KR20240008534A - Hot air circuilation apparatus for corrugated pipe stiffening prevention and method thereof - Google Patents

Abstract

The hot air circulation device and method for preventing hardening of corrugated pipes of the present invention allow hot air to circulate inside the corrugated pipe 70 without heat loss by means of a hot air circulation device connecting the inlet 72 and the outlet 74 of the corrugated pipe 70. By doing this, the curved or hardened corrugated pipe of synthetic resin can be softened in a short time, thereby preventing damage to the corrugated pipe 70 and heat loss, minimizing the number of workers and working time, and improving construction convenience, as well as requiring a separate generator. There is an advantage in that the size of the equipment (hot air circulation device) can be minimized without having to provide a .

Description

Hot air circulation device and method for preventing hardening of corrugated pipe {HOT AIR CIRCUILATION APPARATUS FOR CORRUGATED PIPE STIFFENING PREVENTION AND METHOD THEREOF}

The present invention relates to a hot air circulation device and method for preventing hardening of corrugated pipes, and more specifically, to a hot air circulation device and method for preventing hardening of corrugated pipes, which can solve the bending and hardening phenomenon of corrugated pipes by circulating hot air inside the corrugated pipes. .

In general, undergrounding projects for electric power facilities are on the rise due to the advantages of improving the urban environment, efficient use of land, and improving the reliability of power supply, and undergrounding projects are continuously being promoted not only in new housing development areas but also in existing processing facility areas. there is.

Three types of underground burying methods for power supply lines are used: direct burial, pipe type, and culvert type (power tunnel type), and among them, the pipe type is the most widely used.

At this time, synthetic resin corrugated pipe, synthetic resin straight pipe, steel pipe, etc. can be used in the pipe type, and among them, synthetic resin corrugated pipe is mainly used.

Currently, the work of burying such synthetic resin corrugated pipes (hereinafter referred to as "corrugated pipes") underground is mainly carried out by manpower. Corrugated pipes are large in size and weight and have elasticity, so they are difficult to handle by manpower. Therefore, during installation work, 6 to 7 workers must be employed per work group, which not only reduces work efficiency, but also raises concerns about safety accidents such as workers falling and being injured as they cannot overcome the weight and tension of the corrugated pipe during the transport and installation process. exists.

In addition, since corrugated pipes are transported and stored in the form of rolls of a certain length, even if the corrugated pipes are unrolled and unrolled during laying work, the corrugated pipes tend to be plastically deformed and remain bent.

This type of corrugated pipe requires straightening the curved part before burying it in the ground. Currently, the work of straightening is done by applying heat with a gas torch lamp (hereinafter referred to as "heat straightening work"), but the corrugated pipe is damaged by overheating or carbonization. There was a risk that the material would be damaged.

In particular, the high-density polyethylene synthetic resin corrugated pipe purchased from KEPCO contains flame retardants and is easily ignited during heating work. Since it softens when the temperature exceeds 120℃, the outer shape of the corrugated pipe must be directly heated with a gas torch above 3000℃. In this case, there was a problem that the physical properties changed and the tensile strength and impact resistance were weakened.

As mentioned above, in order to heat and straighten a synthetic resin corrugated pipe, which is weak to heat, with a gas torch, the work time was inevitably slow and a large number of workers were required.

In addition, a hot air blower is used to solve the bending and hardening phenomenon of the corrugated pipe, but since it is a method of applying hot air to the outside of the corrugated pipe, not only is the heat loss large, but as the equipment becomes larger and a large power source is required, a separate generator must be installed. There was a problem.

Republic of Korea Patent Publication No. 10-1207989 (2012.11.28.)

The purpose of the present invention was developed in consideration of existing problems, and is a hot air circulation device for preventing hardening of corrugated pipes that can quickly soften curved or hardened synthetic resin corrugated pipes without heat loss by allowing hot air to circulate inside the corrugated pipes. and providing the method.

The hot air circulation device for preventing curing of corrugated pipes according to an embodiment of the present invention for solving the above technical problem includes a fan 14 that is supplied with power and rotates within the housing 12, and an air inlet on one side of the housing 12. A blower (10) formed by (16); A venturi tube (20) connected to the air circulation outlet (18a) of the blower (10); A heating element 22 installed in the venturi tube 20 to heat the air passing through the inside of the venturi tube 20 to a high temperature; A flexible tube (30) connected to the small diameter of the venturi tube (20); A first flange (40) connecting the end of the flexible pipe (30) and the inlet (72) of the corrugated pipe (70); It is characterized in that it includes a second flange (80) connecting the air circulation inlet (18b) of the blower (10) and the outlet (74) of the corrugated pipe (70).

