KR102292870B1 - Deodorizing device and method for repairing all pipe by non-excavated - Google Patents

Abstract

The present invention relates to an odor removal device for repairing the entire conduit of a non-excavating-type, which can increase the odor removal efficiency, and to a method thereof. The odor removal device of the present invention comprises: a withdrawal pipe for discharging steam to the outside; a first housing connected in communication with the withdrawal pipe; a second housing having outer and inner pipe bodies; a deodorization filtering unit for removing odor and dust contained in the steam; and a suction fan for forcibly inducting the steam of a second space.

Description

Deodorizing device and method for repairing all pipe by non-excavated}

The present invention relates to an apparatus and method for removing odors while repairing the entire pipeline in a non-excavating manner, and more particularly, to a dry state of a filter member and a deodorizing member by using a heat source of steam, which is an object for removing odors discharged from a reinforcing tube. The present invention relates to an apparatus and method for removing odors for maintenance of an entire non-excavated pipeline, which can be kept constant and safely discharged to the outside by heat exchange with a filter member and a deodorizing member.

In general, as one of the non-excavation pipe repair methods, the in-situ hardening pipe lining method using a reverse tube is used. This is a method of repairing by introducing a reinforcing tube into the pipe when various industrial pipes such as water and sewage pipes, gas pipes, electrical pipes, communication pipes, oil pipes or seawater pipes are old or damaged, and hardened with high-temperature steam heat.

The conventional device for using the in-situ hardening pipe lining method is to prepare a transport vehicle equipped with a reversing device with a heat hose wound, an air compressor and a generator, and inverting a soft reinforcing tube on the outlet side of the reversing device of the transport vehicle. Install the reversing device, and connect and install a certain section from the reversing device to the manhole with an induction tube.

After sending the inverted reinforcing tube into the induction tube through the reversing device, it passes through the manhole and enters the old tube to be repaired using air pressure. This completes the work by thermally curing the reinforcing tube impregnated with the thermosetting resin in close contact with the inner surface of the pipe to be repaired.

At this time, the injected high-temperature steam is supplied by heating water in a boiler for several hours, a hole is made on one side of the reinforcing tube to smooth the air flow in the reinforcing tube, and the hardening of the reinforcing tube is induced through the circulation of steam.

Conventionally, in the case of using a repair method using hardening of the reinforcing tube in a sewage pipe, a method of simply collecting the vapor injected into the reinforcing tube in a separate tank and discharging it to the atmosphere was used.

However, at this time, the steam discharged to the atmosphere after being collected in the tank emits a bad odor such as a chemical smell at a high temperature of 60°C to 70°C, which makes the working environment not comfortable, and causes air pollution due to this odor, There was a problem in that complaints from the surrounding residents occurred.

And since the manhole cover is opened during the reversal of the reversing tube, the stench comes up from the manhole, and the operation is not smooth.

(Patent Document 1) KR10-0801190 B1

(Patent Document 2) KR10-1252051 B1

(Patent Document 3) KR10-2057090 B1

In Patent Document 1, the odor is removed by using a withdrawal pipe that draws out hot air from the reversing tube, an air tank that collects the hot air in one place, and a deodorization device that removes the odor of the hot air collected in the air tank, and the hot air supplied to the deodorizing equipment is removed. Disclosed is a deodorizing device for sewage pipe repair having a spiral steel pipe for cooling, and Patent Document 2 includes a first cylindrical deodorizing member connected to each end of the lead pipe, and each of the first cylindrical deodorizing members is a hot hole in the reversing tube Disclosed is a cylindrical deodorizing device provided in a reverse device for repairing a sewage pipe comprising a dust filter for removing the dust contained in the unit, a deodorant disposed behind the dust filter to remove odors contained in hot air, and a filter layer disposed behind the deodorant, have.

In addition, in Patent Document 3, a first space for discharging a withdrawal pipe for discharging the steam filled in the inside of the reinforcing tube to the outside, and a first space filled with steam and a second space filled with heat-exchanged steam are divided by an inner partition wall. The housing, the first space and the inlet end are connected to each other, and the second space and the outlet end are connected to each other, the second housing having an external tube for internally arranging a heat exchange pipe to transmit the heat source of the steam to the inside; Removal by evaporating and removing moisture remaining in the deodorizing member and the filter member by the heat source of the steam transferred from the heat exchange pipe, including a deodorizing filtration unit that removes odors and dust and a suction fan for forcibly sucking the steam in the second space. Disclosed is an odor removal device for repairing an entire non-excavating pipeline.

However, in the deodorization equipment provided in Patent Documents 1 and 2, the steam, which is hot air supplied to the inside of the reinforcing tube during thermal curing and then exhausted to the outside, passes through a filter member such as a dust filter and a deodorizing member for accommodating the deodorant while passing through the deodorizing device. In the process of removing dust and odor, moisture contained in a large amount in steam is impregnated in the deodorant in the filter member, thereby reducing the filter efficiency of the filter member and lowering the deodorization efficiency of the deodorant while using the filter member and the deodorizing member The replacement cycle was shortened by shortening the lifespan, which acted as a factor in increasing the facility maintenance cost.

In Patent Document 3, in a state in which the outer surface of the reinforcing tube, which enters the open side of the tube attachment part, is in surface contact with the upper plate and converted into a planar shape, the operator cuts the pointed end of the lead pipe through the upper through hole of the upper plate in the vertical direction In the process of connecting the end of the draw-out pipe to the reinforcing tube by forcibly inserting it with a This is very cumbersome and there is a problem that aggravates the work load.

