KR101014677B1 - Non-motorized water boiler - Google Patents

Abstract

PURPOSE: A hot-water boiler for a mat, in which a temperature maintaining function is improved, is provided to increase the circulation amount of hot water by supplying hot water twice in one circulating cycle. CONSTITUTION: A hot-water boiler for a mat comprises a heating bath(100), an outlet bath, an absorbing bath and a reservoir(400). A first valve connects the heating bath and the outlet bath. A second valve connects the absorbing bath and the reservoir. A third valve connects the heating bath and the absorbing bath. A fourth valve connected the outlet bath and the reservoir.

Description

Non-motorized water boiler for mats

The present invention relates to a non-powered hot water boiler for the mat, and more particularly to a non-powered hot water boiler for improving the temperature holding performance of the mat.

Non-powered hot water boiler for the mat generally refers to that does not include a separate power source for circulating the heated water to the mat, Korean Patent Registration No. 10-0918522 discloses a conventional non-powered hot water boiler. In the conventional non-powered hot water boiler for mat, as shown in Figure 1, when the water of the heating tank 1 is heated by the operation of the heating device, the second check valve (b) is closed by the expansion pressure generated during heating, The first check valve (a) is opened so that the heated water passes through the first check valve (a) and moves to the reservoir (2). Then, when the operation of the heating device stops, the inside of the heating tank gradually cools ( When the inside of the heating tank 1 is condensed, the first check valve a is closed, the second check valve b is opened, the water in the mat A is sucked in, and the storage tank 2 is closed. It is comprised so that the heated warm water inside may be moved to mat A. FIG. Therefore, according to the prior art, the heated water of the storage tank 2 is only mated until the operation of the heating device of the next operation stroke starts from the moment when the operation of the heating device stops in the operation stroke of the heating device and the condensation pressure is generated. Is moved to A).

This prior art has a disadvantage that the temperature response time of the mat (A) is low because the amount of hot water circulation to the mat (A) is small.

The problem to be solved by the present invention is to provide a non-powered hot water boiler for the mat that can supply two hot water in one circulation cycle to increase the amount of hot water circulation.

According to one aspect of the invention, there is provided a non-powered hot water boiler for the mat including a heating tank in which the expansion pressure and condensation pressure is generated by the operation of the heating device, the discharge tank is stored, the absorption tank and the storage tank, this hot water boiler The first valve is connected to the heating tank and the discharge tank, and opened only when there is an expansion pressure of the heating tank; A third valve connecting the heating tank and the absorption tank to be opened only when there is a condensation pressure of the heating tank; A second valve connecting the absorption tank and the storage tank and opened only when there is an expansion pressure of the heating tank; The discharge tank and the storage tank is connected, but includes a fourth valve that opens only when there is a condensation pressure of the heating tank, one side of the pipe passing through the mat is connected to the discharge tank, the other side of the pipe is connected to the absorption tank.

According to one embodiment, the absorption tank may be a "T" shaped pipe connected to the second valve, the third valve and the mat, respectively.

According to an embodiment, the boiler may further include an auxiliary heating device installed in the absorption tank to heat water in the discharge tank at a temperature such that water vapor is not generated in the absorption tank.

According to an embodiment, the boiler may further include an auxiliary heating device installed in the discharge tank to heat the water in the discharge tank at a temperature such that water vapor is not generated in the discharge tank. The auxiliary heating device of the discharge tank compensates for the temperature lost when water in the reservoir is sucked into the discharge tank and mixed when the heating device of the heating tank is stopped.

According to one embodiment, the first valve, the second valve, the third valve and the fourth valve is preferably a check valve.

According to another aspect of the present invention, a non-powered hot water boiler for the mat, the discharge tank connected to the water inlet side of the pipe passing through the mat; A heating tank for generating an expansion pressure and a condensation pressure by operating or stopping a heating device, and sending water to the discharge tank through a first valve when the expansion pressure is generated; An absorption tank connected to the water discharge side of the pipe passing through the mat and sending water to the heating tank through a third valve when the condensation pressure is generated; And a water reservoir receiving water from the absorption tank through the second valve when the expansion pressure is generated and sending water to the discharge tank through the fourth valve when the condensation pressure is generated.

According to another aspect of the invention, the heating tank is installed; A storage tank in which water is stored in contact with the heating tank; First and third valves respectively connected to the heating bath; Including a second valve and a fourth valve connected to the reservoir, one side of the pipe passing through the mat is connected to the first valve and the fourth valve, the other side of the pipe passing through the mat is the second valve and the third valve Is connected to.