As another embodiment, the air circulation outlet (18a) and the air circulation inlet (18b) of the present invention are arranged in a straight line with the direction of the blowing wind generated when the fan (14) in the housing (12) is driven. It is characterized in that it protrudes outward from the front and rear of (12), respectively.

As another embodiment, the venturi pipe 20 of the present invention is formed with a stepped large or small diameter to increase the speed of air, the large diameter is inserted into the air circulation discharge port 18a, and the small diameter is inserted into the flexible pipe 30. ) is characterized by being inserted into one end of the.

As another embodiment, the heating element 22 of the present invention is characterized in that a plurality of heating elements 22 are installed at regular intervals in the large diameter of the venturi tube 20.

As another embodiment, the heating element 22 of the present invention is characterized as a coil heater.

As another embodiment, the first flange 40 of the present invention includes a hollow tube body 42; A small diameter portion 44 formed on one end of the hollow tube body 42 and inserted into the other end of the flexible tube 30; and a large diameter portion 46 formed on the other end of the hollow tube body 42 and fitted into the inlet 72 of the corrugated tube 70.

As another embodiment, a thermometer 50 that detects the temperature of hot air passing through the inside of the first flange 40 is installed on one side of the hollow tube body 42 of the present invention.

As another embodiment, the second flange 80 of the present invention is in the form of a hollow tube formed with a large diameter portion 82 and a small diameter portion 84, and the large diameter portion 82 is inserted into the air circulation inlet 18b. In addition, the small diameter portion 84 is characterized in that it is inserted into the outlet 74 of the corrugated pipe 70.

In another embodiment, the inlet 72 of the corrugated tube 70 of the present invention is fitted with a first fastening band that wraps around and presses the outer circumference of the inlet 72 so that it does not come off after being inserted into the end of the first flange 40. It is fastened by (60), and the outlet 74 of the corrugated tube 70 is inserted into the end of the second flange 80 and a second fastening band that wraps around and presses the outer circumference of the outlet 74 so that it does not come off. It is characterized by being bound by (62).

As another embodiment, the first flange 40 and the second flange 80 of the present invention are characterized in that they are made of an insulating material.

Meanwhile, the hot air circulation method for preventing hardening of a corrugated pipe according to an embodiment of the present invention includes the step of connecting the inlet 72 and the outlet 74 of the corrugated pipe 70 to a hot air circulation device (S100); Supplying power to the hot air circulation device to simultaneously operate the fan 14 and the heating element 22 to circulate hot air inside the corrugated pipe 70 (S200); If the internal temperature of the corrugated tube 70 is above a certain temperature, turning off the power to the hot air circulation device (S300); And a step (S400) of separating the corrugated pipe 70, in which the bending and hardening phenomena have been resolved, from the hot air circulation device.

The hot air circulation device and method for preventing hardening of corrugated pipes of the present invention allow hot air to circulate inside the corrugated pipe without heat loss by means of a hot air circulation device connecting the inlet and outlet of the corrugated pipe, thereby quickly curing the curved or hardened synthetic resin corrugated pipe. Because it can be softened, it not only improves construction convenience by preventing damage to corrugated pipes and heat loss while minimizing the number of workers and working hours, but also minimizes the size of equipment (hot air circulation device) without having to install a separate generator. There are advantages to doing this.

Figure 1 is an example of a combination of a hot air circulation device for preventing hardening of corrugated pipes according to the present invention.
Figure 2 is an example of an isolated hot air circulation device for preventing hardening of corrugated pipes according to the present invention.
Figure 3 is a flow chart of the hot air circulation method for preventing hardening of corrugated pipes according to the present invention.

Hereinafter, in order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings FIGS. 1 to 3. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. It should be noted that the same configuration may be indicated by the same reference numeral in each drawing. Detailed descriptions of well-known functions and configurations that are judged to unnecessarily obscure the gist of the present invention are omitted.

Referring to Figures 1 and 2, the hot air circulation device for preventing hardening of corrugated pipes according to an embodiment of the present invention includes a blower (10), a venturi tube (20), a heating element (22), a flexible tube (30), and a first flange ( 40), a thermometer 50, a first fastening band 60, a second fastening band 62, a corrugated tube 70, and a second flange 80.

That is, the blower 10 has a fan 14 installed in the housing 12 that rotates by receiving power, an air inlet 16 is formed on one side of the housing 12, and the front of the housing 12 An air circulation outlet (18a) and an air circulation inlet (18b) are formed at the rear of the and.

