KR101246158B1 - Steam spring for sewerage thawing - Google Patents

Abstract

The present invention is made of a spirally twisted steel wire, the hollow head and the shank portion, the inner surface of the head is formed with an inner key groove is inserted into the key in the circumferential direction, the end of the shank portion of the nipple joint groove grooved A female nipple is formed at the center of the female nipple joint groove, and hollow female nipples are formed and an outer circumferential tab is formed so that the shank portion is integrally coupled to one end of the spring; A steam flow passage penetrating the inside is formed, and at the outer circumference of one end, a foreign key groove corresponding to the inner key groove is formed in the circumferential direction, and at the other end, a nipple joint groove is formed, and a hollow nipple is formed at the center of the nipple joint groove. A male nipple having a needle and a spiral tab formed on an outer circumference thereof and integrally coupled to the other end of the spring; One end is inserted into the female nipple, the other end is fitted to the sunniel needle, the steam wire to communicate between the female nipple and the male nipple fitted to both ends of the spring; Sewage thaw steam characterized in that it comprises ;; a steam line joint which is fastened to the female nipple joint groove and the nipple joint groove and pressurized the steam wire fitted to the female nipple and the male needle needle so that the steam wire does not fall out. It's about the spring.

Description

Steam spring for sewage thawing {Steam spring for sewerage thawing}

The present invention relates to sewage sea ice that occurs during the winter, and more particularly, to a sewage sea ice steam spring that can be melted from the outside without a worker directly enters the sewage when a certain part of the sewage is frozen and blocked.

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Sewage is a underground pipe that allows wastewater from homes and commercial buildings to flow into the wastewater treatment plant. Wastewater is mixed with water and flows to the wastewater treatment plant.

Water pipe maintains the flow velocity more than a certain speed even after falling below freezing point in winter, and does not freeze well because it does not contain highly viscous mixture, but sewage contains viscous mixture with high inflow of wastewater and viscous mixture. The flow rate is slow and may be stagnant in some sections.

When the flow rate of wastewater flowing into the sewer in winter slows down, a certain section freezes, and the diameter of the sewer decreases, causing clogging.

Manholes are installed at regular intervals of the sewerage so that they can be managed when the sewer is blocked or damaged. In some places, workers can go directly into the sewerage depending on the size and location of the sewerage, but many do not. If a worker can enter the sewer directly, the frozen place can be broken with a tool or the hose can be connected from outside to be melted with hot water. Insert a steamer and melt it by spraying hot water or steam on the frozen part.

The present invention is to solve the problems as described above, the steam wire inserted into the spring behaves integrally with the spring so that the fluid is precisely injected to the desired freezing point, and simply attach and detach the unit spring while the length of the spring It is easy to move or carry the equipment by adjusting it, and calculates the freezing point distance of the sewerage system and connects it to the length corresponding to the distance to facilitate the sewage thawing operation.

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In order to achieve the above object, the present invention consists of a steel wire twisted spirally, the hollow head and the shank portion, the inner surface of the head is formed with an inner key groove is inserted into the circumferential direction, the end of the shank portion on the inner surface A tapped nipple joint groove is formed, a hollow nipple nipple is formed at the center of the nipple joint groove, and an outer nipple has a spiral tab formed so that the shank portion is integrally coupled to one end of the spring; A steam flow passage penetrating the inside is formed, and at the outer circumference of one end, a foreign key groove corresponding to the inner key groove is formed in the circumferential direction, and at the other end, a nipple joint groove is formed, and a hollow nipple is formed at the center of the nipple joint groove. A male nipple having a needle and a spiral tab formed on an outer circumference thereof and integrally coupled to the other end of the spring; One end is inserted into the female nipple, the other end is fitted to the sunniel needle, the steam wire to communicate between the female nipple and the male nipple fitted to both ends of the spring; Sewage thaw steam characterized in that it comprises ;; a steam line joint which is fastened to the female nipple joint groove and the nipple joint groove and pressurizes the steam wire fitted to the female nipple and the needle nipple Provide spring.
In addition, the outer circumference of the nipple is formed with a sealing groove, a sealing member made of an elastic material such as rubber is inserted into the sealing groove, the head of the nipple is further formed with a key release groove in communication with the inner key groove. It features.

According to the present invention, since the steam wire moves in one body instead of separately from the spring, the steam wire and the tip of the spring are different from each other to minimize the case where the steam wire is not accurately injected to the freezing point, and the length of the spring is easily removed. It can be adjusted to calculate the distance from the sewer inlet to the freezing point to ensure only the required length, making the thawing simple and easy.

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Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 3 to 7, the steel wire is spirally twisted is provided with a spring 100 having a unit length of 2.5m.

One end of the spring 100 is integrally coupled to the female nipple 200. The female nipple 200 is to allow the unit spring to be connected continuously, the hollow head portion 210 and the shank portion 220, the center is formed with a steam flow path (SL) penetrating in the longitudinal direction.

An inner key groove 212 is formed in the head circumferentially in the circumferential direction, the key 230 is inserted into the inner key groove 212, and the end of the shank portion 220 is tapped in the inner nipple joint A groove 240 is formed, and a hollow female nipple needle 250 is formed at the center thereof, and the shank portion 220 is fitted at the end of the spring 100 to be integrally coupled. The outer periphery of the shank portion 220 may be knurled, scratched or formed with a fine spiral groove to tightly wrap the spring 100 thereon so as not to fall off, or may be wound and joined by welding.