According to another aspect of the invention, the heating tank is installed; A storage tank in contact with the heating tank and storing water; A first valve and a second valve opened by the expansion pressure of the heating bath to allow the flow of water from the heating bath to the mat and from the mat to the reservoir; A hot water boiler is provided that includes a third valve and a fourth valve that are opened by the condensation pressure of the heating bath and allow the flow of water from the mat to the heating bath and from the reservoir to the mat.

At this time, the first valve and the fourth valve is branched from one side of the pipe passing through the mat is installed in each of the pipes connected to the heating bath and the reservoir, the second valve and the third valve passes through the mat. Branched from the other side of the tube is preferably installed in each of the tubes connected to the reservoir and the heating tank.

According to the present invention, when the heating device is operated, the water heated by the heating tank is moved to the mat through the first valve, and then recovered to the storage tank through the second valve, and indirectly by the heating tank when the operation of the heating device is stopped. After the water in the heated reservoir is moved to the mat through the fourth valve, it is recovered again to the heating tank through the third valve. The hot water circulation is increased by supplying two hot water in one circulation cycle, thereby maintaining the temperature maintaining efficiency. This has the effect of increasing.

In addition, the present invention, including the discharge tank and the absorption tank, the water in the heating tank is moved to the mat through the discharge tank when the heating device is operated, then passes through the absorption tank to the storage tank, when the heating device is stopped The water in the absorption tank is sucked into the heating tank, the water in the storage tank is moved to the discharge tank, mixed with hot water in the discharge tank, and then circulated back to the mat, whereby the circulation of the hot water is increased, thereby increasing the temperature holding efficiency.

1 is a view showing a water circulation cycle of a non-powered hot water boiler according to the prior art.
2 is a schematic view showing a non-powered hot water boiler for the mat according to the first embodiment of the present invention.
3 is a view illustrating a water circulation cycle of the non-powered hot water boiler for the mat shown in FIG.
Figure 4 is a schematic diagram showing a non-powered hot water boiler for the mat according to a second embodiment of the present invention.
5 is a view for explaining the movement of the water when the non-powered hot water boiler for the mat shown in FIG.
FIG. 6 is a partial cutaway view of an example of a boiler structure that may be applied to the mattless hot water boiler shown in FIG. 4.
7 is a view showing a coupling relationship between the elements of the non-powered hot water boiler for the mat shown in FIG.
8 is a view for explaining a non-powered hot water boiler for the mat according to a third embodiment of the present invention.
9 is a view for explaining a non-powered hot water boiler for the mat according to a fourth embodiment of the present invention.

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

2 and 3 are views for explaining the non-powered hot water boiler for the mat according to the first embodiment of the present invention.

As shown in FIG. 2, the non-powered hot water boiler according to the first embodiment of the present invention includes a heating tank 100 in which a heating device 110 is installed, and a storage tank 400 in which water is stored in contact with the heating tank 100. ), A first valve 10 and a third valve 30 respectively connected to the heating tank 100, and a second valve 20 and a fourth valve 40 respectively connected to the storage tank 400. do.

In the present invention, one side of the pipe passing through the mat (A) is branched and connected to the first valve 10 and the fourth valve 40, the other side of the pipe is also branched to the second valve 20 and the first 3 is connected to the valve (30). The tube may be a flexible tube, more preferably a hose.

The first valve 10 and the second valve 20 are opened only when the heating device 110 operates. As shown in FIGS. 2 and 3, the heating device 110 is operated to heat the heating tank 100. When the water in the heating is heated, the water heated by the expansion pressure in the heating tank 100 (hereinafter referred to as 'hot water') is discharged through the first valve 10 and moved to the mat A, and the mat ( The water staying in A) is recovered to the reservoir 400 through the second valve 20 and the first circulation is performed. The water moved to the reservoir 400 stays in the reservoir 400 because the fourth valve 40 and the third valve 30 are closed, and is indirectly heated by the heating tank 100 during the stay.

When the heating apparatus 110 stops and the inside of the heating tank 100 cools, the third valve 30 is opened by the condensation pressure in the heating tank 100, and the water remaining in the mat A is heated in the heating tank 100. ), The water in the reservoir 400 is moved to the mat (A) by opening the fourth valve 40 is a secondary circulation. The water moved in the heating tank 100 is heated again by the heating device 110 and the circulation is repeated.

As above, since the water circulation is made twice during one operation cycle of the heating apparatus 110, the amount of circulation of the hot water is increased, so that the temperature deviation of the mat (A) is small and the reaction time is shortened.

The first valve 10 and the second valve 20 are opened only when the expansion pressure is generated in the heating tank 100, the third valve 30 and the fourth valve 40 in the heating tank 100 It is set to open only when condensation pressure occurs.

