KR20100100155A - A pipe having a twist wing - Google Patents

Abstract

PURPOSE: A pipe having a spiral blade is provided to ensure the maximized service life because an iron sore is inserted in the spiral blade to support the strength of the blade. CONSTITUTION: A pipe(100) comprises a spiral blade(200) and a spiral blade indicating unit. The spiral blade is formed lengthwise on the inner periphery of the pipe and has a ladder-shaped, semicircular or elliptical cross section. The spiral blade indicating unit is formed on the outer periphery of the pipe and projected corresponding to the spiral blade.

Description

A Pipe Having a Twist Wing}

The present invention is formed by lengthening the spiral wing in the longitudinal direction inside the pipe, applied to the waste water pipe in the common residential area, such as apartment, the speed of water flow when sewage or waste water passes through the spiral wing when passing through the pipe It relates to a pipe having a spiral blade characterized in that to minimize the noise generated by reducing the.

Generally, a large tank or a pipe is used as a means for transporting a fluid such as a liquid or a gas over a long distance.

Among such fluid transportation means, transportation using a large tank takes too much logistics cost, and thus, a method using a pipe is frequently used.

In particular, sewage pipes are used as means of transporting domestic sewage, industrial wastewater and the like. Such water and sewage pipes generate noise due to the flow of water flowing inside them.In particular, in the case of sewage pipes installed in a multi-family house such as an apartment, noise caused by sewage flowing in the sewage pipe is severe and is used for residents of other buildings or other floors. There was a problem that gave a lot of inconvenience.

Patent application 2004-0007040 has been proposed as a prior art to solve this problem, the main component of the application is the proper length integrally screw plate tilted 5 to 85 ° with respect to the cylindrical shaft to bisect the inside of the cylindrical pipe It is formed, the screw plate has a proper length in the rotational direction, the pipe having a screw plate that rotates in one direction only alternately with each other 5 to 90 ° alternately installed, the screw plate is appropriately installed in the rotation direction Pipes each having a length and having a right rotating screw plate and a left rotating screw plate alternately crossing each other by 5 to 90 degrees, and each screw plate is installed to continuously install a pipe integrally formed therein. This can be done either by welding the pipe or by bolting it with a flange at the end of the pipe. It is done.

However, this technique is not only very difficult to manufacture the screw plate to make the plate to divide the inside of the pipe, but also increases the production cost, and also frequently clogged pipe and it is difficult to remove when the material is caught There is a difficult problem. In addition, if the pipe is drawn in the building, the replacement is inevitable, and if clogging occurs, the repair is not easy, and it is difficult to connect the screw plates continuously so that the screw plates are not seen from the outside when connected in multiple stages. There was.

The present invention is to solve the above problems, it is an object to configure one or more spiral blades in the pipe to be arranged inside to reduce the flow of water while passing through the spiral blades to significantly reduce the noise. .

In addition, the purpose of maximizing the thermal efficiency of the hot water of the boiler pipe (Excel pipe).

In addition, the purpose is to increase the life of the pipe as possible to insert more than one iron core to support the rigidity of the wing.

In addition, the purpose is to form a spiral wing indicator on the outer periphery of the pipe in the same way as the spiral blade formed on the inside of the pipe so that the spiral blade is continuous when joining the pipe in multiple stages.

In addition, the purpose of the synthetic resin is to achieve a noise reduction at a relatively low cost.

As a means for achieving the above object,

The present invention is characterized in that the spiral wing 200 is formed in the longitudinal direction of the inner periphery of the pipe 100 is made of a trapezoidal shape, semi-circle or elliptical shape in cross section.

In addition, the outer periphery of the pipe 100 is characterized in that the helical wing display unit 110 is protruded in the same manner as the spiral blade is installed on the inner periphery of the pipe.

In addition, the body of the spiral wing 200 is characterized by being formed by forming a recess 210 of the wedge-shaped groove, circular groove or square groove structure.

