KR100944783B1 - Deodorizing apparatus the ability heat changing for reversing apparatus of sewage repair using boiler and method therewith - Google Patents

Abstract

PURPOSE: A deodorizing device capable of heat-exchanging of a boiler equipped in a reversing device for repairing a drain pipe is provided to rapidly cool steam discharged from a reversing tube, and preheat water supplied to a boiler. CONSTITUTION: A deodorizing device(200) capable of heat-exchanging of a boiler equipped in a reversing device for repairing a drain pipe comprises drawing pipes, a cooling pipe(220), a deodorizer(240), and an air tank(230). One ends of the drawing pipes are inserted into a reversing tube(130) reversed into a drain pipe, and the drawing pipes discharge steam injected into inside of the reversing tube to the outside. The cooling pipe is inserted into inside of a water supply tank(120) of the reversing device, and cools the steam. The deodorizer removes bad smell of the reversing tube remained in the cooled steam. The air tank collects the steam from the drawing pipes for supplying the steam to the cooling pipe.

Description

Deodorizing Apparatus the Ability Heat Changing for Reversing Apparatus of Sewage Repair using Boiler and Method Therewith}

The present invention relates to a deodorizing apparatus and a deodorizing method capable of heat exchange of a boiler provided in the inverting device for repairing sewage pipes, and more particularly, to rapidly cool steam discharged from the inverting tube by using a water tank of the boiler, The present invention relates to a deodorizing apparatus and a deodorizing method capable of heat-exchanging a boiler provided in an inverting device for repairing a sewage pipe that can preheat water supplied to a boiler by heat exchange with water of a feed tank.

In general, the field hardened pipe lining method using an inverted tube is used as one of the unexcavated pipeline repair method. This is a method of forming a new pipe by introducing a reinforcing tube into the pipe and curing it with steam heat when various industrial pipes such as water and sewage pipe, gas pipe, electric pipe, communication pipe, oil pipe or seawater pipe are old or damaged.

Conventional apparatus for using the field hardened pipe lining method includes a reversing apparatus in which a heat hose is wound, a conveying vehicle equipped with an air compressor, and a generator, and inverts the soft reinforcement tube on the outlet side of the reversing apparatus of the conveying vehicle. Mount the inverting device and install a certain distance from the inverting device to the manhole with an induction tube. Then, the reinforcement tube reversed through the reversal device is sent into the guide tube, and the air is introduced into the old tube to be repaired through the manhole. When the drawing operation is completed, the steam generated from the boiler is supplied into the heat hose and the induction tube, and the reinforcing tube is thermally cured on the inner side of the tube to complete the operation. In this case, the injected steam is supplied by heating water in a boiler for several hours, puncturing the tube to facilitate air flow in the tube, and inducing the curing of the tube through the circulation of the steam.

Conventionally, in the case of using a repair method using hardening of an inverted tube in a sewage pipe, a method of simply collecting steam injected into the inverted tube into a separate tank and discharging it into the atmosphere is used. However, at this time, the steam discharged into the atmosphere after being collected in the tank has a problem that the working environment is not comfortable because it gives off a odor such as a chemical smell at a high temperature of 60 ℃ to 70 ℃. In addition, there is a problem that causes the environmental pollution due to such a bad smell, the complaints of residents around the workplace. In addition, since the manhole cover is opened during the inversion operation of the inversion tube, the odor rises in the manhole, so there is a problem that the operation is not smooth.

In order to solve this problem, Korean Patent No. 801190, filed and filed by the present applicant, has a deodorization pipe for drawing hot air from the inverted tube, an air tank for collecting hot air in one place, and a deodorizer for removing odor of hot air collected in the air tank. Disclosed is a deodorization apparatus for repairing sewage pipes having a spiral steel pipe for removing malodor by using equipment and cooling hot air supplied to the deodorization equipment. However, only the spiral steel pipe is used to cool the hot air by air cooling, but the hot air is not cooled quickly, and is injected into the deodorizing equipment heated to a predetermined temperature, and the filter of the deodorizing device wears out quickly, and the consumption of the deodorant increases. There is this. In addition, in order to cool the hot air at room temperature using the spiral steel pipe, the volume of the spiral steel pipe is increased, thereby increasing the manufacturing cost and making it difficult to transport.

