KR101151771B1 - A hot water circulation device using the vapor pressure - Google Patents

Abstract

The present invention relates to a hot water circulation system using a steam pressure, according to a preferred embodiment, the water storage tank and the hot water circulated through the inlet; A pressure tank formed at a lower portion of the reservoir tank to discharge hot water to the hot water pipe through an outlet; A first valve formed through the partition between the reservoir tank and the pressure tank to control the flow of water in one direction; A heating tank formed under the pressure tank to heat hot water; A second valve formed through the partition wall between the pressure tank and the heating tank to control the flow of water in one direction; And a pipe configured to penetrate the partition between the pressure tank and the heating tank to discharge hot water heated to the pressure tank, wherein the opening and closing port of the first valve is formed to protrude into the pressure tank. The air layer is formed in the upper portion of the pressure tank by a protruding interval, and the pipe is formed to extend to a position higher than the opening and closing of the first valve, characterized in that the top of the pipe is exposed to the air layer.
According to the present invention according to the preferred embodiment, the hot water heated in the heating tank is discharged to the air layer through the top of the pipe so that the bubbles contained in the hot water will burst in the air layer bubbles when the hot water moves from the heating tank to the pressure tank There is an advantage that can minimize the noise generated by bursting.

Description

Hot water circulation system using steam pressure {A HOT WATER CIRCULATION DEVICE USING THE VAPOR PRESSURE}

The present invention relates to a hot water circulation apparatus using steam pressure, and more particularly, to circulate and supply hot water to a hot water pipe such as a hot water mat or a boiler used in winter, to steam hot water heated by a heater mounted therein. The present invention relates to a hot water circulation system capable of circulating only by pressure.

In general, the electric mat is mainly used in winter to heat the floor of the room locally or to maintain warmth. Such an electric mat can not only reduce the heating cost but also expect the heating effect in a short time. It is widely used.

However, as research results that a large amount of strong electromagnetic waves harmful to the human body are generated from the electric heating element embedded in the electric mat are known to the general public through various media, etc., it is arousing awareness of the use of the electric mat.

The best way to sleep warmly to avoid harmful electromagnetic waves when you sleep is the boiler using ondol or water, but due to the recent rise in exchange rates and oil prices, maintenance costs for heating boilers is becoming a huge burden for the common people. There is a situation.

As a result, many common people use electric mats to save heating costs. However, the electromagnetic waves and other problems described above are known to the general consumers, and the existing electric mats are disregarded by consumers and the demand is reduced.

As a countermeasure against this, electric mats having electromagnetic shielding functions have been released, but there is a problem in reliability because it does not solve the fundamental problem of harmful electromagnetic waves and its effects have not been verified.

In order to solve the above problems, a hot water mat using an ondol method using hot water has recently been proposed, and there is no electric heating wire in the mat, so there is no risk of fire or electric shock and there is no worry of electromagnetic leakage. Received.

In general, the hot water mat is configured based on a hot water circulation device, a hot water pipe, a sheet, and the like, and circulates the hot water heated in the hot water circulation device through the hot water pipe so that the sheet generates heat.

However, the conventional hot water circulation device is equipped with a pump motor on one side of the hot water circulation device to circulate the water heated by the heater, so that the noise and vibration of the motor generated when the pump motor is driven to the main body of the hot water circulation device. It is emitted to the outside as it is causing unpleasant noise, there was a problem that can not take a comfortable sleep by the generation of such noise.

In addition, the motor pump is operated for a long time in a state immersed in hot water of high temperature, and frequent breakdowns occur. As the motor pump and the heater operate continuously, the power consumption increases, and the burden of the electric charge increases, thereby causing an uneconomic problem.

An object of the present invention for solving the problems as described above, to provide a hot water circulation device using a steam pressure that can block the noise and vibration by the motor as a means to replace the pump motor.

Another object of the present invention is to provide a hot water circulation device using steam pressure to prevent the inoperable state due to frequent failure of the pump motor.

Still another object of the present invention is to provide a hot water circulation system using steam pressure that can minimize the power consumption required to operate the hot water circulation system.

