KR20130026139A - Drainpipe's freeze and burst preventing apparatus - Google Patents

Abstract

PURPOSE: A freezing and bursting preventing device of a drainpipe is provided to prevent the damage of a pipe by preventing the back flow of drained water towards a drying device. CONSTITUTION: A freezing and bursting preventing device of a drainpipe(100) comprises a bypass tube(1), a hot air supplying unit(2), and a temperature sensing unit(3). The bypass pipe comprises a vertical unit(13) for connecting the other side of the horizontal unit and horizontal units(11,12) which are connected to a drainpipe. The hot air supplying unit is formed to correspond with the horizontal unit in order to straightly supply the hot air. The temperature sensing unit is mounted in the vertical unit. The hot air supplying unit comprises a hot wire coil(21), a fan(22), a motor(23), and a control unit.

Description

DRAINPIPE'S FREEZE AND BURST PREVENTING APPARATUS}

The present invention relates to a freeze protection device of the drain pipe, and more particularly, to a freeze protection device of the drain pipe to continuously supply hot air to the drain pipe of a multi-story building such as an apartment.

In general, multi-story buildings such as apartments have vertical drainage pipes installed on the veranda to drain rainwater or sewage.

Therefore, the branch pipe of each floor is connected to the main drain pipe.

However, in winter, the remaining water in the drain pipe freezes, which causes freezing, which causes difficulty in draining, causing the inconvenience of having to thaw or rework plumbing, and also causing financial expenses.

In order to solve this problem, various methods have been proposed, and the most common method is to construct a heat insulating material on the outside of the drain pipe or to embed a heating wire in the heat insulating material to prevent freezing by generating heat by power supply.

However, these methods were difficult to expect the freezing function only by the performance of the insulation, and in the case of the heating wire there was a risk of short circuit or short circuit.

In addition, Korean Patent No. 10-0491962 is disclosed as a prior art reference for the present invention.

However, the above-described prior art has a risk that the water drained in the drain pipe backflow, there is a problem that the drying device is damaged by the backflow.

The present invention has been devised to solve the above problems of the prior art, it is possible to continuously prevent the freezing accident by supplying hot air continuously in the drain pipe, to prevent the water to be drained back to the drying device to prevent damage The purpose is to provide a freeze protection of the drain pipe.

An object of the present invention is to be mounted on the drain pipe of a multi-storey building, such as an apartment, to form a bypass pipe in the basement of the drain pipe, to form a hot air supply on one side of the bypass pipe, The other side can be achieved by the freeze protection of the drain pipe, characterized in that the temperature sensor is mounted to continuously supply the hot air into the drain pipe.

The bypass pipe is arranged in the upper and lower, characterized in that consisting of a vertical portion connecting one end is connected to the drain pipe and the other end of the horizontal portion.

The hot air supply unit is formed to correspond to the horizontal portion of the upper portion so that the hot air is supplied in a straight line, the temperature sensor is characterized in that mounted on the vertical portion.

The bypass pipe may be formed such that one end of the upper horizontal portion connected to the drain pipe is curved upward, and one end of the lower horizontal portion connected to the drain pipe is curved downward.

According to the present invention it is possible to continuously prevent the freezing accident by supplying hot air continuously in the drain pipe, preventing the water to be drained back to the drying device to prevent damage.

1 is a view showing the freeze protection of the drain pipe according to the present invention.

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

1 is a view showing the freeze protection of the drain pipe according to the present invention.

As shown in Figure 1, the freeze protection device (A) of the drain pipe according to the present invention is mounted on the drain pipe 100 of a multi-storey building, such as an apartment, but is preferably easy to supply power, the temperature is to be maintained at room temperature It can be installed in the basement to avoid overwhelming the operation of the equipment.

In general, evacuation spaces and parking lots are constructed in the basement of the apartments, and on one side, machine rooms are provided with storm drains, sewage pipes, cooling and heating pipes, and manholes equipped with pumps.

Therefore, the lower part of the drain pipe 100 is constructed as a machine room, and the lower end thereof is connected to the manhole so that rainwater is discharged, and various pipes can be visually checked by the operator, and designed to facilitate repair and repair.

Therefore, the freeze protection device (A) of the drain pipe 100 according to the present invention is installed in the lower portion of the drain pipe 100 provided in the underground machine room.

The bypass pipe 1 is connected to the lower part of the drain pipe 100 and the lower part of the ground slab 200, which is made of a conventional flange (P) coupling.

The bypass pipe (1) is connected to pass through the top and bottom of the drain pipe (100), one end is connected to the horizontal pipe (11, 12) and the other end of the horizontal portion (11, 12) Consists of a vertical portion 13 to connect to form a substantially "C" shape.

That is, a part of the drain pipe 100 is cut to connect the Y-type connecting part, and then the T-type connecting part is connected to form an upper horizontal part 11, and the elbow pipe is connected to the lower part of the T-type connecting part, By connecting the Y-shaped connecting part to the other end of the elbow pipe again to form a lower horizontal portion 12 and by connecting to the drain pipe 100, the bypass pipe 1 is manufactured in a substantially "C" shape.