In addition, there is a problem in that the fuel consumption of the boiler is a lot as the boiler is operated for a long time to cure the inversion tube.

Therefore, the present invention was created to solve the above problems, the steam discharged from the inverted tube is rapidly cooled using the water tank of the boiler, the water supplied to the boiler by heat exchange with the water of the steam and feed water tank An object of the present invention is to provide a deodorizing apparatus and a deodorizing method capable of exchanging heat in a boiler provided in a reverse device for repairing a sewage pipe that can preheat.

Deodorizer of the present invention for achieving the object of the present invention as described above, by using the steam generated in the boiler for heating the water supplied from the water supply tank to invert the inverted tube to remove the odor generated when repairing the sewer pipe. A deodorization device provided in the inverting device for the sewer pipe repair, wherein one end is inserted into the inverting tube inverted into the sewer pipe to discharge steam injected into the inside of the inverting tube to the outside of the inverting tube, and curing the inverting tube on one side. At least one drawing pipe provided with an on / off valve for regulating temperature; An air tank for collecting the steam drawn out from the inversion tube through the drawing pipe; The condensate valve is formed in a spiral shape wound several times inside the water supply tank, and a condensate valve for discharging the condensed water condensed during cooling to the outside is installed, and the steam and the water supply drawn out from the inverting tube in the sewage pipe are connected to the drawing pipe. A cooling pipe that generates heat exchange between the water in the tank to cool the steam in the cooling pipe and preheat the water in the water supply tank; Deodorant to remove the odor of the steam discharged from the cooling pipe, deodorization equipment further provided with a corrugated pipe connected to the manhole to remove odor generated from the manhole; And a manhole cover having a size corresponding to the size of the manhole in order to prevent odor generated from the manhole from leaking to the outside at one end of the one contacting the manhole.

delete

delete

delete

delete

In addition, the deodorizing device, a dust filter for removing the dust contained in the steam in the inverting tube; A deodorant disposed at the rear of the dust filter to remove odors contained in steam; An activated carbon filter disposed behind the deodorant; And a blowing fan disposed at a rear exhaust port of the activated carbon filter to forcibly suck and discharge steam.

delete

delete

In another category, an object of the present invention is to insert a reverse tube into the maintenance pipe, the inverted tube curing step of curing the inverted tube by injecting a high-temperature steam generated by heating the water in the feed tank to the boiler inside the inverted tube ; A use steam discharge step of discharging steam used for curing the inversion tube through one or more withdrawal pipes inserted from a manhole on one side of the inversion tube; A steam collecting step of collecting the hot steam discharged from the withdrawal pipe into an air tank; Steam cooling step of cooling the steam by passing the steam discharged through the withdrawal pipe to the cooling pipe provided in the water supply tank to perform heat exchange between the steam and the water of the water supply tank; A cooling steam discharge step of sucking the cooled steam discharged through the cooling pipe and deodorizing it through a deodorizing equipment and discharging it to the atmosphere; And in the deodorizing method that the heat exchanger of the boiler provided in the inverter comprising a odor removing step of deodorizing with the steam by using the suction force generated in the blowing fan of the deodorizing equipment of the odor generated in the manhole. Can be achieved by

In addition, the steam cooling step further includes a condensate discharge step of discharging the condensate generated by the cooling of the steam to the outside of the cooling pipe.

delete

delete

In addition, the cooling steam discharge step is deodorizing using the suction force generated in the blowing fan.