At this time, the air circulation outlet (18a) and the air circulation inlet (18b) are outside the front and rear of the housing (12) so that they are arranged in a straight line with the direction of the blowing wind generated when the fan (14) in the housing (12) is driven. It is preferable that each is formed to protrude.

The venturi tube 20 is connected to the air circulation discharge port 18a of the blower 10 and is formed with a compression stepped large or small diameter to increase the speed of the air supplied from the blower 10, and the large diameter is connected to the air circulation discharge port 18a. ) is coupled to the outer diameter of the tube by interference fitting, and the small diameter is coupled to the outer diameter of one end of the flexible pipe (30) by interference fitting.

The heating element 22 is installed in the venturi tube 20 and serves to heat the air passing through the inside of the venturi tube 20 to a high temperature of a certain level.

At this time, the heating element 22 is preferably composed of a plurality of coil heaters installed at regular intervals in the large diameter of the venturi tube 20.

The flexible pipe 30 is coupled to the small diameter of the venturi pipe 20 by interference fitting on the outer peripheral surface, and allows smooth air circulation when connected to the hot air circulation device and the corrugated pipe 70, where bending and hardening have not been resolved. It serves to control the gentle curvature as shown in Figure 1.

The first flange 40 is made of an insulating material that is press-fitted to the inner diameter of one end of the flexible pipe 30 and the inner diameter of the inlet 72 of the corrugated pipe 70.

That is, the first flange 40 includes a hollow tube body 42; A small diameter portion 44 formed on one end of the hollow tube body 42 and inserted into the other end of the flexible tube 30; and a large diameter portion 46 formed on the other end of the hollow tube body 42 and fitted into the inlet 72 of the corrugated tube 70.

At this time, a thermometer 50 is installed on one side of the hollow tube body 42 to detect the temperature of hot air passing through the inside of the first flange 40, and the thermometer 50 has a sensing portion of the hollow tube body 42. ) and measures the air (hot air) heated by the heating element 22, and at the same time, if the internal temperature is above a certain temperature, a measurement signal is sent to a programmed controller (not shown) to connect the blower 10 and the heating element ( 22) serves to cut off the power supply.

The second flange 80 is made of an insulating material that is tightly fitted to the outer diameter of the air circulation inlet 18b of the blower 10 and the inner diameter of the outlet 74 of the corrugated pipe 70.

That is, the second flange 80 is in the form of a hollow tube in which a large-diameter portion 82 and a small-diameter portion 84 are formed. The large-diameter portion 82 is inserted into the air circulation inlet 18b, and the small-diameter portion 84 is It is inserted into the outlet 74 of the corrugated tube 70.

The first fastening band 60 serves to press and surround the outer circumference of the inlet 72 of the corrugated tube 70 so that the inlet 72 does not come off after it is inserted into the end of the first flange 40.

The second fastening band 62 serves to press and surround the outer circumference of the outlet 74 of the corrugated tube 70 so that it does not come off after it is inserted into the end of the second flange 80.

That is, the first fastening band 60 and the second fastening band 62 are used to soften the corrugated pipe 70 of synthetic resin that has been bent or hardened by high-temperature hot air circulating inside the corrugated pipe 70. ) serves to bind the inlet 72 and outlet 74 sides to prevent natural separation (separation) from the first flange 40 and the second flange 80.

Referring to Figure 3, the hot air circulation method for preventing hardening of a corrugated pipe according to an embodiment of the present invention includes the step of connecting the inlet 72 and outlet 74 of the corrugated pipe 70 to a hot air circulation device (S100); Supplying power to the hot air circulation device to simultaneously operate the fan 14 and the heating element 22 to circulate hot air inside the corrugated pipe 70 (S200); If the internal temperature of the corrugated tube 70 is above a certain temperature, turning off the power to the hot air circulation device (S300); And a step (S400) of separating the corrugated pipe 70, in which the bending and hardening phenomena have been resolved, from the hot air circulation device.

In this way, the hot air circulation device and method for preventing hardening of the corrugated pipe of the present invention allow hot air to heat the inside of the corrugated pipe (70) by the hot air circulation device that connects the inlet (72) and the outlet (74) of the corrugated pipe (70). By allowing the corrugated or hardened synthetic resin corrugated pipe to be softened in a short time by allowing it to circulate without any damage, it is possible to prevent damage to the corrugated pipe 70 and heat loss while also increasing the convenience of construction by minimizing the number of workers and working time. It has the advantage of minimizing the size of the equipment (hot air circulation device) without having to install a separate generator.