In addition, the installation work of the field worker blocking the entrance of the pit by combining the pipe fixing plate with the withdrawal pipe assembled at the exact center of the cover plate provided at the open entrance of the pit, and the operation of separating and releasing from the pit after use is very cumbersome and difficult to install And the disassembly work took too much time, which acted as a major cause of lowering work productivity.

In addition, in the process of exchanging heat with the deodorant using the steam passing through the heat exchange pipe, the flow of steam through the heat exchange pipe is not smooth and heat transfer is not smoothly performed, so that the moisture contained in the deodorant is completely removed. It was not only difficult, but also acted as a factor to increase the maintenance cost in the process of replacing the entire parts in case of partial damage to the heat exchange pipe wound in the coil shape.

Accordingly, the present invention is to solve the above-mentioned problems, and the object thereof is to have interior materials such as a filter member for removing dust and a deodorizing member for removing odors, and steam discharged from the inside of the reinforcing tube after thermosetting to the outside. An object of the present invention is to provide an odor removal device and method for repairing the entire non-excavated pipeline that can increase the efficiency of heat exchange with the filter member and stably maintain the dry state of the filter member and the deodorization member, thereby increasing the dust and odor removal efficiency.

In addition, another object of the present invention is to use a bladder that is expanded in volume by steam discharged after being forcibly injected into the inside of the reinforcing tube during thermosetting, and closed at the open inlet of the pit while the end is inserted through the reinforcing tube. An object of the present invention is to provide a odor removal device for the entire repair of a non-excavated pipeline that can easily perform the work of fixing the position of the pipe.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned will be clearly understood by those of ordinary skill in the art to which the present invention belongs from the following description. will be able

As a specific means for achieving the above object, in a preferred embodiment of the present invention, high-temperature steam is forcibly injected into the reinforcing tube impregnated with a thermosetting resin, followed by thermosetting while adhering the reinforcing tube to the inner surface of the conduit. , In the device for removing the bad smell contained in the steam discharged to the outside from the inside of the reinforcing tube, an inlet closing part for closing the inlet of the pit exposing the end of the reinforcing tube to the outside is provided in the middle of the length, the reinforcing tube A pull-out pipe for discharging the vapor filled in the inside of the reinforcing tube to the outside by having a close-fitting plate in close contact with the outer surface of the end and the end exposed for a certain length through the through hole of the reinforcing tube is inserted into the inside of the reinforcing tube ; A first space in communication with the withdrawal pipe and filled with steam discharged from the extraction pipe and a second space filled with heat-exchanged steam are divided by an internal partition wall, and a second space is formed on an upper surface corresponding to the second space. a first housing through which one opening is formed; A second opening is formed through a bottom surface corresponding to the first opening, and third and fourth connection slits are formed in a bottom surface corresponding to the first and second connection slits formed on an upper surface of the first housing to form the second opening. 1 Equipped with an outer tube assembled on the upper part of the housing, having an inner hole communicating with the second opening, having an inner tube disposed inside the outer tube, forming a gap between the outer tube and the inner tube a second housing having a plurality of vertical bulkheads forming a heat exchange passage through which steam proceeds in one direction to transmit the heat source of steam to the inside; a deodorizing filter unit for removing odors and dust contained in the steam by sequentially arranging a deodorizing member filled with a predetermined amount of a deodorizing agent in the inner space of the second housing and a filter member having a filter material in communication with the second opening; and a suction fan having a rotary blade driven to rotate when power is applied to the open upper portion of the second housing and forcibly sucking the steam in the second space to discharge the steam passing through the deodorizing member and the filter member to the outside; Including, in the heat exchange flow path formed between the outer tube body and the inner tube body, the moisture remaining in the deodorizing member and the filter member is evaporated and removed by the heat source of steam. An odor removal device is provided.

At this time, the inlet closure part is provided between upper and lower support plates respectively installed at regular intervals up and down in the middle of the length of the lead-out pipe, and the upper and lower support plates are discharged through at least one outlet hole formed through the lead-out pipe. It may include a bladder that is tightly fixed to the inner surface of the pit while the volume is expanded by the high-temperature steam.

At this time, the contact plate includes a curved plate material having an arc-shaped cross-section in which the inner surface is in contact with the outer surface of the reinforcing tube, and a vertical guide tube having a lower end fixedly coupled to the outer surface of the contact plate penetrating the through hole. It is disposed inside the vertical guide tube so that the upper end is in contact with the vertical guide tube and the lower end and the stopping protrusion of the extraction pipe are in contact with the vertical guide tube to press the extraction pipe directly downward toward the reinforcing tube when it is deformed. It may include at least one elastic body that generates an elastic restoring force.

In addition, the female screw portion formed on the inner surface of the lower end of the vertical guide tube may be screwed with the male screw portion of the coupling tube fixedly installed on the outer surface of the contact plate penetrating the through hole.

At this time, at the upper end of the withdrawal pipe, a primary control valve that maintains a closed state until the bladder, which is volume-expanded by the steam filled in the bladder, comes into contact with the inner surface of the pit, and the outer surface of the bladder The opening is operated in conjunction with the opening signal of the primary control valve to discharge a part of the steam from the withdrawal pipe in a state in which the open inlet of the pit is closed by maintaining a constant contact pressure with the inner surface of the pit, and the opening and closing size It may include a secondary control valve for controlling the.

At this time, the plurality of vertical partition walls are formed with first and third connecting slits communicating with the first space and second and fourth connecting slits communicating with the second space when the first and second housings are vertically coupled. and first and second vertical bulkheads forming a partition space to be separated from each other, and steam supplied to any one of the first and second vertical bulkheads through first and third connecting slits communicating with the first space A plurality of connection holes may be formed through the second and fourth connection slits communicating with the second space to form a series of heat exchange passages for discharging to the first housing.