According to the present invention there is an effect that the high-temperature steam discharged from the inversion tube can be quickly cooled through the water supply tank for supplying water to the boiler of the inverter. As a result, not only the odor but also the high-temperature steam is not added to the deodorizer, thereby reducing the damage of the filter and reducing the consumption of the deodorant. In addition, since the water bath cooling of the hot water bath is performed, the length of the cooling pipe can be shortened as compared with the conventional air cooling. This reduces the volume of the cooling pipe, there is a convenient effect of transport as the volume is reduced.

In addition, the high-temperature steam passes through the water supply tank to exchange heat with the water in the water supply tank, thereby increasing the temperature of the water to shorten the time for heating the water in the boiler and saving fuel. Therefore, there is an effect of increasing the thermal efficiency of the boiler used in the inverter.

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

<Configuration of Deodorizer>

1 is a connection state diagram showing a state connecting the deodorizing device and the reverse device according to the present invention. As shown in FIG. 1, the deodorizing apparatus 200 according to the present invention includes an inverting apparatus 100 having a boiler 110 including a water supply tank 120, a drawing pipe, a cooling pipe 220, and a deodorizing equipment. 240 and air tank 230.

Inverter 100 according to the present invention by using the manhole (2) to insert the inverted tube 130 into the repair target pipe (1) to invert using a high temperature steam to repair the pipeline 1, such as sewage pipe. Device. Since the inverter 100 uses high temperature steam, a boiler 110 for generating steam and a water supply tank 120 for supplying water to the boiler 110 are provided. The configuration of the inverting device 100 is used in the art as a general description thereof will be omitted.

2 is a connection state diagram showing a water supply tank into which a withdrawal pipe, an air tank and a cooling pipe are inserted for steam discharge and cooling of the steam according to the present invention. As shown in Figure 1 and 2, one end of the inversion tube 130, preferably the other end opposite to the one end of the steam supply from the inverter 100 is inserted into the inversion tube 130 One or more withdrawal pipes are inserted for withdrawing steam. Such withdrawal pipe may be a circular pipe having one end of which is inserted into the inversion tube 130 in order to facilitate insertion into the inversion tube 130. In addition, since the drawing pipe is used as a passage through which hot steam is discharged, any material may be used as long as it is made of a material resistant to heat. However, preferably aluminum or stainless steel, which is heat resistant and light, is used. In addition, one side of the withdrawal pipe may further include an on / off valve 211 to control the curing temperature of the inversion tube 130 by adjusting the discharge and discharge rate of the steam.

When the air tank 230 according to an embodiment of the present invention uses two or more withdrawal pipes, an apparatus for collecting the vapors drawn from the plurality of withdrawal pipes to smoothly supply the steam to the cooling pipes 220. to be. The air tank 230 may be formed in any shape as long as it is a sealed container so that steam is not discharged to the outside. In addition, since the material of the air tank 230 is a place where hot steam is inserted and stored for a predetermined time, a material resistant to heat is used. The material of the air tank 230 is a heat resistant and light aluminum or stainless steel material. The air tank 230 may not be used when only one drawing pipe is used.

The cooling pipe 220 according to the present invention has one end connected to one side of the air tank 230, the one side is inserted into the inside of the water supply tank 120 provided in the inverter 100, the steam flowing therein It is a device for cooling. The cooling pipe 220 is inserted into the water supply tank 120 to cool the steam in a water-cooled manner in a bath. At this time, the cooling pipe 220 increases the time to stay in the water supply tank 120, so that one side of the cooling pipe 220 inserted into the water supply tank 120 is wound several times in a coil form in order to smoothly cool the steam. It can be formed in a spiral shape. In addition, one side of the cooling pipe 220 may be formed to protrude the cooling fins to increase the contact area to improve heat exchange. The material of the cooling pipe 220 is good thermal conductivity, it is preferable to use an aluminum or stainless material that does not easily oxidize in contact with water. In addition, one side of the cooling pipe 220 is further provided with a condensate valve 221 for discharging the condensate generated by the cooling of the high-temperature steam to the outside of the cooling pipe 220. By discharging the condensate inside the cooling pipe 220 through the condensate valve 221, it is possible to smoothly maintain the flow of steam. And the connection of the cooling pipe 220 and the water supply tank 120 is quickly and easily coupled, and coupled using a quick snap coupling to improve the water tightness.