In addition, the body 220 of the spiral wing 200 is characterized by being made by inserting one or more iron cores.

In addition, the material of the pipe 100 and the spiral blades 200 is characterized in that any one selected from a synthetic resin, iron, stainless, aluminum alloy.

The present invention has the effect of significantly reducing noise during waste water discharge because the speed is reduced as the water passes through the spiral blade.

In addition, when the spiral blade is inserted into the boiler pipe (Excel pipe), the hot water rotates and moves. As a result, when the hot water is sent in the same length as a general pipe, the moving distance of the water becomes longer than that of the existing pipe, and the air in the pipe The phenomenon of being concentrated in the middle has the effect of increasing the thermal efficiency of the pipe surface.

In addition, since the iron core is inserted into the spiral blade of the pipe to support the rigidity of the blade, there is an effect of extending the life of the pipe as much as possible.

In addition, since the spiral wing display portion is formed on the outer circumference of the pipe, the spiral wing display portion can be aligned at the time of pipe joining in multiple stages, so that the spiral blades can be continuously arranged.

In addition, when the synthetic resin is applied as a pipe material, the noise reduction device can be manufactured at a relatively low cost of materials.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a first embodiment of the present invention with three spiral wings.

Figure 2 is a second embodiment of the present invention having two spiral wings.

3 is a third embodiment of the invention with four spiral wings;

Figure 4 is a fourth embodiment of the present invention showing a spiral wing indicator.

5 is a fifth embodiment of the present invention showing that the iron core is inserted into the spiral blade.

6 is a sixth embodiment of the present invention in which a recess is formed in a spiral blade;

7 is a seventh embodiment showing the pipe of the present invention applied to a boiler,

Component of the present invention is formed by forming at least one spiral blade 200 on the inner periphery of the pipe 100, preferably two to four is suitable.

That is, it is possible to form a plurality of spiral blades on the inner periphery of the pipe, most preferably three is suitable, the spiral blade is narrowed in width toward the center point of the pipe 100 so that the cross section is made of a trapezoidal shape. .

In addition, the torsion angle of the spiral blade 200 can be produced in various ways of 5 to 90 degrees, of course, can also vary the range of rotation of the spiral blade.

For reference, in the exemplary embodiment of the present invention, the torsion angle of the spiral blade is shown as a shape projecting at a right angle, and the pipe length is about 1: 3 relative to the cylindrical width, and the rotation range is about the starting point of the spiral blade. 30 degrees.

In the drawings of the embodiment of the present invention, the rotation range of the blade is shown for the convenience of description, and when the three spiral blades are installed, it is preferable that the rotation range is preferably 120 degrees. If two spiral wings are installed, the rotation range is preferably 180 degrees, and if four spiral wings are installed, the rotation range is preferably 90 degrees. Of course, the rotation range of the helical blade can be more diversified as necessary.

Although the cross-sectional shape of the spiral wing 200 is illustrated only in the trapezoidal shape in the drawings, not only a trapezoidal shape, but also a rectangular shape, a semi-circular shape, or a semi-elliptic shape is possible.

In addition, the concave portion 210 may be formed in the spiral blade 200 as necessary, and the concave portion may be manufactured to have a wedge-shaped groove, a circular groove, or a rectangular groove structure.

Forming a wedge-shaped groove or a circular or square groove as the concave portion 210 in the spiral blade 200 in the above can play a secondary role in inducing the flow of water, in addition to the basic function of the spiral wing more natural flow of water Can be derived.

In addition, the present invention can support the stiffness of the spiral wing 200 by inserting one or more iron cores 220 in the spiral wing 200, thereby extending the life even if water is in contact with the spiral wing 200 for a long time. You can extend it as much as possible.

In addition, the present invention is to form the spiral wing display unit 110 in the same shape as the spiral wing on the outer periphery of the pipe 100, when the spiral wing display unit 110 as described above is protruded when combined in multiple stages As long as the spiral wing display unit 110 is matched with each other, the spiral wing 200 formed inside the pipe 100 is engaged.