At this time, in one space corresponding to the space between the inner tube body and the outer tube body communicating with the first and third connection slits, a plurality of first heat exchange with the steam supplied from the first space to transfer heat to the inner tube body A plurality of auxiliary bulkheads are provided, and the second space between the inner tube body and the outer tube body communicating with the second and fourth connection slits is subjected to secondary heat exchange with the first heat exchanged steam to transfer heat to the inner tube body. It may be provided with two second auxiliary bulkheads.

In another embodiment of the present invention, high-temperature steam is forcibly injected into the inside of the reinforcing tube impregnated with a thermosetting resin and heat-cured while the reinforcing tube is in close contact with the inner surface of the conduit, and then discharged from the inside of the reinforcing tube to the outside In the method of removing the odor contained in the steam, the steam filled in the inside of the reinforcing tube is discharged through the lead pipe whose end is inserted through the through hole of the contact plate that is in close contact with the outer surface of the reinforcing tube that is expanded in volume. step to ; The steam discharged from the withdrawal pipe and filled in the first space of the first housing is supplied to form a heat exchange passage between the outer tube body and the inner tube body of the second housing stacked on the first housing to form a heat exchange passage. exchanging heat with the deodorizing filtration unit to evaporate and remove moisture remaining in the deodorizing filtration unit disposed inside the inner tube by a heat source of steam; After being cooled by heat exchange with the deodorizing filter unit, the steam discharged from the heat exchange passage and filled in the second space of the first housing is forcibly sucked by a suction fan operated when power is applied, thereby passing through the deodorizing filter unit upward, odor and dust. discharging the removed steam to the outside; It provides a odor removal method for the entire repair of non-excavating pipelines, characterized in that it comprises a.

According to the preferred embodiment of the present invention as described above, there are the following effects.

By drying to remove moisture remaining in the deodorizing member and filter member that removes odor and dust contained in steam using the heat source of steam forced into the inside of the reinforcing tube during thermal curing, the filter member and the deodorizing member are always dried consistently Because it can be managed and maintained to maintain the state, it is possible to prevent the deterioration of deodorization efficiency and filtration efficiency due to moisture remaining in the filter member and deodorization member, and to reduce the maintenance cost by extending the service life of the deodorizing member and the filter member. can

1 is an overall configuration diagram showing a non-excavating type odor removal device for overall repair of a pipeline according to an embodiment of the present invention.
Figure 2 is an enlarged configuration diagram showing the odor removal device for the entire repair of a non-excavating type pipeline according to an embodiment of the present invention.
3A, 3B, and 3C are perspective, cross-sectional perspective and cross-sectional views illustrating a draw-out pipe and an inlet closing part applied to the non-excavating type odor removal apparatus for repairing the entire pipeline according to an embodiment of the present invention.
4A and 4B are process diagrams of through-connecting the lead-out pipe to the reinforcing tube in the non-excavating type odor removal device for the entire repair of the pipeline according to an embodiment of the present invention.
5A and 5B are perspective views in which the first housing and the second housing applied to the non-excavating type odor removal apparatus for overall repair of the pipeline according to an embodiment of the present invention are combined with each other.
6 is a perspective view in which a first housing and a second housing applied to a non-excavating type odor removal apparatus for repairing an entire pipeline according to an embodiment of the present invention are separated.
7 is a configuration diagram illustrating a first housing applied to the odor removal device for repairing the entire non-excavating pipeline according to an embodiment of the present invention.
8 is an exploded perspective view illustrating a deodorizing filter unit, a second housing, and a suction fan applied to the odor removal device for repairing the entire non-excavating pipeline according to an embodiment of the present invention.
9 is a cross-sectional view showing the second housing applied to the odor removal device for the entire repair of a non-excavating type pipeline according to an embodiment of the present invention.
10 is a block diagram showing the state of inflow, heat exchange, and exhaust of steam in the odor removal device for repairing the entire non-excavating pipeline according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment in which a person of ordinary skill in the art to which the present invention pertains can easily practice the present invention will be described in detail. However, in the detailed description of the structural principle of a preferred embodiment of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' with another part, it is not only 'directly connected' but also 'indirectly connected' with another element interposed therebetween. include In addition, 'including' a certain component does not exclude other components unless otherwise stated, but means that other components may be further included.

As shown in Figs. 1 to 10, the non-excavating type odor removal device 100 for the entire pipe line repair according to an embodiment of the present invention reverses the reinforcing tube 1 impregnated with a thermosetting resin, so that the conduit ( 2) In the process of thermally curing the expanded reinforcing tube (1) on the inner surface of the conduit by forcibly injecting high-temperature steam into the inside of the reinforcing tube (1) in the state of entering the When the steam filled in the expanded reinforcing tube (1) is discharged to the outside, the withdrawal pipe (10), the first housing (20), the second housing (30), and deodorization can be removed to remove the odor contained in the discharged steam. It includes a filtration unit 40 and a suction fan 50 .

As shown in FIGS. 1, 2, and 3A, 3B, and 3C, the lead pipe 10 is made of a hollow pipe material of a certain length with a pointed end, which is the lower end, so that the end of the conduit 2 is cut. The end is inserted through the reinforcing tube 1 through which one end is exposed, and during thermal curing, the high-temperature steam filled by forcibly injected into the reinforcing tube 1 is discharged to the outside.

This withdrawal pipe 10 has an inlet closure part 12 that is expanded in volume by the fluid flowing inside in the middle of the length and contracted in volume when the fluid is discharged to the outside, so that the end of the reinforcing tube is exposed to the outside toward the conduit side. It is to selectively close the open inlet of the pit (P) which is recessed approximately vertically.