3 is a cross-sectional view showing the configuration of the deodorizing equipment according to the present invention. As shown in FIG. 3, the deodorization equipment 240 according to the present invention is connected to the cooling pipe 220 to remove odors such as chemical smells, such as adhesive odors of the inverted tube 130 remaining in the cooled steam. Device. The deodorizing equipment 240 is made of a similar configuration to the deodorizing equipment 240 disclosed in the Republic of Korea Patent No. 801190, the applicant filed and registered. However, it will be explained once again for a better understanding. Deodorizing equipment 240 according to the present invention, as shown in Figure 3, the wheel 246 is provided on the lower side to improve mobility. And the inside of the deodorizing equipment 240 is composed of a dust filter 241, deodorant 242, activated carbon filter 243 and blowing fan 244. Here, the dust filter 241 is provided on one side connected to the cooling pipe 220 is a device for removing dust, such as dust contained in the cooled steam inserted through the cooling pipe 220.

Deodorant 242 according to the present invention is to remove the odor after removing the dust through the dust filter 241, as long as the material for removing the odor may be used. However, in the present invention, impregnated activated carbon is used.

Activated carbon filter 243 according to the present invention is a device for removing the odor after removing the odor primarily through the deodorant 242, it is disposed behind the deodorant 242.

Blowing fan 244 according to the present invention is provided on one side close to the exhaust port of the deodorization equipment 240 to suck the steam into the deodorization equipment 240, and to remove the odor from the sucked steam and to discharge to the atmosphere and It is a device for providing discharge power. The blowing fan 244 is composed of a blowing fan 244 and a fan motor 245 for driving the blowing fan 244 provided on one side close to the exhaust port of the deodorization equipment 240.

Figure 4 is a perspective view showing the connection between the deodorizing equipment and the manhole according to the invention. In the case of repairing the sewage pipe, the operation of the manhole (2) is opened for a long time, so in addition to the odor such as chemical odor generated inside the inversion tube 130, the odor is generated from the sewage pipe and discharged to the outside. In order to remove the odor generated in such a sewer pipe, as shown in Figure 4, the upper surface of the manhole (2) is further provided with a corrugated pipe 250 connecting the deodorization equipment 240. At this time, one side of the corrugated pipe 250 in contact with the manhole (2) is made of a size corresponding to the size of the manhole (2), is provided with a manhole cover 251 that can cover the open manhole (2) of the sewer Prevents odors from coming out. The material of the manhole cover 251 and the corrugated pipe 250 is made of an aluminum material having high heat resistance because hot steam does not directly pass, but hot steam passes to one side of the lower portion and the surrounding one side.

<Deodorization method>

Figure 5 is a flow chart showing a deodorizing method for removing the odor by using the deodorizing device according to the present invention, the reverse tube curing step (S100), used steam discharge step (S200), steam cooling step (S300), and cooling steam It includes a discharge step (S400).
First, in the inversion tube curing step (S100), before the deodorizing operation is inserted into the inverted tube 130 into the maintenance target pipe (1), which is generated by heating the water in the water supply tank 120 to the boiler 110 A high temperature steam is injected into the inversion tube 130 to perform a pretreatment step of curing the inversion tube 130.