In addition, a hot air supply unit 2 is formed at one side of the bypass pipe 1, and a temperature sensor 3 is mounted at the other side of the bypass pipe 1 to detect hot air temperature while the hot air at an appropriate temperature is discharged to the drain pipe 100. To continue to supply.

Preferably, the hot air supply part 2 is formed to correspond to the horizontal parts 11 and 12 of the upper portion of the bypass pipe 1 so that the hot air is supplied in a straight line.

The hot air supply unit 2 is composed of a hot wire coil 21 that generates heat when the power is applied, and a motor 23 for rotating the fan 22 and the fan 22 for transmitting heat of the hot wire coil 21, It includes a control unit for controlling the on / off operation of the motor (23).

The heating of the motor 23, the fin 22, and the heating coil 21 may be controlled in multiple stages by program control of the controller.

For example, the operation is controlled to supply hot air at a temperature suitable for each step, divided into three stages of high, medium, and low.

As to the temperature control of the hot air is a commonly known technical content, a detailed description thereof will be omitted.

The bypass pipe 1 is formed such that one end of the upper horizontal parts 11 and 12 connected to the drain pipe 100 is curved upward.

Therefore, a curved curved portion 15 is formed upward at the connection portion of the upper horizontal portion 11 and the drain pipe 100 to which hot air is supplied, thereby directing the hot air upward so that the hot air is directed upward. To induce.

Also preferably, the hot air supply unit 2 extends to the rear end of the upper horizontal portion 11 of the bypass pipe 1 and is formed at an extension portion located behind the vertical portion 13.

Thus, by placing the hot air supply unit 2 at the rear end of the bypass pipe 1, even if a small amount of water flows into the drain pipe 100, even if a small amount does not reach the hot air supply unit 2 to prevent the risk of failure in advance. It was.

Water introduced into the bypass pipe 1 is guided so that the water may be discharged back to the drain pipe 100 through the lower horizontal part 12 via the vertical part 13.

In order to more actively induce this, one end of the lower horizontal portion 12 connected to the drain pipe 100 is formed to be curved downward.

In addition, the temperature sensor 3 is mounted to the vertical portion 13 of the bypass pipe (1). Of course, the mounting position of the temperature sensor 3 need not be limited and may be mounted in any position as long as the sensing performance can be improved.

The temperature sensor 3 transmits a temperature measurement value to the controller in order to sense the temperature of the hot wind supplied from the hot wind supplier 2 and limit the temperature to the set temperature range.

The controller receiving the temperature measurement value controls the on / off operation of the hot air supply unit 2 to be maintained at a predetermined temperature.

Hereinafter, the operation of the present invention will be described.

By operating the control unit, the temperature and operating time of the hot air are set to operate step by step in consideration of the external temperature or other environmental conditions.

Since the hot air supply unit 2 is automatically driven when the operating conditions are reached, hot air is supplied to the drain pipe 100 through the upper vertical part 13 of the bypass pipe 1, and then rises upward.

Therefore, the inside of the bypass pipe (1) is always maintained at a temperature of 0 ~ 15 ℃, by this temperature can be prevented the closed end of the water frozen inside.

In addition, when the water in the drain pipe 100 flows down, most of the water flows directly, but some may flow into the bypass pipe 1 and then be discharged again. In this case, the hot air supply unit 2 is farthest from the water. There is no risk of flooding because it is installed at the location.

In addition, although not shown, an order member that is opened or closed in one direction may be formed at the front end of the hot air supply unit, that is, the outlet side through which the hot air is discharged.

The order member may be opened by wind pressure when hot air is sent out, and when water is invaded from the opposite side, the order member may be closed by water pressure to protect the hot air supply unit 2 from flooding.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

1: bypass pipe 2: hot air supply
3: temperature sensor 11, 12: horizontal part
21: heating coil 22: heat
23: motor

Claims (5)

It is mounted on the drain pipe of a multi-story building such as an apartment,
A bypass pipe is formed in the basement layer of the drain pipe, a hot air supply unit is formed at one side of the bypass pipe, and a temperature sensor is mounted at the other side of the bypass pipe to continuously supply hot air into the drain pipe. Freeze protection of drain pipe. The method of claim 1,
The bypass pipe is arranged up and down, one end of the horizontal portion connected to the drain pipe, and the freeze prevention device of the drain pipe, characterized in that consisting of a vertical portion connecting the other end of the horizontal portion. The method of claim 1,
The bypass pipe cuts a part of the drain pipe and connects the Y-type connection part, and then connects the T-type connection part to form an upper horizontal part.
The elbow pipe is connected to the lower portion of the T-shaped connection part, and the Y-shaped connection part is connected again to form a lower horizontal portion, characterized in that the "c" shape formed by the freeze protection device of the drain pipe. The method of claim 1,
The hot air supply unit is formed to correspond to the horizontal portion of the upper portion so that the hot air is supplied in a straight line,
The temperature sensor is a freeze protection device of the drain pipe, characterized in that mounted on the vertical portion. The method of claim 1,
The bypass pipe is formed so that one end of the upper horizontal portion connected to the drain pipe is curved upwards,
One end of the lower horizontal portion is connected to the drain pipe is bent downward, characterized in that the freeze protection device of the drain pipe.

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