In addition, the end of the lead pipe 10 corresponding to the reinforcing tube 1 is provided with a contact plate 14 that is in close contact with the outer surface of the reinforcing tube 1 that is expanded in volume by the forced inflow of high-temperature steam. The pointed end of the outgoing pipe 10 exposed through the through hole 14a formed through the contact plate 14 is inserted into the inside of the reinforcing tube and communicated with the high temperature that was filled in the inside of the reinforcing tube. of the vapor can be discharged to the outside.

Here, the steam discharged through the withdrawal pipe 10 is primarily supplied to the inlet closing part 12 so as to selectively close the inlet of the pit P, and is supplied as a volume expansion source of the bladder 12c. Alternatively, the first and second housings 20 and 30 may be sequentially supplied secondarily to be supplied as a heat source for drying the deodorizing and filtering unit 40 .

The inlet closing part 12 includes upper and lower support plates 12a and 12b that are respectively fixedly installed at regular intervals up and down in the middle of the length of the outgoing pipe 10, and a part of the body is in contact with the upper and lower support plates. The bladder is an expansion member that is fixed and is fixed in close contact with the inner surface of the open inlet of the pit while the volume is expanded by the high-temperature steam that is discharged and supplied through at least one discharge hole 12d formed through the middle of the length of the withdrawal pipe. (12c) may be included.

The upper and lower support plates 12a and 12b are respectively fixed in positions in the middle of the length of the lead pipe, and may be formed of a substantially disk-shaped fixed plate body having an outer diameter smaller than the inner diameter of the pit.

The bladder 12c has a portion of the upper body in contact with the lower surface of the upper support plate 12a and is fixed by adhesion, and a portion of the lower body is in contact with the upper surface of the lower support plate 12b and is fixed by adhesion, and the discharge hole 12d. It may be made of a thin sheet member of a rubber material that is expanded in volume so that the outer diameter is expanded by the high-temperature steam discharged through the .

In addition, the contact plate 14 may be made of a curved plate material having an arc-shaped cross-section so that the inner surface is evenly contacted and supported on the outer surface of the reinforcement tube 1, which is expanded in volume by the high-temperature steam that is forcibly supplied to the inside of the reinforcement tube. have.

The contact plate 14 includes a vertical guide tube 15 of a certain length whose lower end is fixedly coupled to the outer surface that penetrates the through hole 14a, and the upper end is in contact with the vertical guide tube elastically, It may include at least one elastic body 16 such as a coil spring disposed inside the vertical guide tube so that the lower end is in elastic contact with the locking jaw 16a protruding from the outer surface of the lead pipe 10. .

The sharp end of the outgoing pipe exposed through the through hole of the close contact plate 14 is in contact with the volume-expanded reinforcing tube, and in a state where the contacting plate 14 is in contact with the reinforcing tube, the drawing pipe is in contact with the reinforcing tube by external force. When descending directly to the lower portion, the elastic body 16 may generate an elastic restoring force while shrinking and deforming.

At this time, the pointed end of the lead pipe penetrates the outer surface of the reinforcement tube while continuously pressing the withdrawal pipe directly downward toward the reinforcement tube by the elastic restoring force of the contracted elastic body 16 .

The sharp end of the lead pipe 10 is penetrated when the lower surface of the contact plate 14 and the outer surface of the reinforcing tube 1 are in close contact with each other. While preventing the steam from leaking through the penetration part, the penetration operation can be performed more smoothly by fixing and supporting the outer surface of the reinforcing tube during penetration.

Here, the female screw portion formed on the inner surface of the lower end of the vertical guide tube 15 is screwed with the male screw portion of the coupling tube 13 fixedly installed on the outer surface of the close contact plate 14 penetrating the through hole, thereby coiling the coil. Variable the initial strength of the elastic restoring force of the elastic body, which is contracted and deformed by widening or increasing the interval between the upper engaging position at which the upper end of the elastic body 16 is in contact with the lower end of the elastic body and the lower engaging position at which the lower end of the elastic body is in contact with the spring. can do it

In addition, the operator vertically fixes and installs the vertical guide tube on the outer surface of the contact plate 14 by assembling and separating the coupling tube 13 and the vertical guide tube 15 by screwing in the inside of the pit. Alternatively, the operation of disassembling and separating the vertical guide tube from the adhesion plate can be performed more conveniently.

At the upper end of the withdrawal pipe 10 connected to the hose member 19, a bladder 12c, which is discharged through the discharge hole of the extraction pipe 10 and expands in volume by the steam filled therein, is a pit (P). Equipped with a primary control valve (17a) that maintains a closed state until it comes into contact with the inner surface of the In one state, a secondary control valve (17b) that opens and operates in conjunction with the opening signal of the primary control valve to discharge a portion of the steam filled inside the reinforcing tube from the withdrawal pipe (10) to the outside and adjusts the opening/closing size. may include

At this time, the primary control valve (17a) is provided as an on-off valve member for opening or closing the flow path of the withdrawal pipe, and the secondary control valve (17b) is the outer surface of the volume-expanded bladder and the inside of the pit. It may be provided as a control valve member for adjusting the flow path opening size of the withdrawal pipe so as to control the external discharge amount of steam while maintaining a state in close contact with the surface, while the upper support plate 12a has a volume-expanded bladder A pressure gauge may be provided to measure and confirm the internal pressure.