That is, when the spiral wing display unit 110 is not protruded from the outer circumference of the pipe 100, the spiral blade 200 is hidden inside the pipe 100, and thus the spiral blade 200 is hidden when the pipe 100 is joined in multiple stages. It is difficult to match the blade 200, in the present invention to solve this problem in the outer periphery of the pipe 100 to form a spiral wing display unit 110 of the same shape as the spiral wing is coupled to the inside of the pipe when the pipe ( By combining the spiral wing display unit 110 formed on the outer circumference of the 100 to match the spiral wing 200 formed inside the pipe 100 is naturally connected.

Looking at the manufacturing process of the present invention as follows.

The material of the pipe 100 of the present invention is to use synthetic resins such as PVC, FRP and the like, metals such as iron, stainless, aluminum alloy and inorganic materials such as concrete.

In particular, the manufacturing method of the pipe 100 in which the spiral wing 200 is built using synthetic resins is generally used in the extruder (not shown) widely used in the art. It is possible to form a pipe formed with a spiral blade while passing through the groove of the extruder while forming a groove corresponding to and passing the synthetic resin flow through the extruder.

In addition, in the structure in which the iron core is inserted into the threaded wing 200, the pipe can be manufactured by passing the synthetic resin stream in the state where the iron core is disposed in the groove of the extruder and discharging the iron core in the same manner as the synthetic resin stream.

In addition, when the protrusions are formed in the grooves of the extruder in the longitudinal direction, the synthetic resin flows and is extruded into a shape in which the recesses 210 are formed in the spiral wings 200.

Figure 7 is an embodiment when applying the pipe of the present invention for the boiler, when the pipe having a spiral blade of the present invention is applied to the boiler pipe (Excel pipe), the hot water rotates and, as a result, When hot water is sent in the same length as a general pipe, the moving distance of water is longer than that of a conventional pipe, and the air inside the pipe is also concentrated in the center, thereby increasing the thermal efficiency of the pipe surface.

In addition, although the invention has been described in connection with the preferred embodiments mentioned, other various modifications and variations may be made without departing from the spirit and scope of the invention. Accordingly, it is intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

1 is a first embodiment of the present invention with three spiral wings.

Figure 2 is a second embodiment of the present invention having two spiral wings.

3 is a third embodiment of the invention with four spiral wings;

Figure 4 is a fourth embodiment of the present invention showing a spiral wing indicator.

5 is a fifth embodiment of the present invention showing that the iron core is inserted into the spiral blade.

6 is a sixth embodiment of the present invention in which a recess is formed in a spiral blade;

7 is a seventh embodiment in which the pipe of the present invention is applied to a boiler.

Explanation of symbols on the main parts of the drawings

100: pipe

110: spiral wing display

200: spiral wings

210: recess of the spiral wing

220: iron core of spiral wings

Claims (5)

Pipe having a spiral blade, characterized in that formed in the inner periphery of the pipe 100 is formed in the longitudinal direction of the spiral wing 200 made of a trapezoidal shape, semi-circular shape or elliptical shape in the longitudinal direction. The method of claim 1, The outer periphery of the pipe 100 is a pipe having a spiral blade, characterized in that the extrusion of the spiral wing display unit 110, the same as the spiral blade installed on the inner periphery of the pipe. The method of claim 1, The spiral blade 200 has a spiral blade, characterized in that formed by forming a recess 210 of a wedge-shaped groove or a circular groove or a square groove structure. The method of claim 1, Pipe having a spiral blade, characterized in that the body 220 of the spiral blade 200 is made by inserting one or more iron cores. The method of claim 1, The material of the pipe 100 and the spiral blades 200 is a pipe having a spiral blade, characterized in that any one selected from synthetic resin, iron, stainless steel, aluminum alloy.

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