KR101109705B1 - Water heat tank - Google Patents

Abstract

PURPOSE: An instant hot water feeder is provided to reduce unnecessary power consumption by selectively heating a fixed amount of heating water. CONSTITUTION: An instant hot water feeder comprises a water tank(200), a pump motor(300), an instant hot water heater(400), and a heating element(500). The water tank includes an inlet port and a drain(230) and stores heating water. One end of the pump motor is connected to the drain using the connection pipe. The pump motor circulates and pumps the heating water saved in the water tank. The instant hot water heater is connected to the connection pipe to the other end of the pump motor. The heating element forms a heat flow path(530). The heating element increases the surface temperature from the fixed amount of heating water which is heated by the instant hot water heater.

Description

Instant Hot Water Supplyer {WATER HEAT TANK}

The present invention relates to a hot water supply, and in particular, by applying a hot water heater for intensively heating the heating water on the supply line for circulating the heating water, it is possible to quickly supply the heating water rapidly heated to the heating member For example, the present invention relates to an instantaneous hot water supply system, which selectively heats only a certain amount of heating water so that the heating capacity is not large and the heat dissipation area is not large.

In general, the hot water supply is to heat the heating water to a certain temperature, mainly using the water as a fluid, it is applied to the boiler, hot water cleaner (bidet) and vending machine for heating in the room as well as the water heater to use the hot water. It is becoming.

As shown in Figures 1 and 2, the conventional hot water supply 1 is largely composed of a water tank 10, a pump motor 20, a heating member 30 and a control unit, the water tank 10 Inside, a hot water heater 40 (heater) for heating the heating water and a water level sensor 50 for determining the presence or absence of the heating water or a temperature sensor 60 for measuring and controlling the temperature are built in. That is, the water tank 10 serves as a hot water heater and to receive the heating water.

Here, the conventional water tank 10 has a storage capacity of about 500cc ~ 1 liter, the pump motor 20 for circulating the heating water is connected to the lower portion of the water tank 10, the pump motor 20 is connected to the inlet of the heating member 30, the outlet of the heating member 30 is configured to be connected to the water tank (10). In addition, the water tank 10 is equipped with a fire protection device, a built-in bimetal switch or a thermal fuse (heat fuse) to prevent the fire by heating the hot water heater.

In addition, the conventional heating member 30 is installed on the bed or the floor of the room is configured as a separate product is connected to the connection pipe 70 made of a resin material such as polyvinyl chloride (PVC), urethane. Here, the connecting pipe 70 may be used by embedding the room floor.

The hot water supply unit 1 is a process of installing the heating member 30, the water tank 10, the pump motor 20, etc. in the place to be used initially, the heating member 30 and the water The process of connecting the tank 10 and the pump motor 20 to a hot water pipe is performed. After the installation is completed, the pump motor 20 is driven while supplying heating water to the water tank 10 to circulate the heating water heated to a predetermined temperature through the internal hot water pipe of the heating member 30.

In addition, when the water level sensor 50 detects that there is heating water in the water tank 10, the hot water heater is operated at a temperature preset to the controller to heat the heating water of the water tank 10, The pump motor 20 is driven to supply heated heating water into the heating member 30 to keep the heating member 30 warm.

However, the conventional hot water supply device (1) has a built-in hot water heater in the water tank (10), and heating the water while raising the temperature of the entire water tank (about 500cc ~ 1 liter) with the hot water heater. Although supplying substantially, the amount of heating water supplied to the heating member 30 is only about 400 cc, but the conventional hot water supply 1 needs to supply the heating water housed in the water tank 10 by heating the whole. This results in excessive power consumption. That is, the heating water in the heating member 30 and the heating water contained in the water tank 10 must be circulated while being heated, but unnecessary energy is needed because the unnecessary heating water of 500cc or more must be heated in addition to the approximately 400cc used for the heating member 30. There was a problem that consumption occurs.

