KR20100096793A - Thawing system heated with steam - Google Patents

Abstract

PURPOSE: A thawing system for steam is provided to easily insert a hose in an elbow area of a pipe by manipulating a spring nozzle using a stainless wire or a steel wire. CONSTITUTION: A thawing system(10) for steam comprises a connection unit(200), a hose, a spring, and a nozzle(350). The connection unit is connected to one side of a sealed tank(100) with a steam outlet(130) and comprises a body unit(210) and a socket unit(220). The body unit has a hollows for connecting the sealed tank and the hose, and a through groove. The socket unit is connected to the through groove. The hose is connected to the connection unit. The spring nozzle is formed in the end of the hose.

Description

Thawing System Heated with Steam}

The present invention relates to a steam thawing system, and more particularly, by using a spring nozzle and a wire at an end of a hose which is introduced into a frozen pipe, a hose whose rigidity is degraded by high temperature steam in an elbow region such as a corner of the pipe. The present invention relates to a steam thawing system capable of smoothly dispensing, having a wire tip at the end of a spring nozzle, and smoothly dispensing by using a wire or stainless steel wire connected to a wire peak, to easily thaw a pipe.

In general, the water and sewage pipes are installed on the inner wall, outer wall or ground of a building to receive tap water from a remote location or to send domestic wastewater to a predetermined place, and since the water is always present inside, it freezes in the cold winter season. There is this. In particular, when water is stagnant in the pipe, the water freezes more easily, so that the tap water cannot be smoothly supplied, and the pipe itself is ruptured when the waste water cannot be discharged or seriously.

Conventionally, in order to solve such a problem, water is boiled with a pressure cooker, water vaporizes, and steam generated by injecting steam into a pipe using a hose or the like to thaw a frozen tube. However, when thawing in this manner, there is a problem that a lot of time is consumed in thawing the frozen tube, and because the pressure cannot be adjusted, the hose cannot withstand the pressure of steam and is broken.

Various sea ice systems have been developed to solve the above problems. As an example, a steam thawer has been developed that injects water into a tank of a predetermined volume and heats it with an electric heater to inject steam generated at this time into and out of the pipe to thaw the pipe. Such a thawing device can control the pressure by using a valve and a pressure gauge, but as in the case of the pressure cooker described above, a steam must be supplied into the pipe by using a hose. In this case, when the hose is used, the hose is deteriorated due to the high temperature steam, and thus there is a problem in that it is not easy to put into the elbow area such as a corner of the pipe.

As another example, an electric thaw was developed that uses electric resistance to thaw a pipe, but this thaw can be easily thawed if the pipe is a conductor such as copper pipe or iron pipe, but it takes a long time. In the case of using non-conducting pipes such as meta-pole pipes or electric pipes, there is a problem in that thawing is impossible. In addition, even in the case of using a conductor pipe such as copper pipe or iron pipe, there is a problem in that thawing is impossible even when plastic or rubber packing is applied to the end of the pipe to close the pipe.

Therefore, the present invention was created in order to solve the above problems, by installing a spring nozzle at the end of the hose which is introduced into the frozen pipe, the hose is reduced in rigidity by high temperature steam in the elbow area, such as the corner of the pipe. The steam thawing system can be smoothly injected, and has a wire tip at the end of the spring nozzle, and can smoothly insert the deep part of the pipe by using a wire or stainless steel wire connected to the wire tip to easily thaw the pipe. The purpose is to provide.

An object of the present invention as described above is a steam thawing system using a closed tank having a heater for generating steam by heating a fluid, the connection portion connected to one side provided with a steam outlet of the closed tank; A hose connected to the connection part and serving as a passage for supplying steam; And a spring nozzle provided at the end of the hose to induce the entry of the hose.

At this time, the spring nozzle is 30mm to 50mm in length before being tensioned.

In addition, the connection portion, the body is formed with a hollow for connecting the sealed tank and the hose, the through-hole is formed through the hollow through one side; And a socket part connected to the through groove.

