KR200406508Y1 - Apparatus for draining warm water - Google Patents

Abstract

The present invention relates to a hot water drainage device. Hot water drainage device according to the present invention, the boiler for heating and draining the water obtained; An inlet pipe through which water of a constant temperature is supplied to the boiler; A water supply regulator for mixing and draining hot water obtained from the boiler and cold water obtained from the water supply; A hot water pipe for receiving water drained from the boiler to the water supply controller; A circulation pipe connecting one point of the hot water pipe and one point of the water inlet pipe; A pump installed at one point of the circulation pipe and receiving water from the hot water pipe through the circulation pipe; A temperature sensor for measuring a temperature of water in the hot water pipe; A first valve installed at a point at which the inlet pipe and the circulation pipe are connected to control the flow path; A second valve installed at a point where the hot water pipe and the circulation pipe are connected to control the flow path; And receiving information about the temperature of the water measured by the temperature sensor, and when the temperature is lower than a preset temperature, controls the state of the first valve and the second valve, and operates the pump so that the water in the hot water pipe is circulated. And a microcomputer for controlling the water inlet pipe to circulate. Accordingly, when not using the hot water for a long time, it is possible to eliminate the problem that all the cold water remaining in the hot water pipe between the boiler from the boiler until the hot water comes out.

Hot water, hot water, hot water drainage, boiler, hot water supply

Description

Hot water drainage device {APPARATUS FOR DRAINING WARM WATER}

1 is a view showing the configuration of a conventional hot water drainage device.

2 is a view showing the configuration of a hot water drainage device according to the first embodiment of the present invention.

Figure 3 is a view showing the configuration of a hot water drainage device according to a second embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100,200,300: hot water drainage

110,210,310: Boiler 120,220,320: Water pipe

130,230,330: Water supply regulator 131,231,331: Adjustment knob

140,240,340: hot water pipe 345: drain pipe

146,246,346: Shower period 250,350: Circulation pipe

260,360 Pump 270 Temperature sensor

370: hydraulic sensor 280a, 380a: first valve

280b, 380b: Second valve 290, 390: Microcomputer

The present invention relates to a hot water drainage device, when the hot water is not used for a long time after adjusting the water regulator to use hot water, the hot water drainage to immediately come out without the inconvenience to wait until the hot water comes out It is about.

1 is a view showing the configuration of a conventional hot water drainage device (100). As shown in FIG. 1, the conventional hot water drainage device 100 includes a boiler 110, an inlet pipe 120, a water supply controller 130, and a hot water pipe 140.

The boiler 110 heats the water obtained from the water supply through the inlet pipe 120 and drains it through the hot water pipe 140.

The water supply controller 130 mixes hot water obtained through the hot water pipe 140 and cold water directly obtained from the water supply, and drains an appropriate amount of water through the shower 146. In general, the operation of draining and locking the water, the operation of adjusting the mixing ratio of hot and cold water, and the operation of adjusting the pressure are performed by manually adjusting the adjustment knob 131 of the water supply controller 130.

However, when the hot water drainage device 100 does not use hot water for a long time, water between the boiler 110 and the water supply controller 130, that is, the water in the hot water pipe 140 cools, in which case the water supply controller 130 is used. If you drain the water by operating, there is an inconvenience to wait until the heated hot water from the boiler 110 is reached. This problem is more serious as the distance between the boiler 110 and the water supply controller 130 is far more serious, and since the amount of cold water to be discarded is not small, it is a serious waste of water resources.

The present invention was devised to solve the problems as described above, by measuring the temperature of the water in the hot water pipe, when the temperature falls below the set temperature, the circulation pipe is installed to heat the water in the hot water pipe again through the boiler By doing so, the water in the hot water pipe is always kept in a warm state, the purpose of providing a technology to enable the hot water immediately when the water regulator is operated.

Hot water drainage device according to the present invention for achieving the above object, the boiler for heating and draining the water obtained; An inlet pipe through which water of a constant temperature is supplied to the boiler; A water supply regulator for mixing and draining hot water obtained from the boiler and cold water obtained from the water supply; A hot water pipe for receiving water drained from the boiler to the water supply controller; A circulation pipe connecting one point of the hot water pipe and one point of the water inlet pipe; A pump installed at one point of the circulation pipe and receiving water from the hot water pipe through the circulation pipe; A temperature sensor for measuring a temperature of water in the hot water pipe; A first valve installed at a point at which the inlet pipe and the circulation pipe are connected to control the flow path; A second valve installed at a point where the hot water pipe and the circulation pipe are connected to control the flow path; And receiving information about the temperature of the water measured by the temperature sensor, and when the temperature is lower than a preset temperature, controls the state of the first valve and the second valve, and operates the pump so that the water in the hot water pipe is circulated. And a microcomputer for controlling the water inlet pipe to circulate.