In addition, the lead pipe 10 is connected to the first space S1 divided in the first housing 20 and the hose member 19 as a medium to communicate, thereby expanding the volume of the reinforcing tube and thermal curing. Steam, which is high-temperature hot air forcibly injected into the reinforcing tube 1, is first supplied for volume expansion of the bladder, and then is controlled and discharged through the withdrawal pipe while maintaining the volume expansion of the bladder A part of the steam is drawn out toward the first space (S1) and supplied to be discharged.

Accordingly, as shown in FIGS. 4A and 4B, it enters the inside of the pit so as to contact the end of the lead pipe having an inlet closure part to the reinforcing tube exposed to the outside through the pit and expanded in volume by high-temperature steam. make it

In this state, when the pull-out pipe is pressed directly below until the contact plate comes into contact with the outer surface of the reinforcing tube that expands in volume, the elastic body provided in the vertical guide tube contracts and generates an elastic restoring force directly below the elastic body. The sharp end of the lead-out pipe is gradually penetrated and inserted into the outer surface of the reinforcing tube in contact with the contact plate by the elastic restoring force, which is an external force provided in the , whereby the lead-out pipe is connected to the inner space of the reinforcing tube.

And, the steam discharged through the open pointed end of the withdrawal pipe 10 inserted through the inside of the reinforcing tube 1 is discharged through the discharge hole 12d corresponding to the inlet closing part, and is discharged and not filled. The bladder provided between the upper and lower support plates expands in volume in the radial direction by steam, and the inner surface forming the open inlet of the pit and the outer surface of the bladder expand in volume are in close contact and the position is fixed.

At this time, the primary control valve and the secondary control valve provided at the upper end of the withdrawal pipe 10 maintain a closed state, respectively.

In this case, the open upper part of the pit P is closed by the volume-expanding bladder and at the same time generates a fixing force for fixing the position of the lead pipe to the pit so that odors and dust generated inside the conduit are removed from the open air of the pit. While preventing diffusion to the outside through the inlet, it is possible to stably maintain the vertical state of the lead pipe.

Successively, the primary control valve controlled to close is opened to maintain a state of closing the open inlet of the pit by the volume-expanded bladder, and at the same time, the opening and closing size of the internal flow path of the withdrawal pipe by the secondary control valve By controlling , a portion of the high-temperature steam is supplied to the first space of the first housing while controlling so that the amount of steam discharged from the bladder to the outside is less than the amount of steam discharged from the reinforcing tube to the inside of the bladder.

In addition, the upper support plate 12a of the inlet closing part 12 has the inside of the bladder in the process of discharging it to supply steam to the internal space of the first housing through the outlet pipe 10 via the bladder. An air supply line 17 may be provided for additionally forcibly injecting and supplying external air from the outside in order to prevent the pressure from being extremely low and, thereby, the adhesion and fixing force with the open inlet of the pit from being lowered.

The additional air supply through the air supply line 17 can be determined by a pressure gauge provided on the upper support plate to measure the internal pressure of the bladder, and the external air, which is air forcibly injected into the bladder, is of high temperature. It can be mixed with steam to lower the steam temperature.

In addition, the upper support plate (12a) is assembled with the draw-out pipe (10) by forming a connecting hole that is movably assembled to the spline formed in the middle of the length of the lead-out pipe through the center of the body, and is screwed to the spline. By providing the nut member 18 constraining the upper support plate, the outer diameter size of the bladder that is expanded in volume can be adjusted in accordance with the inner diameter of the pit by moving the upper support plate relative to the lower support plate fixed to the lead-out pipe.

As shown in FIGS. 1, 2, 5A, 5B, 6, 7, 8, and 9, the first housing 20 has a predetermined length with the exit end that is the upper end of the outgoing pipe 10. It includes a first space (S1) that is connected to communication through the hose member 19 of It includes a second space (S2) filled with vapor, and an internal partition wall (21) dividing the first space and the second space into spaces independent of each other.

In the upper surface of the first housing 20 corresponding to the second space (S2), a first opening ( 23) is provided.

A first connection slit 23a is provided on the outer edge of the upper surface of the first housing 20 adjacent to the first opening 23 and is in communication with the first space and is cut and formed so that high-temperature steam is discharged. It has a second connection slit (23b) that is in communication with the second space and is cut and formed so as to be heat-exchanged with the deodorizing and filtering unit 40 to guide and supply the cooled steam to the second space (S2).

The first housing 20 is discharged from the reinforcing tube 1 by the temperature difference between the high-temperature steam filled in the first space S1 and the low-temperature steam filled in the second space S2. Moisture contained in the steam is condensed on the inner surface of the inner partition 21 corresponding to the first space S1 to form dew, and the formed dew falls to the bottom surface of the first space and is collected as a certain amount of condensed water. can

At this time, the inner surface of the inner partition 21 facing the first space S1 may be provided with a fin-shaped protrusion so as to increase the contact area with the steam flowing into the first space and filled.

A drain pipe 24 is provided on the outer surface of the first housing 20 corresponding to the first space S1 to discharge the condensed water collected on the bottom surface of the first space to the outside, and the hose On the bottom surface of the first housing that penetrates through the steam inlet connected to the member 19, a blocking member 25 extending at a certain height to prevent the condensed water from flowing back into the withdrawal pipe 10 through the steam inlet is provided. desirable.

As shown in FIGS. 1, 2, 5A, 5B, 6, 7, 8 and 9, the second housing 30 has a first opening 23 of the first housing 20. ) and the second opening 33 connected in communication with the first opening is formed through the bottom surface corresponding to the first housing when assembling by lamination, and placed on the upper surface of the first housing 20 to be stacked. (32), having an inner hole corresponding to the second opening 33, and fixedly disposed in the inner space of the outer tube body 32 so that the outer surface and the inner surface of the outer tube body are spaced apart from each other at a predetermined interval It includes an inner tube body 31 that becomes.