In addition, a wire or stainless steel wire penetrating the hose from the end of the spring nozzle, and discharged into the through groove provided in the body portion of the connecting portion is further provided, the thickness of the wire or stainless steel wire is 0.5mm to 1.5mm in diameter. At this time, the tip of the spring nozzle is further provided with a peak for fixing the wire or stainless steel wire. This peak may be joined by welding to the end of the spring nozzle.

In addition, one side of the steam is discharged to the hose coupling portion is formed protruding narrower than the thickness of the body portion to facilitate the insertion of the hose. Further, a thread is formed on one side of the outer circumferential surface of the hose coupling part, and the nut further includes a nut for preventing the hose connected to the hose coupling part from being separated by the pressure of steam.

In addition, the socket portion, the outer socket coupled to the through groove of the body portion; A rubber packing inserted into the outer socket to prevent steam from being discharged to the outside; And a sock socket for preventing the rubber packing from being separated by the pressure of the steam. At this time, the upper and lower portions of the rubber packing 222 is further provided with a washer for more smoothly preventing the discharge of steam.

In addition, one side between the closed tank and the connection portion is further provided with a valve for controlling the flow rate of steam, one side of the valve is further provided with a pressure gauge for measuring the pressure of the steam introduced through the valve.

According to the present invention, the spring nozzle is provided at the end of the hose inserted into the pipe for thawing, so that the hose can be easily inserted even in an elbow portion such as a corner of the pipe.

In addition, by operating the spring nozzle using a wire or stainless steel wire there is an effect that can be inserted more smoothly in the elbow area, such as the corner of the pipe. In addition, there is an effect that the wire or stainless steel wire reinforces the rigidity of the hose lowered due to the high temperature steam.

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

<Configuration of the steam thawing system>

(First embodiment)

1 is a perspective view showing a steam thawing system according to the present invention. As shown in FIG. 1, the steam thawing system 10 according to the present invention includes an airtight tank 100, a connection part 200, a hose 300, and a spring nozzle 350 as a whole. In addition, it further comprises a wire 400 or stainless steel wire for the operation of the hose 300 is introduced into the pipe.

The sealed tank 100 according to the present invention is provided with a predetermined volume of internal space to receive water in the internal space to heat the water by receiving a power of a predetermined voltage. 100 may be used. However, preferably, the water injecting unit 110 into which water is injected to one side, a heater (not shown) for heating the water injected into the closed tank 100, a power supply unit 120 for supplying power to the heater, and generation It is preferable to use a closed tank 100, each provided with a steam outlet 130 for discharging the steam.

2 is a perspective view illustrating a connection part, a hose and a spring nozzle 350 of the steam thawing system according to the first embodiment of the present invention, and FIG. 3 is a connection part of the steam thawing system according to the first embodiment of the present invention. , An exploded perspective view showing the hose and the spring nozzle 350 is shown.

Connection portion 200 according to the present invention serves as an intermediate passage for delivering the steam generated in the closed tank 100 to the hose 300, and serves to facilitate the pipe entry of the hose 300. The connection portion 200 is configured of the body portion 210 is made up of the body portion 210 and the socket portion 220 is coupled to the body portion 210 and the body portion 210 is formed in a hollow for connecting the tube and the tube as a whole. Here, the body portion 210 is formed in a shape similar to a connecting member for connecting the tube and the tube generally having a hexagonal longitudinal section. However, one side of the body portion 210 is formed with a through groove 211 penetrated to the hollow portion of the body portion 210 so that the socket portion 220 can be coupled, the socket portion 220 in the through groove 211 Thread is formed so that In addition, one side from which the steam of the body portion 210 is discharged may protrude from the hose coupling portion 212 protruding thinner than the overall thickness of the body portion 210 to facilitate the insertion of the hose 300. A thread is formed on one side of the outer circumferential surface of the hose coupling part 212, and a hose 300 connected to the hose coupling part 212 by connecting a nut N corresponding thereto is connected to the hose coupling part 212 by the pressure of steam. ) Can be prevented from escaping.