Hot water circulation device using the steam pressure of the present invention for achieving the object as described above, the water storage tank and the hot water circulated through the inlet; A pressure tank formed at a lower portion of the reservoir tank to discharge hot water to the hot water pipe through an outlet; A first valve formed through the partition between the reservoir tank and the pressure tank to control the flow of water in one direction; A heating tank formed under the pressure tank to heat hot water; A second valve formed through the partition wall between the pressure tank and the heating tank to control the flow of water in one direction; And a pipe configured to penetrate the partition between the pressure tank and the heating tank to discharge hot water heated to the pressure tank, wherein the opening and closing port of the first valve is formed to protrude into the pressure tank. The air layer is formed in the upper portion of the pressure tank by a protruding interval, and the pipe is formed to extend to a position higher than the opening and closing of the first valve, characterized in that the top of the pipe is exposed to the air layer.

According to a preferred embodiment, the partition between the reservoir tank and the pressure tank and the partition between the pressure tank and the heating tank is installed with a pressure safety valve to prevent explosion due to pressure overload.

According to a preferred embodiment, the lower side of the pressure tank is characterized by measuring the hot water temperature before being discharged to the hot water pipe is installed with a temperature sensor at a predetermined interval with the outlet.

According to a preferred embodiment, the outlet of the pressure tank is characterized in that the check valve is installed to prevent the back flow of hot water flowing into the hot water pipe.

According to a preferred embodiment, the water level sensor is installed on the inner side of the heating tank is characterized in that for measuring the residual amount of water in the heating tank.

The hot water circulation device using the steam pressure of the present invention constructed and acting as described above, by circulating and supplying hot water using only the steam pressure without using a pump motor, can fundamentally block the noise and vibration of the motor generated during driving. There are advantages to it.

In addition, since it is not necessary to install a pump motor, it is possible to prevent malfunction due to frequent failure of the pump motor, and the space occupied by the pump motor is not necessary, so the overall size of the hot water circulator can be miniaturized. There is this.

In addition, since there is no need to operate the pump motor, there is an advantage that can significantly reduce the electricity bill by minimizing the power consumption for circulating hot water.

In addition, since hot water heated in the heating tank is discharged to the air layer through the top of the pipe and bubbles contained in the hot water are blown out of the air layer, it is possible to minimize noise generated when the hot water moves from the heating tank to the pressure tank. There is this.

1 is an internal side view showing a hot water circulation device using the steam pressure according to an embodiment of the present invention.
2 is an exemplary view showing a state in which a hot water circulation device according to an embodiment of the present invention is connected to a hot water mat through a hot water pipe.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The features and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments based on the accompanying drawings.

Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

In addition, it will be apparent to those skilled in the art that the present invention may be practiced without specific details such as specific components in the following description. Therefore, a detailed description of the general configuration for the governor well known in the art will be omitted.

Referring to FIG. 1, the hot water circulation apparatus using the steam pressure according to an embodiment of the present invention includes a water storage tank 20 through which hot water circulated through the hot water pipe 10 flows through an inlet 28, and the water storage tank ( 20 formed in the lower portion of the pressure tank 40 through which the hot water is discharged to the hot water pipe 10 through the outlet 48, and formed through the partition wall between the water storage tank 20 and the pressure tank 40 in one direction. The first valve 30 to control the flow of water to the lower portion of the pressure tank 40, the heating tank 60 for heating hot water, and between the pressure tank 40 and the heating tank 60 The second valve 50 penetrating through the partition wall to control the flow of water in one direction, and hot water heated through the partition wall between the pressure tank 40 and the heating tank 60 to the pressure tank 40 It is comprised including the piping 70 to be sent out.

Here, the opening and closing port 32 of the first valve 30 is formed to protrude into the pressure tank 40 so that the air layer is formed on the upper portion of the pressure tank 40 by the interval in which the opening and closing port 32 protrudes, The pipe 70 preferably extends to a position higher than the opening and closing port 32 of the first valve 30 so that the top end of the pipe 70 is exposed to the air layer.

Therefore, the hot water heated in the heating tank 60 is discharged to the air layer through the top of the pipe 70 so that the bubbles contained in the hot water will burst in the air layer when the hot water moves from the heating tank 60 to the pressure tank 40 bubbles It is possible to minimize the noise generated by the explosion.

Hereinafter, each configuration of the present invention will be described according to a preferred embodiment.