The bottom surface of the outer tube body 32 penetrating through the second opening 33 communicates with the first and second connection slits 23a and 23b cut in an arc shape on the upper surface of the first housing 20 . The third and fourth connecting slits 32a and 32b are cut in an arc shape so as to be cut, and when the first and second housings 20 and 30 are vertically coupled, the first and second connecting slits 23a of the first housing , 23b) is in communication with the third and fourth connecting slits 32a and 32b of the outer tube, respectively, and the coupling portion between the upper end of the first housing 20 and the lower end of the second housing 30 is steam can be sealed to prevent leakage of

And, between the outer tube body 32 and the inner tube body 31 constituting the second housing 30 to form a heat exchange flow path between the inner surface of the outer tube body and the outer surface of the inner tube body of a predetermined size It may include a plurality of vertical bulkheads forming a gap.

The plurality of vertical bulkheads exchange heat in a non-contact manner with the deodorization filtration unit 40 fixedly disposed in the inner hole of the inner tube body while high-temperature steam discharged from the first space of the first housing passes in one direction, and then in a non-contact manner. The first and second vertical bulkheads 34 and 37 may be included with a phase difference of approximately 180 degrees to form a series of heat exchange passages guided and discharged to the second space of the first housing 20 .

The first and second vertical partition walls 34 and 37 communicate with each other when the first and second housings are vertically coupled to each other to form first and third connecting slits 23a and 32a corresponding to the first space, and the second Between the outer surface of the inner tube body 31 and the inner surface of the outer tube body 32 at an approximately 180 degree interval so as to partition the second and fourth connection slits 23b and 32b corresponding to the space, both sides of the border are formed. It may be provided as a plate member fixedly installed in contact.

The other end edges of the first and second vertical bulkheads fixed in contact with the outer surface of the inner tube body 31 are in contact with the inner surface of the outer tube body 32, and upper and lower ends of the first and second vertical partition walls is in contact with the lower surface of the outer flange provided at the upper end of the inner tube so as to be in contact with the open upper edge of the outer tube, and penetrating the third and fourth connecting slits 32a and 32b. It may come into contact with the floor surface.

At this time, the lower ends of the first and second vertical partition walls 34 and 37 are positioned at intervals of approximately 180 degrees on the bottom surface of the outer tube body corresponding to both ends of the third and fourth connecting slits 32a and 32b. They are respectively fitted and positioned on the assembling jaws for use.

In the first and second vertical partition walls 34 and 37, a plurality of connecting holes 34a and 37a are respectively formed through or by opening slits through the first and third connecting slits corresponding to the first space. The steam, which is supplied upwardly to one space between the outer tubes and is temporarily retained, is induced and discharged to the other space between the inner and outer tubes through the connection holes of the first and second vertical bulkheads 34 and 37, and is temporarily retained, A series of heat exchange passages discharged downwardly to the first housing through the second and fourth connection slits corresponding to the second space of the first housing are formed.

In addition, while extending the first residence time of the steam supplied from the first space and filled in one space corresponding to the space between the inner tube body and the outer tube body corresponding to the first and third connection slits 23a and 32a A plurality of first auxiliary partition walls 35 fixed in contact with the outer surface of the inner tube body to transfer heat to the inner tube body to increase heat exchange efficiency with the deodorization filter unit, and the second and fourth connecting slits ( 23b, 32b) and the other space corresponding to the space between the inner tube body and the outer tube body, while extending the secondary residence time of the steam to be introduced and filled through each connection hole of the first and second vertical bulkheads It is preferable to provide a plurality of second auxiliary partition walls 36 fixed in contact with the outer surface of the inner tube body so as to transfer heat to the tube body to increase the heat exchange efficiency with the deodorization filter unit.

The plurality of first and second auxiliary bulkheads 35 and 36 have a relatively shorter length than the first and second vertical bulkheads, and have a relatively narrower width than the first and second vertical bulkheads. can flow freely, and is preferably made of a metal material with high heat transfer to transfer the heat source to the inner tube.

At this time, although the first and second vertical bulkheads 34 and 37 and the plurality of first and second auxiliary bulkheads 35 and 36 have been illustrated and described as being fixedly installed on the inner tube, it is not limited thereto and the outer tube ( 32) can be fixedly installed on the inner surface.

In addition, the deodorizing filter unit 40 is internally disposed in the inner tube body 31 of the second housing 30, so that when the suction fan 50 provided on the inner tube body is operated, the inner tube body 31 and the outside The steam sequentially passing through the spaces on both sides bisecting between the tube body 32 and the deodorization filtering unit is heat-exchanged with the deodorizing filtering unit and then discharged upward from the second space S2 of the first housing, and the deodorizing filtering unit disposed inside the inner tube body It is discharged to the outside via (40).

In addition, it is preferable that a heat insulating member is provided on the inner surface of the outer tube body 32 corresponding to the inner tube body to prevent the outer surface of the second housing from being heated to a high temperature by the heat source of the steam.

Accordingly, high-temperature steam flows into the inside of the second housing through the first and third connection slits communicating with the first space between the outer tube body and the inner tube body of the second housing stacked and assembled on top of the first housing. After being introduced, a series of heat exchange passages for guiding the discharge of the heat-exchanged steam to the first housing through the second and fourth connection slits communicating with the second space are formed, so that the high temperature discharged from the outlet pipe and filled in the first space is formed. The steam of the is to be heat exchanged with the deodorizing filter unit to remove the moisture remaining in the deodorizing member and the filter member provided in the deodorizing filter unit while passing through the heat exchange flow path between the inner and outer tube body to dry.