The socket 220 according to the present invention is inserted into the outer socket 221 and outer socket 221 coupled to the through groove 211 formed in the body portion 210 described above, and the steam is discharged into the through groove 211. It consists of a rubber socket 223 for fixing the rubber packing 222 and the rubber packing 222 to the outer socket 221 to prevent being. Here, the outer socket 221 is formed in a shape similar to the hexagonal bolt is formed as a whole. The outer circumferential surface of the outer socket 221 is formed with a thread corresponding to the thread of the through groove 211, the inner circumferential surface is formed with a screw thread so that the inner socket 223 can be coupled.

Rubber packing 222 according to the present invention is to prevent the discharge of steam through the through groove 211, has a predetermined height, cylindrical shape having a diameter corresponding to the diameter of the hollow of the outer socket 221 Is done. In addition, a hollow is formed in the rubber packing 222 so that the wire 400 or the stainless steel wire for operating the hose 300 can be inserted.

The inner socket according to the present invention is to prevent the rubber packing 222 from being separated from the outer socket 221 by the pressure of steam, and is made of a bolt-like configuration corresponding to the thread formed on the inner circumferential surface of the socket. However, the hollow socket 223 is also formed of a hollow so that the wire 400 or the stainless steel wire can be inserted like the rubber packing 222.

The upper and lower portions of the rubber packing 222 of the socket part 220 according to the present invention are further provided with a plurality of washers 224 to prevent the discharge of steam more smoothly.

The washer 224 and the sock socket 223 of the socket portion 220 described above may be inserted into the hollow portion so that the wire 400 or the stainless steel wire can be inserted at one side to facilitate the insertion of the wire 400 or the stainless steel wire. It is good that the groove is formed.

The hose 300 according to the present invention is for supplying steam for thawing the frozen pipe by inserting steam generated by heating the fluid in the closed tank 100 into the pipe, and having a diameter of 5 mm to 7 mm. It is good to use a common hose (300). The length of this hose 300 is 4m to 7m is suitable. If the length is less than 4m, it is difficult to insert the hose 300 to the thawed portion of the pipe, if the length exceeds 7m it is difficult to insert the hose 300, in the process of hot steam is transported Expression has a problem.

Spring nozzle 350 according to the present invention is coupled to the end of the hose 300, when the hose 300 is introduced into the pipe is bent to one side, such as the elbow portion, such as the corner of the pipe smoothly the injection of the hose 300. It is to let. This spring nozzle 350 is preferably wound to a thickness that can be coupled to the outer peripheral surface of the hose (300). In addition, the length of the spring nozzle 350 is preferably about 30mm to 50mm before the spring is tensioned. If the length of the spring is less than 30mm, it may be difficult to put it in the corner bent to one side such as the elbow part of the pipe due to lack of elasticity of the spring, and if it exceeds 50mm, the spring may be twisted inside the pipe. Can be.

Wire 400 or stainless steel wire according to the present invention serves to smoothly put the hose 300 is reduced in rigidity due to high temperature steam, the pipe 400, the thickness of 0.5mm to 1.5mm Or it is better to use stainless steel wire. In order to couple the wire 400 or the stainless steel wire to the hose 300, the tip 410 is provided at the end of the wire 400 or the stainless steel wire. The peak 410 is formed in a predetermined shape slightly larger than the wound diameter of the spring nozzle 350 so as to be caught by the end of the spring nozzle 350 described above, and the hollow in which the wire 400 or the stainless steel wire can be inserted. The addition is formed. The shape of the peak 410 is made of any shape if the end of the wire 400 or stainless steel wire is coupled to achieve the purpose that the wire 400 or stainless steel wire can provide a force to the hose 300. Although it may be sufficient, Preferably it is what consists of a spherical or polygonal shape.

Between the closed tank 100 and the connection part 200 according to the present invention is provided with a valve 500 for adjusting the flow rate of the steam supplied from the closed tank 100. In addition, one side of the valve 500 may be further provided with a pressure gauge 550 to measure the pressure of the steam supplied by the control of the valve 500.