In addition, since the entire heating water contained in the water tank 10 needs to be heated to supply heating water, heating time is inevitably high, and thus there is a problem in that heating water can not be obtained quickly, and the water tank 10 may be 70 °. If it continues to the extent, the internal temperature of the hot water supply (1) is raised to increase the temperature of the components for control or the pump motor 20, etc., there is a problem that adversely affects the life of the device.

In addition, since the heating water contained in the water tank 10 needs to be heated as a whole, the temperature distribution of the heating water is not constant and accurate temperature control is difficult. In other words, it was difficult to set the correct temperature because a large amount of heating water must be heated by a hot water heater.

Accordingly, the present invention is to solve the conventional problems as described above, by mounting the instantaneous hot water heater on the connection pipe connecting the heating motor and the pump motor for circulating the heating water to the heating water rapidly heated to the heating member By supplying rapidly heated heating water to the heating member, it is possible to supply only the heating water of a certain capacity selectively, so that the heating capacity is not large and the heating area is not large, so that the instantaneous hot water supply to reduce unnecessary power consumption is possible. The purpose is to provide.

Instantaneous hot water supply of the hot water tank according to the present invention for achieving the above object, the water tank is formed with a water outlet and a drain and stores the heating water; One end is connected by the drain and the connection pipe, the pump motor for circulating by pumping the heating water stored in the water tank; An instantaneous hot water heater connected to the other end of the pump motor by a connection pipe and instantaneously heating the heating water circulated according to the pumping operation of the pump motor; And a heating channel connected to the instantaneous hot water heater and the water tank by a connection pipe and forming a closed loop to guide the flow of the heating water, and the surface temperature of the instantaneous hot water heater by the instantaneously heated heating water. Heating member which rises; It will be configured to include.

In addition, the water outlet of the water tank, the first connection portion is connected to one end of the connection pipe connected to the pump motor; And a second connecting portion connected to the other end of a connecting pipe connected to the heating member so as to recirculate the heating water discharged from the heating member to the first connecting portion. To construct branches.

The first connector may include a backflow preventing member configured to rotate the first connector to open or block the hinge according to a water output amount of the heating water, thereby preventing the water tank and the second connector from flowing back to the second connector. And, the inner wall surface of the first connection portion is configured to protrude a locking projection to limit the range of rotation by one end of the reverse flow prevention member when the reverse flow prevention member blocking rotation.

In addition, the heating member may be a movable structure applied in the form of a hot water mat or a hot water panel, or on the other hand, may be an on-floor floor structure in which the heating flow path is embedded and constructed on the floor surface of the building.

The instantaneous hot water supply unit may further include a control unit for controlling the pump motor and the instantaneous hot water heater, and the instantaneous hot water heater senses the water temperature at a water outlet position connected to the heating member and applies the water to the controller. It is provided with a temperature sensor, and further comprises a bimetal switch or temperature fuse for stopping the power supply when the instantaneous heating temperature of the heating water is overheated at the outlet position connected to the heating member to stop the power supply It is.

In addition, the instantaneous hot water heater may be further provided with a heating element using a ceramic or stainless material to rapidly heat the heating water flowing on the surface.

As described above, the present invention is not a method of heating the heating water contained in the water tank as a whole, but a method of rapidly heating the heating water moving along the heating water supply line. Since it is not wide, there is an advantage of reducing unnecessary power consumption.

In addition, since the heating water supplied to the heating member is intensively heated on the supply line, the heating water maintained at a constant temperature can be supplied to the heating member, and the heating water can be quickly heated and quickly supplied to the heating member. have.

In addition, since the instantaneous hot water heater is provided on the heating water supply line, not the method of heating the inside of the water tank, there is an advantage of preventing the shortening of the life of the lead parts and the pump motor installed in the hot water supply.

1 is a perspective view showing a conventional hot water supply.
Figure 2 is a cross-sectional view showing a conventional hot water supply.
3 is a perspective view showing an instant hot water supply according to the present invention.
4 is a cross-sectional view showing an instant hot water supply according to the present invention.
5 is a view showing that the backflow preventing member and the engaging projection is formed in the first connection portion of the instantaneous hot water supply according to the present invention.