Subsequently, the steam cooled while exchanging heat with the deodorizing member 42 and the filter member 43 of the deodorizing and filtering unit 40 is filled in the second space of the first housing through the second and fourth connecting slits.

On the other hand, the laminated structure in which the first housing 20 and the second housing 30 are stacked up and down includes a moving part 70 to facilitate position movement to a place where the conduit repair work is performed, such a moving part ( 70) is provided with an upper plate 71 to which the lower end of the first housing is raised and fixed, as shown in FIGS. 5A, 5B, 6 and 7, and the upper plate 71 and a plurality of supports A lower plate 72 connected via a bar 73 is provided, and the lower plate 72 is provided with a plurality of moving wheels 74 .

As shown in FIGS. 8 and 10 , the deodorization filtering unit 40 is disposed on the inner tube body of the second housing 30 and is filled with a deodorant member 42 with a certain amount of deodorant to remove the odor contained in the steam. And the deodorizing member 42 and the filter member are sequentially arranged by arranging the filter member 43 having a filter medium to correspond to the second opening 33 of the outer tube body 32 to remove the dust contained in the steam. It is to sequentially remove odors and dust contained in the steam passing upward.

The deodorizing member 42 is laminated and assembled with the filter member 43 through an annular upper spacer 44 having a central opening formed therethrough, and the lower portion of the deodorizing member 42 is formed from the second space. It includes a dehumidifying member 41 filled with a predetermined amount of a desiccant to remove moisture contained in the upwardly supplied steam, while the deodorizing member 42 passes through the annular annular lower spacer 45 formed through the other central opening. As a result, the dehumidifying member 41 is laminated and assembled.

The suction fan 50 is assembled to cover the open upper part of the inner tube body 31 as shown in FIGS. 1, 2, and 9 and 10, and the rotary blade 51 is rotated when power is applied. A suction force for forcibly sucking the steam filled in the second space (S2) of the first housing so as to discharge the steam passing through the dehumidifying member 41, the deodorizing member 42 and the filter member 43 to the outside. It is a fan element that generates.

The suction fan 50 includes a fan cover 52 covering the open upper end of the inner tube body, and is filled in the second space S2 when power is applied to the center corresponding to the deodorization filtering unit 40 . and a fan cover 52 having rotary blades 51 that are driven to rotate to generate a suction force for forced suction of steam.

The lower surface of the fan cover 52 may include an annular annular assembly protrusion formed to correspond to the open inlet end of the inner tube body 31 .

Accordingly, when external power is applied to the suction fan 50 and the rotary blade 51 is driven in one direction to generate a suction force, the deodorizing member and the filter member provided in the deodorizing and filtering unit are connected and exchanged, and then the first The steam filled in the second space of the housing is supplied upwardly from the lower portion of the deodorizing filter unit to the upper side by the suction power of the suction fan and passes through the dehumidifying member, the deodorizing member and the filter member sequentially, so that it is supplied upward from the second space. The moisture contained in the steam is absorbed and removed by the dehumidifying agent of the dehumidifying member, the odor contained in the steam is removed by the deodorizing agent of the deodorizing member, and the dust contained in the steam is filtered and removed by the filter member.

In addition, the dehumidifying member, the deodorizing member and the filter member provided in the deodorizing filtering unit through which the steam supplied upward from the second space passes is a heat source of steam transmitted from the heat exchange passage formed between the outer tube body and the inner tube body. By heating and drying the moisture remaining when heated by the steam, the dehumidification efficiency, the deodorization efficiency and the filtration efficiency of the dehumidifying member, the deodorizing member and the filter member can be stably maintained.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications, and changes are possible without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

1: reinforcement tube 2: conduit
10: withdrawal pipe
12: inlet closing part 13: coupling pipe
14: adhesion plate 15: vertical guide tube
16: elastic body 19: hose member
20: first housing
21: inner bulkhead 23: first opening
30: second housing
31: inner tube body 32: outer tube body
33: second opening 34,37: first and second vertical bulkheads
40: deodorization filtration unit
41: dehumidifying member 42: deodorizing member
43: filter member 44, 45: upper and lower spacers
50: suction fan
51: rotary blade 52: fan cover
70: moving part
71: upper plate 72: lower plate
73: support bar 74: moving wheel

Claims (10)