First, the storage tank 20 will be described.

Specifically, the water storage tank 20 has an injection hole 80 to replenish water on one side of the upper portion, and a pressure sensing unit 90 for measuring a pressure overload in the hot water circulating device on the other side of the upper portion. On the side surface is formed an inlet 28 through which hot water circulated through the hot water pipe 10 flows.

The inlet 80 may inject water into the empty storage tank 20 at the initial use of the hot water circulator, or additionally replenish water when the water evaporates using the hot water circulator for a long time. The inlet 80 may be provided with a pressure control stopper (not shown) that can be opened and closed to adjust the steam pressure during the pressure overload in the hot water circulator, outside the hot water circulator so that the user can easily recognize the pressure overload Pressure overload warning lamp and warning speaker are installed.

An upper side of the pressure detecting unit 90 is preferably a pressure sensor for measuring the pressure overload inside the hot water circulation device, the lower side is preferably provided with a corrugated pipe that expands and contracts according to the pressure inside the hot water storage device. The pressure sensor is to detect the contact of the corrugated pipe when the corrugated pipe is excessively expanded due to the pressure overload in the hot water circulation system, to transmit a signal to the above-described warning lamp and warning speaker.

The corrugated pipe has an elasticity as a tube made by pleating in a wind tube shape and is used for pressure measurement. When the water rises inside the reservoir tank 20 and the corrugated pipe expands, the elastic force of the corrugated pipe itself acts at the same time. Since it is going to shrink in a state, it is also effective in pushing the water in the storage tank 20 to the pressure tank 40. The corrugated pipe may be made of synthetic resin, metal, or the like, and may be provided with a corrugated pipe as well as a spring-mounted fixture, and various kinds of devices may be installed in place of the corrugated pipe by the person skilled in the art. .

The inlet 28 is connected to the hot water pipe 10 and is a passage through which hot water circulated through the hot water pipe 10 flows. The expansion joint pipe (not shown) is preferably installed between the inlet 28 and the hot water pipe 10, the elasticity when the displacement (movement) occurs in the inlet 28 and the hot water pipe 10 due to the external impact This is because the coupling force between the inlet 24 and the hot water pipe 10 can be increased.

Next, the pressure tank 40 will be described.

Specifically, the pressure tank 40 has an outlet 48 through which hot water flows out to the hot water pipe 10 at an inner side thereof, and a temperature sensing sensor 44 at a lower distance from the outlet 48 at a predetermined distance. Is installed to measure the hot water temperature before being discharged to the hot water pipe (10).

The outlet 48 is preferably provided with a check valve 46 for preventing the back flow of hot water flowing into the hot water pipe 10, not limited to this may be used to prevent any reverse flow of hot water. .

In addition, the outlet 48 is preferably formed at the bottom of one side of the pressure tank 40 so that the hot water can be sufficiently discharged due to the steam pressure even when the amount of hot water in the pressure tank 40 is small.

The temperature sensor 44 is for measuring the temperature immediately before the hot water flows into the hot water pipe 10, the hot water temperature just before flowing out from the pressure tank 40 is the hot water temperature of the hot water pipe (10) Since they are almost identical, they can be used to adjust the temperature appropriately.

In addition, a temperature display device (not shown) is installed on one side of the hot water circulator so that the user can recognize the temperature detected by the temperature sensor 44, the installation position and the installation method of the temperature display device The type may be variously selected by those skilled in the art.

Next, the first valve 30 will be described.

The first valve 30 is installed between the water storage tank 20 and the pressure tank 40 to control water to flow in one direction from the water storage tank 20 to the pressure tank 40.

In the embodiment of the present invention is shown that the first valve 30 is made of a ball valve, the ball valve is provided with a ball of a material floating in water and the ball moves up and down according to the flow of water. When the pressure in the water storage tank 20 is higher than the pressure in the pressure tank 40, the ball valve is lowered in the ball provided in the ball valve, the ball is caught in the engaging portion formed in the lower center of the ball valve , Water flows from the reservoir tank 20 to the pressure tank 40 through the hole formed around the locking portion. On the contrary, when the pressure in the pressure tank 40 becomes higher than the pressure in the water storage tank 20, the ball provided in the ball valve is raised. At this time, the ball closes the opening / closing opening 32 formed at the upper side of the ball valve, so that the pressure is increased. Water in the tank 40 will not be able to move to the reservoir tank 20.