Next, in the use steam discharge step (S200), by inserting one or more withdrawal pipes 210 from the manhole 2 in one side of the inversion tube 130, the inside of the inversion tube 130 for curing of the inversion tube 130 The steam injected into is discharged to the outside of the inversion tube (130). In this case, when using two or more of the plurality of withdrawal pipes 210, since it is not easy to insert steam into the cooling pipe 220, which is a subsequent process, through the plurality of withdrawal pipes 210 in the discharge steam collection step S210. The discharged steam is collected in the air tank 230. At this time, by adjusting the opening and closing valve 211 provided on one side of the withdrawal pipe 210 to adjust the amount of steam discharged through the withdrawal pipe 210 can adjust the curing temperature of the inversion tube (130).

Next, in the steam cooling step (S300), the steam directly discharged from the withdrawal pipe 210 or collected in the air tank 230 is a cooling pipe inserted into the water supply tank 120 provided in the boiler 110. While passing through the roll, the odor is first removed. At this time, the cooling pipe 220 inserted into the water supply tank 120 is wound around the cooling pipe 220 several times in a spiral shape to increase the time that steam remains in the water supply tank 120 is formed like a coil. The cooling effect can be increased. At this time, the high temperature steam in the cooling pipe 220 and the water at room temperature in the water supply tank 120 are heat-exchanged with each other, the steam is cooled, and the temperature of the water is increased to increase the heating effect of the boiler 110 and fuel. Can be saved. As an example, when the temperature of the steam is 80 ℃ to 85 ℃, the temperature of the water in the water supply tank 120 is 18 ℃ there is an effect that the steam can continuously penetrate and heat the water temperature to 50 ℃ to 60 ℃. For this reason, the heating effect of 32 degreeC-42 degreeC can be acquired. In general, when the water temperature rises by 6 ° C. in the boiler-related industry, it is possible to reduce the oil cost required to operate the boiler 110 by about 5% to 7%.

In this way, the steam is cooled by heat exchange to condense the steam and condensate is generated. When such condensate is generated, since the steam does not pass smoothly to the inside of the cooling pipe 220, the condensate valve 221 provided at one side of the cooling pipe 220 is used in the condensate discharge step S310. To discharge the condensate out of the cooling pipe 220. By discharging the condensate in this way it is possible to reduce the inflow of moisture to the deodorization equipment 240 is a subsequent process to extend the life of the deodorant 242 and filter and increase the odor removal efficiency.

Next, in the cooling steam discharge step (S400) passes through the cooling pipe 220 and sucks the cooled steam is deodorized through the deodorization equipment 240 and discharged to the atmosphere. The steam cooled by passing through the cooling pipe 220 passes through the dust filter 241 provided in the deodorizing equipment 240 and removes dust such as dust. Next, while passing through the deodorant 242 and the activated carbon filter 243 in order to remove the odor such as adhesive odor of the inverting tube 130 in a second, it is discharged to the atmosphere through the blowing fan 244. At this time, the blower fan 244 not only discharges the steam from which the odor has been removed, but also serves to suck the steam inserted into the inversion tube 130.

In addition, because the operation is performed after opening the lid of the manhole (2) in the odor removal step (S410), the odor, such as sewage odor generated in the manhole (2) itself also manhole cover 251, the upper part of the manhole (2) To close and remove together by connecting to the deodorizing equipment 240 through the corrugated pipe (250).

In this way, by finishing the deodorizing operation to remove the odor generated during the reversal operation and the odor generated in the manhole (2) itself, the working environment becomes comfortable, it is possible to prevent air pollution.

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. Therefore, the above-described embodiments are to be understood 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. It should not be interpreted.

1 is a connection state diagram showing a state connecting the deodorizing device and the reverse device according to the present invention,

2 is a connection state diagram showing a water supply tank into which a withdrawal pipe, an air tank, and a cooling pipe are inserted for steam discharge and cooling of the steam according to the present invention;

Figure 3 is a cross-sectional view showing the configuration of the deodorizing equipment according to the present invention,

Figure 4 is a perspective view showing the connection between the deodorizing equipment and the manhole according to the invention,

5 is a flowchart illustrating a deodorizing method for removing odors by using the deodorizing apparatus according to the present invention.