(Second embodiment)

4 is an exploded perspective view showing the connection, the hose and the spring nozzle of the steam thawing system according to the second embodiment of the present invention. The steam thawing system according to the second embodiment of the present invention has the same configuration as the first embodiment as a whole. However, the connecting portion 200 according to the second embodiment of the present invention is the configuration of the body portion 210 is coupled to the body portion 210 and the body portion 210 having a hollow shape for connecting the tube and the tube as a whole It is made of a socket portion 220. Here, the body portion 210 is formed in a shape similar to a connecting member for connecting the tube and the tube generally having a hexagonal longitudinal section. However, one side of the body portion 210 is formed with a through groove 211 penetrated to the hollow portion of the body portion 210 so that the socket portion 220 can be coupled, the socket portion 220 in the through groove 211 Thread is formed so that In addition, a one-touch clamp 213 may be provided at one side from which steam of the body portion 210 is discharged to facilitate the insertion of the hose 300. The one-touch clamp 213 is fixed by the hose 300 to the body portion 210 during the thawing operation, and when the hose 300 is twisted when the work 300 is completed or inside the pipe simply press the one-touch clamp 213 once 300 can be separated.

<Use Method of Steam Defrosting System>

The steam thawing system 10 according to the present invention is for thawing pipes of water supply or sewage frozen in winter, the use of which is as follows.

First of all, the spring nozzle 350, the wire 400 or stainless steel wire, the hose 300 and the connecting portion 200 are connected to each other. At this time, the wire 400 or stainless steel wire is inserted into the spring nozzle 350, and the wire 400 or the stainless steel wire is fixed by using a peak 410 at one end of the spring nozzle 350. In this case, the wire 400 or stainless steel wire may be welded or compressed to the peak 410 to be integrally coupled, or a fixing member (not shown) may be further fixed to one end of the wire 400 or the stainless steel wire. have. Next, the wire 400 or stainless steel wire is inserted into the hose 300. Next, the wire 400 or the stainless steel wire is inserted into the hose coupling portion 212 of the body portion 210 to be discharged into the through groove 211, and the socket portion 220 is coupled to the through groove 211. Finally, the hose 300 is coupled to the hose coupling portion 212 and the hose 300 is fixed to the hose coupling portion 212 using the nut (N).

Next, the closed tank 100 is transferred to an open position outside of the frozen pipe.

Next, a heater (not shown) provided in the sealed tank 100 by filling water in the sealed tank 100 through the water injection unit 110 of the sealed tank 100 and applying power through the power supply unit 120. ) To boil water and generate steam.

Next, the hose 300 is inserted into the freezing pipe to be introduced to the freezing part of the pipe.

Next, by operating the valve 500 provided near the steam outlet 130 of the sealed tank 100 to adjust the flow rate of the steam pipes generated in the sealed tank 100 via the hose 300 as a path Inject inside. Operation of the valve 500 may check the pressure gauge 550 provided on one side of the valve 500 and adjust the flow rate thereof. At this time, steam is not discharged due to the rubber packing 222 and the plurality of washers 224 into the through groove 211 of the body portion 210, and only steam is introduced into the hose 300 coupled to the connection part 200. do.

Next, steam is continuously introduced until the frozen portion of the pipe is completely thawed and the hose 300 is inserted into the pipe. At this time, since the rigidity is lowered due to the high temperature steam, the hose 300 may not be smoothly introduced into the pipe. In this case, the user inserts the hose 300 by pushing and pulling the wire 400 or the stainless steel wire which is inserted into the hose 300 and discharged to the outside through the through hole 211 and the socket of the connection part 200. You can proceed smoothly. In addition, when the hose 300 is injected into the elbow area such as a corner of the pipe and the hose 300 is not injected in the desired direction, a spring provided at the end of the hose 300 by pulling the wire 400 or the stainless steel wire. The nozzle 350 is preferentially curved, and the hose 300 enters along the input path of the spring nozzle 350. Thus, by operating the spring nozzle 350 using the wire 400 or stainless steel wire to assist the introduction of the hose 300, even if the rigidity of the hose 300 is lowered, the hose 300 is smoothly inserted into the pipe. can do.

At this time, the thawed sea water is discharged back to the outside of the pipe.

Finally, when all the frozen portions of the pipe are thawed, the hose 300 and the wire 400 or the stainless steel wire are pulled out of the pipe to remove the hose 300 inside the pipe to complete the thawing operation.