At the other end of the spring 100, the nipple nipple 300 is coupled. In the nipple 300, a steam flow passage SL penetrating the center is formed, and an outer key groove 312 corresponding to the inner key groove 212 of the female nipple 200 in the circumferential direction is formed at one end of the outer nipple. The first nipple joint groove 240 is formed, and the center of the nipple joint groove 240 is formed a hollow nipple needle (350) is protruded, the outer periphery of the knurled or fine spiral so as to strengthen the bonding force without slipping The tab is formed so that the spring 100 is tightly wound thereon to be integrally coupled.

Between the female nipple 200 and the male nipple 300 is connected to the steam line 400 forming a flow path. Steam line 400 is one end is fitted to the female nipples (250), the other end is fitted to the sunniel needles (350) between the female nipples 200 and the nipples (300) coupled to both ends of the spring (100) It connects and forms a flow path. Steam line 400 is about 6mm in diameter and uses a high-strength synthetic resin material.
The steam nipple joint groove 240 and the nipple nipple joint groove 340 are fastened to the steam line joint 500 to pressurize the steam wire 400 so that the fluid flows into the steam wire 400 even if the internal pressure is applied to the female nipple. Do not fall out of the needle 250 and the nipple needle (350). That is to prevent steam passing through the steam line 400 does not leak. The inner diameter of the steam line joint 500 is designed to be slightly smaller than the outer diameter of the steam line 400 so that the steam line 400 is tightly tightened when the steam line joint 500 is fastened, so that the steam line 400 is forced by the pressure. The female nipples (250) or the sonic nipples (350) is to avoid exiting.
When the unit springs are connected to each other, one of the unit spring female nipples 200 may be fitted with the male nipple 300 of the other unit spring or vice versa.
Referring to the operation according to the present invention configured as described above are as follows.
When describing the coupling process of the female nipple 200 and the male nipple (300), first hold the key 230 using a common key pliers (not shown) and the tip of the male nipple (300) to the inner diameter of the female nipple (200) When the foreign key groove 312 reaches the inner key groove 212, the key is released to release the key is inserted into the foreign key groove 312 is engaged while being engaged.
When the nipple (200) is coupled to the nipple (300), the tip of the nipple (300) is in close contact with the wall surface where the steam channel (SL) of the nipple (200) starts and the steam path (SL) of the nipple (200). ) And the steam passage SL of the nipple 300 is connected. In this way, the total length of the spring 100 is adjusted according to the number of connecting the unit spring 100.
The length of the adjusted spring 100 is moved through the rotating power or the driving power to melt the frozen portion of the sewer.
Winding the spring (100) connecting the plurality of unit springs 100 and the steam discharge port of the steamer in the form of a sun nipple (300) to form a female nipple (200) formed on one end of the wound spring (100) to the steam discharge port Connect.
When the female nipple 200 and the steam discharge port of the spring 100 is connected through the rotating power or the driving power, the spring 100 moves forward along the sewer.
When the spring 100 advances and arrives at the frozen portion, steam is sprayed through the steamer 400 to thaw. Since the steam line 400 is fixed between the nipple 200 and the nipple 300 so as not to flow, the direction of the tip of the spring 100 is the injection direction of steam or hot water. That is, the steam line 400 is firmly fixed to the female nipples 200 and the nipples 300 so that the steam line 400 must be matched with the direction of the end of the spring 100 so that the steam line 400 is accurately injected to the freezing point when the fluid is injected.

3 is an exploded perspective view of the spring for sewage thawing according to the present invention.

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Figure 4 is a combined perspective view of the spring for sewer sea ice according to the present invention.

Figure 5 is a cross-sectional view before coupling the female nipple and the nipple of the spring for sewage thaw according to the present invention.

Figure 6 is a cross-sectional view of the coupling state of the female nipple and the nipple of the spring for sewage thaw according to the present invention.

Figure 7 shows the state and process of connecting the unit spring constituting the spring for sewerage sea ice according to the present invention.

[Description of Symbols]

100: spring 200: female nipple
210: head 212: Naki home
220: shank portion 230: key
240: female nipple joint groove 250: female nipple nipple
300: Sunniple 312: Naki Home
316: sealing member
340: nipple nipple groove 350: nipple nipple
400: steam wire 500: steam wire joint

Claims (3)

Spring 100 is made of twisted steel wire spirally; It consists of a hollow head and shank portion, the inner surface of the head is formed with an inner key groove in which the key is inserted in the circumferential direction, the end of the shank portion is formed with a tapped nipple nipple joint groove, the center of the female nipple joint groove Hollow female nipples are formed and the outer circumference is formed a spiral tab is the female nipple 200 is integrally coupled to one end of the spring portion; A steam flow passage penetrating the inside is formed, and at the outer circumference of one end, a foreign key groove corresponding to the inner key groove is formed in the circumferential direction, and at the other end, a nipple joint groove is formed, and a hollow nipple is formed at the center of the nipple joint groove. A male nipple 300 having a needle formed and a spiral tab formed on an outer circumference thereof and integrally coupled to the other end of the spring; One end is inserted into the female nipple, the other end is fitted to the sunniel needle steam line 400 to communicate between the female nipple and the male nipple fitted to both ends of the spring; A steam line joint 500 fastened to the female nipple joint groove and the male nipple joint groove to pressurize the steam wire inserted into the female nipple needle and the male nipple needle to prevent the steam wire from falling out; Sewerage seawater steam spring, characterized in that consisting of. The method of claim 1, Sealing grooves are formed on the outer circumference of the nipple, and the sealing groove is a steam spring for sewage thawing, characterized in that a sealing member made of an elastic material such as rubber is inserted. The method of claim 1, The head portion of the female nipple (200) is a sewage thaw steam spring, characterized in that the key release groove 232 is further formed in communication with the inner key groove.

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