In addition, the hot water drainage device according to the present invention for achieving the above object, a boiler for heating and draining the water obtained; An inlet pipe through which water of a constant temperature is supplied to the boiler; A water supply regulator for mixing and draining hot water obtained from the boiler and cold water obtained from the water supply; A hot water pipe for receiving water drained from the boiler to the water supply controller; A drain pipe for draining the water drained from the water regulator; A circulation pipe connecting one point of the drain pipe and one point of the water inlet pipe; A pump installed at one point of the circulation pipe and receiving water from the hot water pipe through the circulation pipe; A hydraulic sensor for detecting whether water in the hot water pipe is introduced into the water supply controller; A first valve installed at a point at which the inlet pipe and the circulation pipe are connected to control the flow path; A second valve installed at a point at which the drain pipe and the circulation pipe are connected to control the flow path; And receiving information that detects the inflow of the hot water pipe water from the hydraulic sensor, and when detecting the inflow of the hot water pipe water, controls the states of the first valve and the second valve, and operates the pump for a predetermined time. And a microcomputer for controlling the water of the drain pipe to circulate the circulation pipe, the inlet pipe, and the hot water pipe.

Here, the microcomputer may be installed in the boiler.

Hereinafter will be described with reference to the preferred embodiment to understand in more detail with respect to the present invention described above.

< First embodiment >

2 is a hot water drainage device 200 according to the first embodiment of the present invention. As shown in FIG. 2, the hot water drainage device 200 according to the first embodiment of the present invention includes a boiler 210, an intake pipe 220, a water supply controller 230, a hot water pipe 240, and a circulation pipe. 250, a pump 260, a temperature sensor 270, a first valve 280a, a second valve 280b, and a microcomputer 290.

The boiler 210 heats and drains the water obtained from the water supply through the inlet pipe 220.

The water supply controller 230 mixes the hot water heated in the boiler 210 through the hot water pipe 240 and the cold water directly reached from the water supply and drains the water through the shower 246 or the faucet (not shown). The adjustment of the water supply controller 230 is made by manually adjusting the adjustment knob 231, and can control both the drainage, the lock, and the blending amount of hot and cold water.

The hot water pipe 240 obtains the water drained from the boiler 210 to the water supply controller 230.

The circulation pipe 250 connects one point of the hot water pipe 240 and one point of the inlet pipe 220 to create a circulation flow path. At this time, the point where the circulation pipe 250 and the hot water pipe 240 are connected is to be as close as possible to the water supply controller 230. This is to circulate all the water in the hot water pipe 240. In addition, the point where the circulation pipe 250 and the inlet pipe 220 is connected to be as close as possible to the boiler 210. This is to shorten the length of the circulating flow path made through the hot water pipe 240, the circulation pipe 250 and the inlet pipe 220 as much as possible, that is, to reduce the amount of water in the standby state to always make the water in the hot water state as much as possible. For sake.

The pump 260 is installed at one point of the circulation pipe 250 and receives the water of the hot water pipe 240 into the water supply pipe 220 through the circulation pipe 250. That is, it is a power device for circulating the water in the circulation flow path made through the hot water pipe 240, the circulation pipe 250 and the inlet pipe 220.

The temperature sensor 270 measures the temperature of the water in the hot water pipe 240.

The first valve 280a is installed at a point where the inlet pipe 220 and the circulation pipe 250 are connected to control the flow path. The state of the first valve 280a is automatically controlled by the microcomputer 290 described later.

The second valve 280b is installed at the point where the hot water pipe 240 and the circulation pipe 250 are connected to control the flow path. In addition, like the first valve 280a, the microcomputer 290 is automatically controlled.

The microcomputer 290 receives information on the temperature of the water measured by the temperature sensor 270, and the first valve 280a when the temperature of the water received from the temperature sensor 270 is lower than the preset temperature in comparison with the preset temperature. And control the state of the second valve 280b, and also operates the pump 260 so that the water in the hot water pipe 240 circulates the circulation pipe 250 and the water inlet pipe 220.