As described above, those skilled in the art will understand that the present invention can be implemented in other specific forms without changing the technical spirit or essential features. It is therefore to be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive. The scope of the present invention is shown by the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts should be construed as being included in the scope of the present invention.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention, and therefore, the present invention is limited only to the matters described in the drawings. It should not be interpreted.

1 is a perspective view showing a steam thawing system according to the present invention,

2 is a perspective view showing a connection portion, a hose and a spring nozzle of the steam thawing system according to the first embodiment of the present invention;

3 is an exploded perspective view showing a connection part, a hose and a spring nozzle of the steam thawing system according to the first embodiment of the present invention;

4 is an exploded perspective view showing a connection part, a hose and a spring nozzle of the steam thawing system according to the second embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: thawing system 100: sealed tank

110: water injection unit 120: power supply unit

130: steam outlet 200: connection portion

210: body portion 211: through groove

212: hose coupling 213: one-touch clamp

220: socket portion

221: outer socket 222: rubber packing

223: Soksocket 224: Washer

300: hose 350: spring nozzle

400: wire 410: peak

500: valve 550: pressure gauge

N: Nut

Claims (16)

In the steam thawing system 10 using a closed tank 100 having a heater for heating the fluid to generate steam, A connection part 200 connected to one side of the air outlet 130 of the closed tank 100; A hose 300 connected to the connection part 200 and serving as a passage for supplying the steam; And And a spring nozzle (350) provided at the end of the hose (300) to induce entry of the hose (300). The method of claim 1, The spring nozzle (350) is a steam thawing system, characterized in that the length before the tension is 30mm to 50mm. The method of claim 1, The connection part 200, A body portion 210 in which a hollow is formed for connecting the sealed tank 100 and the hose 300, and a through groove 211 penetrated through the hollow is formed at one side thereof; And And a socket portion 220 connected to the through groove 211. The method of claim 3, wherein A wire 400 or a stainless steel wire is further provided through the hose 300 from the end of the spring nozzle 350 and discharged into the through groove 211 provided in the body portion 210 of the connection part 200. Steam thawing system, characterized in that. The method of claim 4, wherein The thickness of the wire 400 or stainless steel wire is a steam thawing system, characterized in that the diameter of 0.5mm to 1.5mm. The method of claim 4, wherein Steam thawing system, characterized in that the tip of the spring nozzle 350 is further provided with a peak (410) for fixing the wire (400) or stainless steel wire. The method of claim 6, The peak (410) is a steam thawing system, characterized in that coupled to the end of the spring nozzle 350 by welding. The method of claim 3, wherein On one side of the steam outlet of the body portion 210 to facilitate the insertion of the hose 300 is characterized in that the hose coupling portion 212 protruding from the narrower than the thickness of the body portion 210 protruding from the opening Steam thawing system. The method of claim 8, A thread is further formed on one side of the outer circumferential surface of the hose coupling part 212, and a nut N for preventing the hose 300 connected to the hose coupling part 212 from being separated by the pressure of steam is formed on the screw thread. Steam thawing system, characterized in that it is further provided. The method of claim 3, wherein The steam thawing system, characterized in that the one-touch clamp 213 is provided to facilitate the insertion of the hose 300 on one side of the steam outlet of the body portion 210. The method of claim 3, wherein The socket portion 220, Outer socket 221 is coupled to the through groove 211 of the body portion 210; A rubber packing 222 inserted into the outer socket 221 to prevent the steam from being discharged to the outside; And And a sock socket (223) for preventing the rubber packing (222) from being released by the pressure of the steam. The method of claim 11, The upper and lower portions of the rubber packing (222), the steam thawing system further comprises a washer (224) for more smoothly preventing the discharge of the steam. The method of claim 1, One side between the closed tank 100 and the connection portion 200, the steam thawing system, characterized in that the valve 500 for controlling the flow rate of the steam is further provided. The method of claim 13, One side of the valve 500 is a steam thawing system, characterized in that further provided with a pressure gauge (550) for measuring the pressure of the steam introduced through the valve (500). The method of claim 1, The diameter of the hose 300 is a steam thawing system, characterized in that 5mm to 7mm. The method of claim 1, The length of the hose 300 is a steam thawing system, characterized in that 4m to 6m.

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