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

1: pipeline 2: manhole

100: inverting device 110: boiler

120: water supply tank 130: inverted tube

200: deodorizer 210: drawing pipe

211: on-off valve 220: cooling pipe

221: condensate valve 230: air tank

240: deodorization equipment 241: dust filter

242: deodorant 243: activated carbon filter

244: blowing fan 245: fan motor

246 wheel 250 corrugated pipe

251 manhole cover

Claims (14)

It is provided in the inverting device for repairing the sewage pipe for removing the odor generated when repairing the sewer pipe by inverting the inverting tube 130 by using the steam generated in the boiler 110 for heating the water supplied from the water supply tank 120 As a deodorizer, One end is inserted into the inverting tube inverted into the sewage pipe to discharge the steam injected into the inverting tube to the outside of the inverting tube, and an opening / closing valve 211 is installed at one side to adjust the curing temperature of the inverting tube. One or more withdrawal pipes 210; An air tank 230 for collecting steam drawn out from the inversion tube through the withdrawal pipe; The condensate valve 221 is formed and installed in a spiral shape wound several times inside the feed water tank and discharges condensed water condensed during cooling to the outside on one side, and is connected to the drawing pipe and drawn out from the inverting tube in the sewage pipe. Cooling pipe 220 for generating a heat exchange between the water in the water supply tank to cool the steam in the cooling pipe and at the same time preheat the water in the water supply tank; Deodorizer 242 includes a deodorant 242 for removing the odor of the steam discharged from the cooling pipe, deodorization equipment 240 is further provided with a corrugated pipe 250 connected to the manhole to remove odor generated from the manhole (2); And The manhole cover 251 of the size corresponding to the size of the manhole in order to prevent the odor generated from the manhole to leak to the outside at one end in contact with the manhole is provided in the inverting device for maintenance Deodorizer for heat exchange of boiler. delete delete delete delete delete The method of claim 1, The deodorizing equipment 240, A dust filter 241 for removing dust contained in steam in the inversion tube 130; A deodorant 242 disposed at the rear of the dust filter 241 to remove odors contained in steam; An activated carbon filter 243 disposed behind the deodorant 242; And Deodorizing apparatus for heat exchange of the boiler provided in the inverting device for sewer pipes, characterized in that it comprises a blowing fan (244) disposed in the rear exhaust port of the activated carbon filter (243) forcibly suctioning and discharging steam. delete delete Inverting the inverted tube 130 by inserting the inverted tube 130 into the maintenance target pipe 1 by injecting high-temperature steam generated by heating the water in the water supply tank 120 to the boiler 110 into the inverted tube. Tube curing step (S100); Use steam discharge step (S200) for discharging the steam used to cure the inversion tube through one or more withdrawal pipe 210 inserted from the manhole (2) on one side of the inversion tube; Steam collection step (S210) for collecting the high-temperature steam discharged from the withdrawal pipe to the air tank 230; Steam cooling step (S300) for cooling the steam by passing the steam discharged through the withdrawal pipe to the cooling pipe 220 provided in the water supply tank to perform a heat exchange between the steam and the water of the water supply tank (S300). ; Cooling steam discharge step (S400) for sucking the cooled steam discharged through the cooling pipe to be deodorized through the deodorization equipment 240 and discharged to the atmosphere; And The odor removal step (S410) of the boiler provided in the inverter, characterized in that the odor generated in the inside of the manhole using the suction force generated in the blowing fan 244 of the deodorizing equipment to deodorize with steam (S410) Deodorization method that can exchange heat. delete The method of claim 10, The steam cooling step is a deodorizing method for heat exchange of the boiler provided in the inverter further comprises a condensate discharge step (S310) for discharging the condensate generated by the steam cooling to the outside of the cooling pipe. delete delete

Images