Meanwhile, the present invention is not limited to the above-described embodiments, but can be implemented with modifications and modifications without departing from the gist of the present invention, and the technical idea to which such modifications and modifications are applied also falls within the scope of the following patent claims. Must see.

10: blower 12: housing
14: fan 16: air inlet
18a: air circulation outlet 18b: air circulation inlet
20: Venturi tube 22: Heating element
30: Flexible pipe 40: First flange
42: hollow tube body 44: small diameter part
46: Large diameter part 50: Thermometer
60: first fastening band 62: second fastening band
70: Corrugated tube 72: Inlet
74: outlet 80: second flange
82: Large diameter part 84: Small diameter part

Claims (11)

A blower 10 in which a fan 14 that receives power and rotates is installed in the housing 12, and an air inlet 16 is formed on one side of the housing 12;
A venturi tube (20) connected to the air circulation outlet (18a) of the blower (10);
A heating element 22 installed in the venturi tube 20 to heat the air passing through the inside of the venturi tube 20 to a high temperature;
A flexible tube (30) connected to the small diameter of the venturi tube (20);
A first flange (40) connecting the end of the flexible pipe (30) and the inlet (72) of the corrugated pipe (70);
A hot air circulation device for preventing hardening of corrugated pipes, comprising a second flange (80) connecting the air circulation inlet (18b) of the blower (10) and the outlet (74) of the corrugated pipe (70). In claim 1,
The air circulation outlet (18a) and the air circulation inlet (18b) are outside the front and rear of the housing (12) so as to be arranged in a straight line with the direction of blowing wind generated when the fan (14) in the housing (12) is driven. A hot air circulation device for preventing hardening of corrugated pipes, characterized in that each is formed protrudingly. In claim 2,
The venturi tube 20 is formed with stepped large and small diameters to increase the speed of air,
The large diameter is inserted into the air circulation outlet (18a),
A hot air circulation device for preventing hardening of corrugated pipes, characterized in that the small diameter is inserted into one end of the flexible pipe (30). In claim 3,
A hot air circulation device for preventing hardening of corrugated pipes, characterized in that a plurality of the heating elements (22) are installed at regular intervals in the large diameter of the venturi pipe (20). In claim 4,
The heating element (22) is a hot air circulation device for preventing hardening of corrugated pipes, characterized in that it is a coil heater. In claim 3,
The first flange 40 is,
Hollow tube body (42);
A small diameter portion 44 formed on one end of the hollow tube body 42 and inserted into the other end of the flexible tube 30; and
A hot air circulation device for preventing hardening of a corrugated pipe, characterized in that it includes a large diameter portion (46) formed on the other end of the hollow pipe body (42) and inserted into the inlet (72) of the corrugated pipe (70). In claim 6,
A hot air circulation device for preventing hardening of corrugated pipes, characterized in that a thermometer 50 that detects the temperature of hot air passing through the inside of the first flange 40 is installed on one side of the hollow pipe body 42. In claim 1,
The second flange 80 is in the form of a hollow tube in which a large diameter portion 82 and a small diameter portion 84 are formed,
The large diameter portion 82 is inserted into the air circulation inlet 18b,
A hot air circulation device for preventing hardening of a corrugated pipe, characterized in that the small diameter portion (84) is inserted into the outlet (74) of the corrugated pipe (70). In claim 1,
The inlet 72 of the corrugated tube 70 is fastened by a first fastening band 60 that wraps around and presses the outer circumference of the inlet 72 so that it does not come off after being inserted into the end of the first flange 40,
The outlet 74 of the corrugated tube 70 is fastened by a second fastening band 62 that wraps around and presses the outer circumference of the outlet 74 so that it does not come off after being inserted into the end of the second flange 80. Features a hot air circulation device for preventing hardening of corrugated pipes. In claim 9,
A hot air circulation device for preventing hardening of corrugated pipes, characterized in that the first flange (40) and the second flange (80) are made of an insulating material. Connecting the inlet 72 and outlet 74 of the corrugated pipe 70 to the hot air circulation device (S100);
Supplying power to the hot air circulation device to simultaneously operate the fan 14 and the heating element 22 to circulate hot air inside the corrugated pipe 70 (S200);
Cutting off the power to the hot air circulation device when the internal temperature of the corrugated tube 70 is above a certain temperature (S300); and
A hot air circulation method for preventing hardening of a corrugated pipe, comprising the step (S400) of separating the corrugated pipe (70) in which the bending and hardening phenomena have been resolved from the hot air circulation device.

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