Therefore, the first valve 30 is naturally adjusted so that water flows from the water storage tank 20 to the pressure tank 40 in only one direction without any special manipulation of a user or other device.

The first valve 30 is not limited to the above-described ball valve, and if the valve of the type that can replace the function of the ball valve can be installed in various ways selected by those skilled in the art, of course, hot water circulation device In order to allow the hot water to circulate naturally due to the steam pressure, a valve having a proper size should be installed in consideration of the volume and pressure when each tank is filled with water.

The second valve 50 acts in the same manner as the first valve described above, and thus detailed description thereof will be omitted.

Next, the heating tank 60 will be described.

Specifically, the heating tank 60 has a heater 64 for heating water introduced from the pressure tank 40 at the lower side thereof, and a water level sensor for measuring a residual amount of water in the heating tank 60 at an inner side thereof. 62) is installed.

The heater 64 is a heating element used in various fields including the related art, and is made of a metal plate or a coil for heating water. The heater 64 is installed at the lower side of the heating tank 60 to serve to heat the water introduced from the pressure tank 40. When steam is generated while the water is heated, the internal steam pressure of the heating tank 60 Since the increased heated water can be pushed into the pressure tank 40 through the pipe 70, the steam pressure can be said to be a source of power for circulating the hot water in the hot water circulation system of the present invention.

The heater 64 is turned on / off by the above-described temperature sensor 44, is heated until the temperature of the hot water measured by the temperature sensor 44 matches the temperature input by the user, If the temperature exceeds the temperature entered by the user, the heater will stop working. Such a series of operations are operated by a control unit (not shown) installed in the hot water circulation system, and may be manufactured by various algorithms to facilitate user convenience.

The water level sensor 62 is provided to extend in the upper side at a predetermined interval with the heater 64 in the side of the heating tank 60, it is possible to identify the water replenishment time by detecting the water level in the water storage tank (20) Lamps or liquid crystals linked thereto may be properly installed outside the hot water circulation system.

The water level sensor 62 may not be able to withstand the heat of the hot water heated in the heating tank 60 and may cause problems such as breakage or malfunction. Therefore, the pressure tank 40 or the water storage tank into which the relatively low temperature water is introduced Of course, it can be provided in the (20).

Next, the pipe 70 will be described.

The choir pipe 70 is a bar-shaped tube that penetrates the partition wall between the pressure tank 40 and the heating tank 60, and the pressure tank 40 at a predetermined distance from the lower end of the heating tank 60. Is formed extending. As shown, the lower end of the pipe 70 is separated from the lower end of the heating tank 60 by a distance, so that even if the water level in the heating tank 60 is lowered, the heated hot water smoothly the pressure tank 40 Can be exported to.

The above-mentioned partition wall between the storage tank 20 and the pressure tank 40 and the partition wall between the pressure tank 40 and the heating tank 60 are provided with a pressure safety valve 42 to prevent explosion due to pressure overload. desirable.

The pressure safety valve 42 is immediately opened when the pressure range beyond the endurable pressure range, and discharges the steam and water in the pressure tank 40 to the reservoir tank 20 to balance the overall pressure in the hot water circulation system It is possible to prevent the risk of explosion by making it possible, and it is preferable that the pressure safety valve 32 is set to be blocked at the same time the devices in the hot water circulation device.

Wherein the pressure safety valve 42 is the pressure tank 40 of three minutes of the limit pressure that the pressure tank 40 can withstand in advance to prevent the operation error and explosion risk of the hot water circulation system due to pressure overload It is preferable to install it so as to operate immediately when it reaches 2 degrees, and the pressure safety valve 42 having a pressure limit suitable for the durability that the pressure tank 40 can withstand should be appropriately selected by those skilled in the art.

In addition, when the pressure safety valve 42 is operated due to pressure overload, only the fault warning lamp of the hot water circulation device is operated so that the user may immediately request A / S.

According to the embodiment described above, the operation principle of the present invention is as follows.