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

In describing the present invention, the defined terms are defined in consideration of the function of the present invention, and should not be understood in a limiting sense of the technical elements of the present invention.

As shown in Figures 3 to 5, the instantaneous hot water supply 100 according to the present invention is formed with a water supply port 220 and the drain port 230, the water tank 200 for storing the heating water, and the drain port 230 One end is connected by the connecting pipe 600, the pump motor 300 for circulating by pumping the heating water stored in the water tank 200, and the connection pipe 600 to the other end of the pump motor 300 Is connected to, the instantaneous hot water heater 400 for instantaneously heating a predetermined amount of the heating water pumped according to the pumping operation of the pump motor 300 and the temperature of the heating water instantaneously, and the instantaneous hot water heater ( 400 and a heating passage 530 which is connected to the water tank 200 and constitutes a closed loop to guide the flow of the heating water, and from the instantaneous hot water heater 400, a predetermined amount of heating water is instantaneously heated. It includes a heating member 500 is a surface temperature rise. In addition, a controller (not shown) for controlling the components may be provided.

The water tank 200 is configured as a supplementary tank concept in order to replenish heating water that evaporates or lacks heating water. Unlike the conventional water tank, the water tank 200 is used only for accommodating heating water.

As described above, the water tank 200 of the present invention forms a predetermined space portion 210 therein to accommodate the heating water, and the water supply port 220 provided in the water tank 200 supplies the heating water. In addition to the role for the pressure outlet for discharging the pressure in the water tank 200 may also be performed. In addition, the water inlet 220 provided in the water tank 200 may be provided with a separate detachable stopper (not shown) in a screwing manner.

The water tank 200 further includes a water level sensor 240 that determines whether there is heating water and prevents the pump motor 300 and the instantaneous hot water heater 400 from operating when there is no heating water. The water level sensor 240 may be coupled such that one end for sensing through the upper portion of the water tank 200 is inserted into the space 210. Here, an upper end of the water level sensor 240 is positioned to be exposed to the outside, and a cable connected to the controller may be connected to the upper end of the water level sensor 240.

In addition, the water tank 200 extends from the drain port 230, the first connection portion 231 to which one end of the connection pipe 600 is connected to the pump motor 300 and the first connection portion 231 of A second connection part 232 is connected to the other end of the connection pipe 600 connected to the heating member 500 is branched to the side, the second connection portion 232 is a heating flow path of the heating member (500) ( In order to guide the heating water discharged from the heat exchanger 530 to the first connector 231.

That is, the first connecting portion 231 is formed vertically to discharge the heating water stored in the water tank 200 to the pump motor 300, the second connecting portion 232 is formed horizontally and the heating member The heating water that is heat-exchanged from 500 serves to recycle to the drain port 230 and the first connection portion 231 of the water tank 200.

In addition, as shown in FIG. 5, in the inside of the first connector 231, a countercurrent flows open or closed about a hinge (not shown) so that the heating water does not flow back to the drain port 230 side of the water tank 100. The prevention member 250 is configured, and the closing rotation of the backflow prevention member 250 is configured to be caught by the locking protrusion 260 configured to protrude from the inner wall surface of the first connector 231.

The backflow preventing member 250 has the same shape as the inner diameter of the first connecting portion 231. In addition, when one end rotated is caught by the locking protrusion 260 to maintain a horizontal state, the inner diameter of the first connection part 231 is completely blocked, thereby preventing the back water from flowing back.

On the contrary, when the other side is opened and rotated downward by the pressure of the heating water with respect to one side of the backflow preventing member 250, the heating water accommodated in the water tank 200 is discharged downward. The backflow preventing member 250 may be made of synthetic resin or rubber material.

The pump motor 300 is provided with a third connection part 310 which is an inlet at one end thereof so as to be connected to the first connection part 231 of the water tank 200 by the connection pipe 600, and at the other side, the instantaneous hot water heater The fourth connector 320 is connected to the 400.

