipe and sweep an internal circumferential surface from one end to a remaining end of each pipe through rotation inertia and straight inertia. Accordingly, the divided multiple streams are discharged from the remaining ends of the multiple pipes, so that foreign matters are completely removed from an internal circumferential surface of an end portion of each pipe.

Description

Pipe cleaning apparatus

The present invention relates to a pipe washing apparatus, and more particularly, to an apparatus for simultaneously washing a plurality of long pipes.

Conventionally, a washing process is performed on an object to be cleaned with organic fats and oils such as cutting oil and waterproof oil, and inorganic materials such as iron powder and abrasive powder. However, in the related art, the to-be-cleaned object having many pores or complicated shapes has a problem that the washing is not performed reliably.

A vacuum washing apparatus for solving these problems is disclosed in Utility Model Registration No. 385553 filed and maintained by the present inventors.

The vacuum washing device disclosed above is to stir the basket up and down to form a vortex around the object to be cleaned, and thus, when the object to be cleaned is an intestinal pipe, the intestinal pipe is horizontal even if the basket is moved up and down. The organic fats and oils such as cutting oil and waterproofing oil, which are attached to the inner circumferential surface of the intestinal pipe, and inorganic substances such as cutting powder and abrasive powder cannot be properly released out of the intestinal pipe.

A pipe washing apparatus for overcoming this problem is disclosed in Patent Registration No. 10-0717529 filed and registered by the present inventors.

In the disclosed pipe washing apparatus, the intestinal pipe is disposed inside the frame mold, the frame mold is loaded to settle in the washing liquid, and after the intestinal pipe is immersed in the washing liquid, the washing liquid is vibrated by the ultrasonic generator fixed to one side of the washing chamber. As a result, the foreign substances adhering to the inner circumferential surface of the intestinal pipe are detached from the intestinal pipe and are configured to be easily discharged out of the inclined intestinal pipe on the inclined bottom surface of the washing chamber together with the drainage of the washing liquid.

However, foreign substances desorbed from the inner circumferential surface of the intestinal pipe are discharged from the washing chamber together with the washing liquid by the natural dripping drainage of the washing liquid, but the washing liquid and the foreign substances present inside the end of the intestinal pipe adjacent to the inclined bottom surface of the washing chamber are the natural falling of the washing liquid. The problem arises that the drainage force is so weak that it does not escape inside the end of the intestinal pipe and still adheres to the inner peripheral surface of the end of the intestinal pipe.

The present invention has a problem in solving the above problems.

The present invention relates to a washing chamber in which a door is opened and closed, a tray in which a plurality of pipes to be washed, which are seated in a washing chamber and bundled in a cylindrical shape, are stacked side by side in a horizontal direction, and rotatably mounted in the washing chamber to the plurality of pipes. The problem can be solved by providing a pipe cleaning device including a nozzle in which the cleaning fluid is injected into the straight stem at one end of the opening, and a cleaning fluid supply source for supplying the cleaning fluid to the nozzle.

According to the present invention, the pipe cleaning device, the foreign body detached from the inner peripheral surface of the pipe is sprayed from the nozzle that is sprayed from the nozzle is rotated like a flutter and separated to enter the one end of each of the plurality of pipes and the rotation is separated The straight stem is rotated by the inertia and the forward inertia to sweep the inner circumferential surface from one end to the other end of each of the plurality of pipes and is discharged from the other end of the plurality of pipes, thereby reliably removing foreign substances adhering to the inner circumferential surfaces of the plurality of pipes. Can provide an effect.

1 is a conceptual diagram showing the pipe cleaning field of this embodiment when the slotted tubular portion of the nozzle is in a horizontal position,
2 is a conceptual diagram showing the pipe cleaning field of this embodiment when the slotted tubular portion of the nozzle is in a vertical position, and
3 is a view illustrating a state in which a plurality of pipes are stacked in a tray.

Hereinafter, the pipe cleaning apparatus of the embodiment according to the present invention will be described in detail with reference to FIGS.

1 and 2, the pipe washing apparatus of this embodiment is indicated as 100.