delete After forcibly injecting high-temperature steam into the inside of the reinforcing tube impregnated with a thermosetting resin and thermosetting the reinforcing tube in close contact with the inner surface of the conduit, the odor contained in the steam discharged from the inside of the reinforcing tube to the outside is removed. In the device,
An inlet closing part for closing the inlet of the pit for exposing the end of the reinforcing tube to the outside is provided in the middle of the length, and a contact plate that is in close contact with the outer surface of the reinforcing tube is provided at the end, and a predetermined length is exposed through the through hole of the adhesion plate a withdrawal pipe whose end is inserted through the inside of the reinforcing tube to discharge the steam filled in the inside of the reinforcing tube to the outside;
A first space in communication with the withdrawal pipe and filled with steam discharged from the extraction pipe and a second space filled with heat-exchanged steam are divided by an internal partition wall, and a second space is formed on an upper surface corresponding to the second space. a first housing through which one opening is formed;
A second opening is formed through a bottom surface corresponding to the first opening, and third and fourth connection slits are formed in a bottom surface corresponding to the first and second connection slits formed on an upper surface of the first housing to form the second opening. 1 Equipped with an outer tube assembled on the upper part of the housing, having an inner hole communicating with the second opening, having an inner tube disposed inside the outer tube, forming a gap between the outer tube and the inner tube a second housing having a plurality of vertical bulkheads forming a heat exchange flow path through which steam proceeds in one direction to transmit a heat source of steam to the inside;
a deodorizing filter unit for removing odors and dust contained in the steam by sequentially arranging a deodorizing member filled with a predetermined amount of a deodorizing agent in the inner space of the second housing and a filter member having a filter material in communication with the second opening; and
a suction fan having a rotary blade driven to rotate when power is applied to the open upper portion of the second housing and forcibly sucking the steam in the second space to discharge the steam passing through the deodorizing member and the filter member to the outside; including,
The inlet closure part is provided between upper and lower support plates respectively installed at regular intervals up and down in the middle of the length of the lead-out pipe, and the upper and lower support plates are provided between the upper and lower support plates and are discharged through at least one outlet hole formed through the outlet pipe. Including a bladder that is fixed in close contact with the inner surface of the pit while the volume is expanded by the steam of
A non-excavating type odor removal device for entire maintenance of a pipe, characterized in that the moisture remaining in the deodorizing member and the filter member is evaporated and removed by a heat source of steam in a heat exchange flow path formed between the outer pipe and the inner pipe. After forcibly injecting high-temperature steam into the inside of the reinforcing tube impregnated with a thermosetting resin and thermosetting the reinforcing tube in close contact with the inner surface of the conduit, the odor contained in the steam discharged from the inside of the reinforcing tube to the outside is removed. In the device,
An inlet closing part for closing the inlet of the pit for exposing the end of the reinforcing tube to the outside is provided in the middle of the length, and a contact plate that is in close contact with the outer surface of the reinforcing tube is provided at the end, and a predetermined length is exposed through the through hole of the adhesion plate a withdrawal pipe whose end is inserted through the inside of the reinforcing tube to discharge the steam filled in the inside of the reinforcing tube to the outside;
A first space in communication with the withdrawal pipe and filled with steam discharged from the extraction pipe and a second space filled with heat-exchanged steam are divided by an internal partition wall, and a second space is formed on an upper surface corresponding to the second space. a first housing through which one opening is formed;
A second opening is formed through a bottom surface corresponding to the first opening, and third and fourth connection slits are formed in a bottom surface corresponding to the first and second connection slits formed on an upper surface of the first housing to form the second opening. 1 Equipped with an outer tube assembled on the upper part of the housing, having an inner hole communicating with the second opening, having an inner tube disposed inside the outer tube, forming a gap between the outer tube and the inner tube a second housing having a plurality of vertical bulkheads forming a heat exchange flow path through which steam proceeds in one direction to transmit a heat source of steam to the inside;
a deodorizing filter unit for removing odors and dust contained in the steam by sequentially arranging a deodorizing member filled with a predetermined amount of a deodorizing agent in the inner space of the second housing and a filter member having a filter material in communication with the second opening; and
a suction fan having a rotary blade driven to rotate when power is applied to the open upper portion of the second housing and forcibly sucking the steam in the second space to discharge the steam passing through the deodorizing member and the filter member to the outside; including,
The contact plate includes a curved plate material having an arc-shaped cross-section in which the inner surface is in contact with the outer surface of the reinforcing tube, and includes a vertical guide tube whose lower end is fixedly coupled to the outer surface of the contact plate penetrating the through hole, , The vertical guide tube is disposed inside the vertical guide tube so that the upper end is in contact with the lower end and the engaging protrusion of the withdrawal pipe, and is pressed to directly lower the withdrawal pipe toward the reinforcing tube when it is contracted and deformed. Including at least one elastic body for generating
A non-excavating type odor removal device for entire maintenance of a pipe, characterized in that the moisture remaining in the deodorizing member and the filter member is evaporated and removed by a heat source of steam in a heat exchange flow path formed between the outer pipe and the inner pipe. 4. The method of claim 3,
The female screw part formed on the inner surface of the lower end of the vertical guide pipe is screwed with the male screw part of the coupling pipe fixedly installed on the outer surface of the contact plate penetrating the through hole. removal device. 3. The method of claim 2,
At the upper end of the withdrawal pipe, a primary control valve that maintains a closed state until the bladder, which is volume-expanded by the steam filled in the bladder, comes into contact with the inner surface of the pit, and the outer surface of the bladder and the pit By maintaining a constant contact pressure with the inner surface of An odor removal device for the entire repair of a non-excavating pipeline, characterized in that it includes a secondary control valve that 4. The method of claim 2 or 3,
The plurality of vertical partition walls separate first and third connecting slits communicating with the first space and second and fourth connecting slits communicating with the second space when the first and second housings are vertically coupled. and first and second vertical bulkheads forming a dividing space,
In any one of the first and second vertical bulkheads, steam supplied through first and third connecting slits communicating with the first space is first supplied through second and fourth connecting slits communicating with the second space. A non-excavating type odor removal device for the entire repair of a pipe, characterized in that a plurality of connection holes are formed through it to form a series of heat exchange paths discharged to the housing. 4. The method of claim 2 or 3,
In one space corresponding to the space between the inner tube body and the outer tube body communicating with the first and third connection slits, a plurality of first auxiliary units are first heat exchanged with the steam supplied from the first space to transfer heat to the inner tube body. A partition wall is provided, and in the other space corresponding to the space between the inner tube body and the outer tube body communicating with the second and fourth connection slits, a plurality of products are exchanged with the primary heat exchanged steam to transfer heat to the inner tube body. An odor removal device for repairing the entire non-excavating pipeline, characterized in that it has two auxiliary bulkheads. delete A construction method for repairing the entire pipeline by using the non-excavating type odor removal device for repairing the entire pipeline according to any one of claims 2 to 5. delete

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