Referring to the operation according to the first embodiment of the present invention described above, if the hot water is not used for a long time, the water in the hot water pipe 240 is cooled. The temperature sensor 270 measures the temperature of the water in the hot water pipe 240 periodically or in real time and transmits information on the measured temperature of the water to the microcomputer 290. In this case, the microcomputer 290 is the hot water pipe 240 Recognizing that the temperature of the lower than the predetermined temperature, and changes the state of the first valve (280a) and the second valve (280b) along the hot water pipe 240, circulation pipe 250 and inlet pipe 220 Create a circulation channel that allows water to flow. Meanwhile, the microcomputer 290 operates the pump 260 to allow water to flow along the circulation passage. Therefore, the boiler 210 recognizes the flow of water and heats and drains the water coming through the inlet pipe 220. Since the water in the hot water pipe 240 is heated again to increase the temperature, the microcomputer 290 recognizes that the information about the temperature of the water in the hot water pipe 240 measured and transmitted by the temperature sensor 270 is higher than the preset temperature. Then, the state of the first valve 280a and the second valve 280b which formed the circulation passage is restored to its original state. That is, the first valve 280a changes the state so that the water of the constant water can be obtained into the boiler 210 through the inlet pipe 220, and the second valve 280b is the water drained from the boiler 210. The hot water pipe 240 changes the state so that it can be obtained through the water supply controller 230. In addition, the pump 260 is stopped. Accordingly, the water in the hot water pipe 240 can always be maintained in a heated state, by adjusting the control knob 231 of the water supply regulator 230 to drain the water through the shower 246, the hot water immediately comes out. .

On the other hand, the microcomputer 290 may be installed separately from the boiler 210 or the water regulator 230, as shown in the drawing, it may be included in the boiler 210 to be installed.

< Second embodiment >

3 is a hot water drainage device 300 according to a second embodiment of the present invention. As shown in FIG. 3, the hot water drainage device 300 according to the second embodiment of the present invention includes a boiler 310, an inlet pipe 320, a water supply controller 330, a hot water pipe 340, and a drain pipe ( 345, a circulation pipe 350, a pump 360, a hydraulic sensor 370, a first valve 380a, a second valve 380b, and a microcomputer 390.

The boiler 310 heats and drains the water obtained from the water supply through the inlet pipe 320.

The water supply controller 330 mixes the hot water heated in the boiler 310 through the hot water pipe 340 and the cold water directly reached from the water supply to provide a shower 346 or a faucet (not shown) through the drain pipe 345. Drain through. The adjustment of the water supply controller 330 is made by manually adjusting the adjustment knob 331, it is possible to adjust both the drainage, lock and the amount of mixing of hot and cold water. The faucet may be a drain pipe 345 through which water is drained through the water regulator 330.

The hot water pipe 340 receives the water drained from the boiler 310 in the water supply controller 330.

The drain pipe 345 drains the water drained from the water regulator 330.

The circulation pipe 350 connects one point of the drain pipe 345 and one point of the inlet pipe 320 to create a circulation flow path. At this time, the point where the circulation pipe 350 and the drain pipe 345 are connected to the water supply controller 330 as close as possible, the point where the circulation pipe 350 and the water inlet pipe 320 is connected to the boiler 310 Try to be as close as possible. This allows to circulate all the water in the hot water pipe 340, so as to shorten the length of the circulating flow path made through the hot water pipe 340, drain pipe 345, circulation pipe 350 and inlet pipe 320 as short as possible That is, in order to minimize the amount of water in the standby state to make the water always hot water.

The pump 360 is installed at one point of the circulation pipe 350 and receives water from the drain pipe 345 into the water supply pipe 320 through the circulation pipe 350. That is, it is a power device for circulating the water in the circulation passage made through the hot water pipe 340, the drain pipe 345, the circulation pipe 350 and the water inlet pipe 320.

The hydraulic sensor 370 detects whether water in the hot water pipe 340 flows into the water regulator 330. On the other hand, Figure 3 shows that the hydraulic sensor 370 is installed in the water regulator 330, the position of the hydraulic sensor 370 is not limited to the water regulator 330.

The first valve 380a is installed at a point where the inlet pipe 320 and the circulation pipe 350 are connected to control the flow path. The state of the first valve 380a is automatically controlled by the microcomputer 390 described later.

The second valve 380b is installed at a point where the drain pipe 345 and the circulation pipe 350 are connected to control the flow path. In addition, like the first valve 380a, the microcomputer 390 is automatically controlled.