The aforementioned connection pipe 600 connects the first connection part 231 and the third connection part 310 of the pump motor 300, and the fourth connection part 320 and the instantaneous hot water heater of the pump motor 300. It will connect the acquisition site of (400). Then, the outlet portion of the instantaneous hot water heater 400 and the fifth connector 510 of the heating member 500 to be described later are connected, and the sixth connector 520 and the water tank 200 of the heating member 500 to be described later. Connect the second connecting portion 232 of each). Here, the connection pipe 600 may be made of a metal or synthetic resin material according to the installation purpose.

The heating member 500, after completing the installation on the portion (bed, floor, etc.) to be installed, is supplied with hot water heated through the instantaneous hot water heater 400 to maintain a constant room temperature, heat exchange is complete The heating water made up is delivered to the water tank 200 again.

To this end, one side of the heating member 500 is provided with a fifth connection portion 510 which is a water supply port so that the hot water is supplied, and the other side is provided with a sixth connection portion 520 which is a drain hole so that hot water is discharged. do.

In addition, the inside of the heating member 500 is zigzag to move the hot water received to one side through the fifth connector 510 which is a water supply port to discharge the heating water through the fifth connector 510.

At this time, the hot water discharged through the sixth connection portion 520 enters the second connection portion 232 of the water tank 200 described above along the connection pipe 600 back to the space portion 210 of the water tank 200. Are accepted. Here, the heating member 500 may be applied by changing to a variety of materials and forms according to the installation position, such as synthetic resin, fabric and metal.

As described above, the heating member 500 may be provided as a movable structure applied in the form of hot water mat or hot water panel. On the other hand, the heating member may be provided with an on-floor floor structure that the heating flow path is embedded and installed on the floor surface in the building.

That is, when the heating member 500 is manufactured as a movable structure, the heating member 500 may be used on a floor or a bed that requires heating. When the heating member 500 is provided as an ondol floor structure, the heating member 500 may be used as an ondol floor of a general home.

The instantaneous hot water heater 400 is installed on a connection pipe 600 connecting the pump motor 300 and the sixth connection part 520 of the heating member 500 to move along the connection pipe 600. For instantaneous heating, in order to rapidly heat the heating water flowing on the surface, a heating element (not shown) using a ceramic or stainless may be provided. In addition, the instantaneous hot water heater 400 may be provided with a separate connection part (not shown) in which the connection pipe 600 is connected to obtain or discharge the heating water.

The instantaneous hot water heater 400 may be further provided with a temperature sensor 410 for detecting the water temperature at the water outlet position connected to the heating member 500. That is, the temperature sensor 410 applies the sensed temperature to the controller, and when the sensed temperature is greater than or equal to the temperature preset by the controller, the controller is a hot water heater so as not to rise above the preset temperature ( The ON / OFF driving of the 400 may be controlled.

In addition, the instantaneous hot water heater 400 is provided in the water discharge position connected to the heating member 500, a bimetal (420) for stopping the operation by shutting off the power supply so that the temperature no longer rises when overheating occurs A switch or thermal fuse 430 may be provided.

Hereinafter, the operating state of the instant hot water supply 100 according to the present invention.

First, when the pump motor 300 and the instant hot water heater 400 of the instant hot water supply 100 are driven, the heating water received in the water tank 200 flows into the pump motor 300 through the first connection part 231. The heating water passing through the pump motor 300 is introduced into the heating member 500 through the instantaneous hot water heater 400.

At this time, since the instantaneous hot water heater 400 heats the moving water moving instantaneously, the heating water of the appropriate temperature is instantaneously supplied to the heating member 500. In addition, the temperature sensor 410 provided at the outlet of the instantaneous hot water heater 400 senses the temperature of the heated water to be applied to the control unit so that the heating water of a constant temperature can be supplied to the heating member 500.

Next, the heating water circulated along the heating passage 530 of the heating member 500 is introduced again into the second connection portion 232 of the water tank 200 through the outlet of the heating member 500.