The pipe cleaning apparatus 100 includes a plurality of pipes to be cleaned, which are stacked in a top, bottom, left, and right directions by being seated in the washing chamber 10 and the washing chamber 10 in which the door 1 is mounted on one side wall or ceiling wall. Tray 20 in which P) is horizontally or inclinedly loaded, a fluid supply pipe 40 penetrating through the other wall of the washing chamber 10 and rotatably mounted on the other wall, and the fluid supply pipe ( The fluid supply source 50 connected via the swivel joint 51 to the upstream end of the pump 40, and the cleaning fluid is injected into the fluid stem having a predetermined cross-sectional shape at one end of the plurality of pipes P; And a nozzle 30 connected to the downstream end of the fluid supply pipe 40 and a rotating means 60 for rotating the fluid supply pipe 40.

The rotating means 60 is a motor (M) mounted in the washing chamber 10, a drive sprocket 61 is fixedly circumscribed to the output shaft of the motor (M), fixedly circumscribed to the fluid supply pipe (40) A driven sprocket 62 and a chain 63 interposed between the drive sprocket 61 and the driven sprocket 62 to transmit the driving force of the drive sprocket 61 to the driven sprocket 62. .

In addition, as shown in FIG. 3, the tray 20 has a loading surface having a U-shaped cross-sectional shape, whereby the plurality of pipes bound in a circle are prevented from moving in the width direction of the tray 20. .

In the above embodiment, the loading surface of the tray 20 has been described as having a U-shaped cross section with an open top, but the present invention is not limited thereto, and a polygonal cross-sectional shape such as a closed rectangle, a triangle, a hexagon, or the like may be used. It may have.

Although the plurality of pipes P is described as being placed on the loading surface of the tray 20 in the bound state in the embodiment, when the loading surface of the tray 20 has a closed polygonal cross-sectional shape, the A plurality of pipes (P) may be loaded on the loading surface of the tray 20 in a non-bundled state.

In addition, the nozzle 30, as shown in Figure 2, the enlarged diameter portion 31 connected to the downstream end of the fluid supply pipe 40 in the upstream end side, so as to flow from the upstream end to the downstream end. The tapered portion has a tapered shape with a reduced diameter, and an upstream end of the taper portion 32 is connected to the enlarged diameter portion 31 so as to be circulated. A rectangular cross section, a cross-shaped cross section, or L, which penetrates the downstream end of the part 32 and is located inside the tapered part 32, and the downstream end protrudes from the tapered part 32 in the direction of a plurality of pipes P. The slot tubular part 33 of a female cross section is included.

The rotation radius of the slot tubular portion 33 when the nozzle 30 is rotated may have a length that can reach the edges of the cross-sections of the bundled pipes or reach out of the edges of the cross-sections of the bundled pipes. It has a length that can be, and the thickness of the opening end surface of the slot tubular portion 33 is smaller than the radius of each of the plurality of pipes, the rotation radius of the fluid stem discharged from the nozzle 30 is the plurality of bundled pipes It will have a length that can reach the edge of the cross section of or a length that can reach outside the edge, the thickness of the fluid stem discharged from the nozzle 30 has a length smaller than the radius of each of the plurality of pipes.

In order to make such a fluid stem, the cross-sectional area of the slot tubular portion 33 of the nozzle 30 should be less than or equal to the cross-sectional area of the fluid supply pipe 40.

If the cross-sectional area of the slot tubular portion 33 is larger than the cross-sectional area of the fluid supply pipe 40, the fluid stem sprayed from the nozzle 30 does not maintain the stem from one end to the other end of the plurality of pipes (P), the cleaning efficiency Will be lower.

In addition, the fluid may be air, a washing liquid, a mixture of air and a washing liquid, or a mixture of air and a solid.

The pipe cleaning apparatus 100 configured as described above may be operated as follows.

First, the door 1 is opened and a plurality of pipes P tied to the tray 20 embedded in the washing chamber 10 are placed thereon, and then the door 1 is closed.

Then, the motor M of the rotating means 60 is operated to rotate the fluid supply pipe 40 in the clockwise or counterclockwise direction to open / close a valve (not shown) interposed on the discharge side of the fluid supply source 50. The fluid is opened to discharge the fluid stem of a predetermined cross section (rectangular cross section, cross cross section or L cross section) via the fluid supply pipe 40 and the nozzle 30 sequentially.