First, when water is replenished into the water storage tank 20 through the inlet 80, the water is filled into the pressure tank 40 through the first valve 30, and then again through the second valve 50, the heating tank 60. ) Will be filled with water. Then, when the user inputs the desired temperature through the temperature control button installed on the outside of the hot water circulation device, the heater 64 installed on the lower side of the heating tank 60 operates to heat the water. The heated hot water moves to the pressure tank 40 through the pipe 70 due to the steam pressure in the heating tank 60 and is diluted with the water in the pressure tank 40, and at the same time, the steam pressure in the heating tank 60. Is lowered so that the water in the pressure tank 40 is introduced into the heating tank 60 again. By repeating this process, the water in the pressure tank 40 is diluted with the hot water introduced from the heating tank 60 to gradually increase the temperature, and the temperature becomes constant to increase the steam pressure, thereby increasing the pressure tank 40 and the heating tank. The vapor pressure of 60 is in equilibrium. When the heater 64 continues to be heated while the steam pressure is balanced in this manner, and the steam pressure is higher than a predetermined level, the check valve 46 formed at the outlet 48 of the pressure tank 40 is opened and heated. Hot water is discharged into the hot water pipe. The hot water discharged in this way circulates through the hot water pipe 10 and flows back into the water storage tank 20. At this time, the steam pressure in the pressure tank 40 and the heating tank 60 is lowered so that the water in the water storage tank 20 is moved back to the pressure tank 40 through the first valve 30. When the temperature is input by the user by repeating the above process, the temperature sensor 44 installed in the pressure tank detects this and stops the operation of the heater 64 through the control unit. Through this series of processes, the user can appropriately adjust the desired temperature, and the hot water can be circulated only by the steam pressure.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims that follow may be better understood. It should be appreciated by those skilled in the art that the above-described concepts and specific embodiments of the present invention can be used immediately as a basis for designing or modifying other shapes for carrying out similar objects to the present invention.

In addition, the above-described embodiment is only one embodiment according to the present invention, and various modifications and changes may be made by those skilled in the art within the scope of the technical idea of the present invention. These various modifications and changes are also within the scope of the technical idea of the present invention, and will be included in the claims of the present invention described below.

1: hot water circulation system 10: hot water pipe
20: reservoir tank 28: inlet
30: first valve 32: opening and closing port
40: pressure tank 42: pressure safety valve
44: temperature sensor 46: check valve
48: outlet 50: second valve
60: heating tank 62: water level sensor
64: heater 70: piping
80: injection hole 90: pressure sensing unit
100: hot water mat

Claims (5)

In the hot water circulation device for circulating hot water circulating the hot water pipe using the steam pressure,
A water storage tank in which hot water circulated through the hot water pipe flows through an inlet;
A pressure tank formed at a lower portion of the reservoir tank to discharge hot water to the hot water pipe through an outlet;
A first valve formed through the partition between the reservoir tank and the pressure tank to control the flow of water in one direction;
A heating tank formed under the pressure tank to heat hot water;
A second valve formed through the partition wall between the pressure tank and the heating tank to control the flow of water in one direction; And
And a pipe for penetrating the partition wall between the pressure tank and the heating tank to discharge the heated hot water to the pressure tank.
The opening and closing port of the first valve is formed to protrude into the pressure tank so that the air layer is formed on the upper portion of the pressure tank by the interval in which the opening and closing port,
The pipe is formed to extend to a position relatively higher than the opening and closing of the first valve so that the top end of the pipe is exposed to the air layer, characterized in that the hot water circulation device using steam pressure. The method of claim 1,
The partition between the reservoir tank and the pressure tank and the partition between the pressure tank and the heating tank is installed with a pressure safety valve to prevent explosion due to pressure overload, characterized in that the hot water circulation device using steam pressure. The method of claim 1,
On the lower side of the pressure tank is a hot water circulation apparatus using a steam pressure, characterized in that the temperature sensor is installed at a predetermined interval with the outlet to measure the hot water temperature before being discharged to the hot water pipe. The method of claim 1,
A check valve is installed at the outlet of the pressure tank to prevent a back flow of hot water flowing into the hot water pipe. The method of claim 1,
A water level detection sensor is installed on the inner side of the heating tank to measure the residual amount of water in the heating tank.

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