In addition, the pump motor 300 is operated to circulate the heating water in a state where the water is completely filled in the heating member 500. At this time, the heating water of the water tank 200 remains as it is, and the heating member 500 Heating water discharged to the outlet port is introduced into the pump motor 300, only the heating water of the heating member 500 is circulated. That is, the water pressure is generated by the pump motor 300 so that the heating water of the water tank 200 does not flow into the heating member 500.

In addition, the heating water transferred to the pump motor 300 by the backflow preventing member 250 installed in the first connection unit 231 does not flow back into the water tank 200. Therefore, the heating water accommodated in the water tank 200 is not heated at all, so that unnecessary energy consumption is not generated at all.

As a result, the present invention is not a method of heating the heating water contained in the water tank 200 as a whole, but a method of rapidly heating the heating water moving along the heating water supply line. It is not wide and can reduce unnecessary power consumption.

Further, since the heating water supplied to the heating member is intensively heated on the supply line, the heating water maintained at a constant temperature can be supplied to the heating member, and the heating water can be quickly heated to supply the heating member.

In addition, the instantaneous hot water heater 400 is provided on the heating water supply line, not the method of heating the inside of the water tank 200, thereby preventing shortening of lifespan of lead parts and pump motors installed in the hot water supply. can do.

In the above, the technical idea of the instantaneous hot water supply device 100 has been described with the accompanying drawings, but this is only illustrative of the best embodiment of the present invention and not intended to limit the present invention.

Accordingly, it is a matter of course that various modifications and variations of the present invention are possible without departing from the scope of the present invention. And are included in the technical scope of the present invention.

100: hot water supply 200: water tank
210: space portion 220: water supply port
230: drain port 231: first connection portion
232: second connection portion 240: water level sensor
250: backflow prevention member 260: locking projection
300: pump motor 310: third connection portion
320: fourth connection portion 400: instantaneous hot water heater
410: temperature sensor 420: bimetal
430: temperature fuse 500: heating member
510: fifth connector 520: sixth connector
530: heating path 600: connector

Claims (6)

A water tank, in which a water supply port and a drain port are formed and store heating water; One end is connected by the drain and the connection pipe, the pump motor for circulating by pumping the heating water stored in the water tank; An instantaneous hot water heater connected to the other end of the pump motor by a connection pipe and instantaneously heating the heating water circulated according to the pumping operation of the pump motor; And a heating passage connected to the instantaneous hot water heater and the water tank by a connection pipe to form a closed loop to guide the flow of the heating water, and the surface temperature of the instantaneous hot water heater by the instantaneously heated heating water. A heating member comprising a hot water mat or a hot water panel which is movable to rise; And including
In the drain port of the water tank to form a first connecting portion to which one end of the connecting pipe connected to the pump motor,
One end of the first connection portion is provided with heating water in the water tank, and when the heating water is circulated by the operation of the pump motor, the circulation of the heating water filled in the water tank is prevented from being made through the outlet of the heating member. Branching the second connecting portion is connected to the other end of the connection pipe connected to the heating member so that the discharged heating water is recirculated to the pump motor through the first connecting portion with the water pressure according to the operation of the pump motor. Instant hot water supply. delete The method of claim 1,
Inside the first connection portion is formed a backflow prevention member for preventing the heating water backflow to the water tank and the second connection portion by rotating to open or block the first connection portion around the hinge in accordance with the amount of water discharged,
Instantaneous hot water supply, characterized in that the inner wall surface of the first connecting portion protrudes the locking projection to limit the rotation range by one end of the reverse flow prevention member is locked when the reverse flow prevention member is rotated. delete delete The method of claim 1,
The instantaneous hot water supply is further provided with a control unit for controlling the pump motor and the instant hot water heater,
The instantaneous hot water heater is provided with a temperature sensor for sensing the water temperature at the outlet position connected to the heating member and applying it to the control unit, the instantaneous heating temperature of the heating water is provided at the outlet position connected to the heating member The instantaneous hot water supply, characterized in that it further comprises a bimetal switch or a temperature fuse for shutting off the power supply when overheating to stop the instantaneous heating operation.

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