In addition, the fluid stem, as the nozzle 30 is rotated by the rotating means 60, the fluid stem of the predetermined cross-sectional shape is also rotated, and the rotated fluid stem into the one end of each of the plurality of bundled pipes Branched and rotated into a small fluid stem having a predetermined cross-sectional shape, and the branched small fluid stem rotates while advancing to the other end of each of the plurality of pipes by the discharge pressure of the nozzle and the rotational inertia of the fluid stem. do.

Accordingly, by the branched and rotating small fluid stems sweeping out the inner circumferential surface from one end of the pipe to the other end, foreign matter adhering to the inner circumferential surface of each of the plurality of pipes is detached and the small fluid stems from the other ends of the plurality of pipes. Emitted together, foreign matter adhering to the inner peripheral surface of the ends of the plurality of pipes is reliably removed.

One; Door 10; Washing room, 20; Tray, 30; Nozzle 40; Fluid supply pipe, 50; Fluid source, 60; Rotation

Claims (6)

Washing chamber 10 in which the door 1 is mounted on one side wall or ceiling wall so as to be opened and closed,
A tray 20 seated in the washing room 10 and stacked in up, down, left, and right directions, in which a plurality of pipes P to be cleaned are stacked horizontally or inclinedly;
A fluid supply pipe 40 penetrating the other side wall of the washing chamber 10 and rotatably mounted on the other side wall;
A fluid supply source 50 connected to an upstream end of the fluid supply pipe 40 via a swivel joint 51;
A nozzle 30 connected to a downstream end of the fluid supply pipe 40 for injecting a washing fluid into one end opening of the plurality of pipes P into a fluid stem having a predetermined cross-sectional shape, and
Rotating means 60 for rotating the fluid supply pipe 40,
The radius of rotation of the fluid stem discharged from the nozzle 30 has a length that can reach the edge of the cross-section of the plurality of bundled pipes or a length that can reach outside the edge, and the fluid discharged from the nozzle 30 Pipe thickness, characterized in that the stem has a length less than the radius of each of the plurality of pipes. The method of claim 1,
The nozzle 30 is
An enlarged diameter portion 31 connected to the downstream end of the fluid supply pipe 40 at an upstream end side centrally;
A taper portion 32 having a tapered shape whose diameter decreases from an upstream end to a downstream end so that an upstream end is circulated to the enlarged diameter part 31 so as to be circulated;
Is connected to the downstream end of the tapered portion 32, the upstream end penetrates the downstream end of the tapered portion 32 is located inside the tapered portion 32, the downstream end of the tapered portion 32 The pipe washing apparatus, characterized in that it comprises a slot tubular portion (33) of the rectangular cross section, ten cross-shaped cross section or L-shaped section protruding in the plurality of pipe (P) direction. 3. The method of claim 2,
The rotation radius of the slot tubular portion 33 when the nozzle 30 is rotated may have a length that can reach the edges of the cross-sections of the plurality of pipes or reach out of the edges of the cross-sections of the plurality of pipes. Has a length,
The thickness of the opening cross section of the slot tubular part (33) is smaller than the radius of each of the said plurality of pipes, The pipe washing apparatus characterized by the above-mentioned. 4. The method according to any one of claims 1 to 3,
The rotating means 60 is a motor (M) mounted in the washing chamber 10, a drive sprocket 61 is fixedly circumscribed to the output shaft of the motor (M), fixedly circumscribed to the fluid supply pipe (40) A driven sprocket 62 and a chain 63 interposed between the drive sprocket 61 and the driven sprocket 62 to transfer the driving force of the drive sprocket 61 to the driven sprocket 62; Pipe washing apparatus, characterized in that. 3. The method according to claim 1 or 2,
The stacking surface of the tray 20 has a U-shaped cross-sectional shape, or a pipe washing apparatus, characterized in that it has a closed polygonal cross-sectional shape. 4. The method according to claim 2 or 3,
The pipe washing apparatus, characterized in that the cross-sectional area of the slot tubular portion (33) of the nozzle (30) is less than or equal to the cross-sectional area of the fluid supply pipe (40).

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