In addition, the heating device 110 is configured to be controlled ON / OFF through the PCB control circuit, it is possible to repeat the operation and stop operation every predetermined time, furthermore, inside the heating tank 100 and the storage tank 400 By installing a water level sensor, the PCB control circuit can control the operation of the heating device 110 according to the water level in the heating tank 100 and the storage tank 400.

Meanwhile, the first, second, third and fourth valves 10, 20, 30, and 40 may be configured as conventional check valves configured to allow water to flow in only one direction.

The operation relationship when the first, second, third and fourth valves 10, 20, 30 and 40 are configured as check valves will be described in detail. The first valve 10 and the second valve 20 are opened by the expansion pressure, but the third valve 30 connected to the fourth valve 40 and the second valve 20 connected to the first valve 10 is opened. ) Is closed, the hot water of the heating tank 100 is moved to the storage tank 400 through the mat (A). When the condensation pressure is generated in the heating tank 100, the third valve 30 and the fourth valve 40 are opened by the condensation pressure, and the second valve 20 and the first valve 10 are closed. , The heated water of the storage tank 400 is moved to the heating tank 100 through the mat (A). At this time, the second valve 20 and the third valve 30 is located in each of the two pipes branched from one pipe passing through the mat (A) to the storage tank 400 and the heating tank 100 respectively. The first valve 10 and the fourth valve 40 are branched from the other pipe passing through the mat A to each of the two pipes leading to the heating tank 100 and the reservoir 400. Located.

Hereinafter, other embodiments of the present invention will be described. In the following embodiments, descriptions of the same or similar components as the previous embodiments may be omitted to avoid duplication. Therefore, even if the detailed description is not made in the following, if the configuration described in the previous embodiment can be applied to the following embodiments, it should be seen that such a configuration can be included in the embodiments described below.

4 to 7 are views for explaining a second embodiment of the present invention. As shown, the non-powered hot water boiler for the mat according to the second embodiment of the present invention, the temperature difference between the small temperature due to the temperature difference between the temperature of the water warmed in the storage tank 400 and the hot water heated in the heating tank (100). In order to further reduce, in addition to the heating tank 100 and the storage tank 400 of the same configuration as in the previous embodiment, the discharge tank 200 is formed with a discharge hole 210 through which water is discharged, and the suction hole 310 through which water is sucked. The formed absorption tank 300 further includes.

In addition, the non-powered hot water boiler, the first valve 10 for connecting the heating tank 100 to the discharge tank 200, and the third valve 30 for connecting the absorption tank 300 to the heating tank 100. And a second valve 20 for connecting the absorption tank 300 to the storage tank 400, and a fourth valve 40 for connecting the storage tank 400 to the discharge tank 200. Here, the valves are configured to allow the flow of water from the bath to be connected to the bath to be connected, for example, the flow of water from the heating bath 100 to the discharge tank 200 by the first valve 10. May be acceptable.

One of the pipes (preferably hoses) passing through the mat A is connected to the discharge tank 200, and the other side of the pipes (preferably hoses) passing through the mat A is the absorption tank 300. Connected with.

In the present embodiment, the reservoir 400, unlike the previous embodiment as shown in Figure 2, may be separated from the heating tank 100, the first, second, third and fourth valve (10, 20, 30 and 40 may be configured as a solenoid valve or a check valve, as in the previous embodiment shown in Figure 2, the operation sequence or the starting point may be configured to be the same as the previous embodiment.

According to this embodiment, when the heating device 110 is operated to generate an expansion pressure while the water in the heating tank 100 is heated, the hot water in the heating tank 100 is discharged through the first valve 10 through the discharge tank 200. ) And then to the mat (A) through the discharge hole 210, the water stayed in the mat (A) is moved to the absorption tank 300 through the suction hole 310, and then the second valve ( 20 is moved to the storage tank 400, the primary circulation is made when the hot water of the heating tank 100 is an expansion pressure.

When the heating device 110 is stopped and condensation pressure is generated in the heating tank 100, the water in the absorption tank 300 is sucked into the heating tank 100 through the third valve 30 and stays in the mat A. The water being sucked is sucked into the absorption tank 300 through the suction hole 310, and the water in the discharge tank 200 is sucked into the mat A while the water in the mat A is sucked, thereby performing the secondary circulation. When water in the discharge vessel 200 is sucked in, the water in the reservoir 400 is sucked into the discharge vessel 200 through the fourth valve 40 and mixed with hot water of the discharge vessel.

The water of the storage tank 400 is mixed with hot water in the discharge tank 200 is moved to the mat (A) every time the expansion pressure and condensation pressure of the heating tank 100, bar is moved to the mat (A) Since the temperature of the water is almost constant, the temperature deviation of the mat A can be further reduced.