The microcomputer 390 receives information that detects the inflow of the hot water pipe 340 from the hydraulic sensor 370, and when detecting the inflow of the hot water pipe 340, the first valve 380a and the second valve ( 380b), and also operates the pump 360 so that the water in the drain pipe 345 circulates through the circulation pipe 350, inlet pipe 320 and hot water pipe 340 for a predetermined time.

Referring to the operation according to the second embodiment of the present invention described above, if the hot water is not used for a long time, the water in the hot water pipe 340 is cooled. At this time, by adjusting the water supply controller 330 to use hot water to flow the water from the hot water pipe 340 into the water supply controller 330, the hydraulic sensor 370 transmits the information that the water flows to the microcomputer 390. The microcomputer 390 changes the states of the first valve 380a and the second valve 380b so that water flows along the drain pipe 345, the circulation pipe 350, the inlet pipe 320, and the hot water pipe 340. Create a circulation flow path. On the other hand, the microcomputer 390 operates the pump 360 so that water flows along the circulation passage. Therefore, the boiler 310 recognizes the flow of water and heats and drains the water coming through the inlet pipe 320. The microcomputer 390 operates the pump 360 for a predetermined time so that the water is heated along the circulation flow path, and when the predetermined time passes, the first valve 380a and the second valve 380b which have formed the circulation flow path. Restore the original. That is, the first valve 380a changes the state so that the water of the constant electric power can be obtained into the boiler 310 through the inlet pipe 320, and the second valve 380b is drained from the water supply regulator 330. The state changes so that water can escape through the shower 346. In addition, the pump 360 is stopped.

Accordingly, when the water supply controller 330 is adjusted to use hot water, the water in the hot water pipe 340 that has cooled down for a predetermined time is heated, and after the predetermined time, the hot water can be drained and used immediately, until the hot water comes out. The loss of having to discard the cold water in the hot water pipe 340 may be prevented.

Meanwhile, the microcomputer 390 may be installed separately from the boiler 310 or the water supply controller 330 as shown in the drawing, or may be installed by being included in the boiler 310.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but the above-described embodiment is only described with reference to a preferred example of the present invention, the present invention is limited to the above embodiments only It should not be understood that the scope of the present invention is to be understood by the claims and equivalent concepts described below.

As described in detail above, according to the present invention, hot water can be immediately discharged without the inconvenience of having to wait for all the cold water that has accumulated from the boiler to the water supply controller to use hot water. There is an effect that can prevent the waste of water resources caused by throwing away the cold water.

Claims (3)

A boiler for heating and draining the water obtained; An inlet pipe through which water of a constant temperature is supplied to the boiler; A water supply regulator for mixing and draining hot water obtained from the boiler and cold water obtained from the water supply; A hot water pipe for receiving water drained from the boiler to the water supply controller; A circulation pipe connecting one point of the hot water pipe and one point of the water inlet pipe; A pump installed at one point of the circulation pipe and receiving water from the hot water pipe through the circulation pipe; A temperature sensor for measuring a temperature of water in the hot water pipe; A first valve installed at a point at which the inlet pipe and the circulation pipe are connected to control the flow path; A second valve installed at a point where the hot water pipe and the circulation pipe are connected to control the flow path; And Receives information about the temperature of the water measured by the temperature sensor, and when the temperature is lower than the preset temperature, and controls the state of the first valve and the second valve, by operating the pump to the water of the hot water pipe is the Hot water drainage device comprising a; microcomputer to control the inlet pipe. A boiler for heating and draining the water obtained; An inlet pipe through which water of a constant temperature is supplied to the boiler; A water supply regulator for mixing and draining hot water obtained from the boiler and cold water obtained from the water supply; A hot water pipe for receiving water drained from the boiler to the water supply controller; A drain pipe for draining the water drained from the water regulator; A circulation pipe connecting one point of the drain pipe and one point of the water inlet pipe; A pump installed at one point of the circulation pipe and receiving water from the hot water pipe through the circulation pipe; A hydraulic sensor for detecting whether water in the hot water pipe is introduced into the water supply controller; A first valve installed at a point at which the inlet pipe and the circulation pipe are connected to control the flow path; A second valve installed at a point at which the drain pipe and the circulation pipe are connected to control the flow path; And Receives the information that detects the inflow of the hot water pipe water from the hydraulic sensor, when detecting the inflow of hot water pipe water, controls the state of the first valve and the second valve, and operates the pump for a predetermined time And a microcomputer for controlling the water in the drain pipe to circulate the circulation pipe, the water supply pipe, and the hot water pipe. The method according to claim 1 or 2, The microcomputer is a hot water drainage, characterized in that installed in the boiler.

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