On the other hand, the shape of the absorption tank 300 is formed by the "T" shaped pipe and one side is connected to the second valve 20 and the other side is connected to the third valve 30, the other side is connected to the mat Can be.

On the other hand, the storage tank 400 further includes a passage connected to the heating tank 100 and a replenishment hole for replenishing water, and further including an opening and closing means 410 for opening and closing the passage and the replenishing hole. Can be carried out.

8 is a view for explaining the non-powered hot water boiler according to the third embodiment of the present invention. The non-powered hot water boiler of this embodiment follows almost all the configurations of the foregoing second embodiment as it is, but further includes an auxiliary heating device installed in the discharge tank 200, that is, the discharge tank heating device 201. The discharge tank heating device 201 is lost when the heating device 110 of the heating tank 100 is stopped or operated when the water in the storage tank 400 is sucked into the discharge tank 200 and mixed. It compensates the temperature to further reduce the temperature deviation of the hot water supplied to the mat. At this time, the discharge vessel heating device 201 operates at a temperature that is not enough to generate steam in the discharge vessel 200, that is, a temperature below the steam generation temperature. The discharge vessel heating apparatus 201 may be set to an operating temperature that does not generate water vapor, in consideration of a normal or extreme environment in which a non-powered hot water boiler may be used. In addition, the discharge vessel heating device 201 is preferably automatically turned on / off by the control using a temperature sensor not shown.

9 is a view for explaining the non-powered hot water boiler according to the fourth embodiment of the present invention. The non-powered hot water boiler of this embodiment follows almost all the configurations of the foregoing second embodiment as it is, but further includes an auxiliary heating device installed in the absorption tank 300, that is, the absorption tank heating device 301. The absorption tank heating device 301 is used for preheating the water absorbed by the mat, and lower operating temperature than the heating device 110 in the heating tank 100, more preferably, generation of water vapor in the absorption tank 300. It is configured to operate at a temperature that does not cause it. The absorption tank heating device 301 may be set at an operating temperature that does not generate steam in consideration of a normal or extreme environment in which a non-powered hot water boiler may be used. In addition, the wet water tank heating device 301 is preferably turned on / off automatically by the control using a temperature sensor not shown.

According to the present embodiment, the water in the absorption tank 300 sucked from the mat (not shown) is absorbed into the heating tank 100 by the condensation pressure of the heating tank 100, before the absorption tank heating device ( 301). At this time, the temperature at which the water is heated in advance by the absorption tank heating device 301 is set lower than the set temperature of the heating device 110 in the heating tank (100). The water in the heating bath 100 must be heated to generate an expansion pressure for pushing the water of the discharge tank 200 to the mat. Using the absorber heating device 301, such heating time can be shortened. As a result, the user can quickly reach the desired set temperature of the mat, and the water heated to the set temperature can be circulated faster to further reduce the temperature deviation of the mat.

In one preferred application, a partition wall may be installed in the absorption tank 300 to divide the space into two spaces. At this time, if the absorption hole 310 and the second valve 20 is disposed in one space, the third valve 30 is disposed in the other space, and a hole is formed in the partition to move water. The micro-expansion pressure generated by the acting on the second valve 20 and the absorption hole 310 can be prevented and the resulting malfunction.

A: mat 10: first valve
20: second valve 30: third valve
40: fourth valve 100: heating tank
110: heating device 200: discharge tank
210: discharge hole 300: absorption tank
310: suction hole 400: reservoir

Claims (10)

A heating tank in which expansion pressure and condensation pressure are generated by operation of the heating device, a discharge tank in which water is stored, an absorption tank, and a storage tank;
A first valve connecting the heating tank and the discharge tank and opening only when there is an expansion pressure of the heating tank;
A third valve connecting the heating tank and the absorption tank to be opened only when there is a condensation pressure of the heating tank;
A second valve connecting the absorption tank and the storage tank and opened only when there is an expansion pressure of the heating tank; And
A fourth valve connected to the discharge tank and the storage tank and opened only when there is a condensation pressure of the heating tank;
One side of the tube passing through the mat is connected to the discharge tank, the other side of the tube is connected to the absorption tank characterized in that the hot water boiler. The hot water boiler according to claim 1, wherein the absorption tank is a “T” shaped pipe connected to the second valve, the third valve, and the mat, respectively. The hot water boiler according to claim 1, wherein the first valve, the second valve, the third valve and the fourth valve are check valves. A discharge tank connected to the water inlet side of the pipe passing through the mat;
An expansion pressure and a condensation pressure generated by the operation or stopping of the heating device, and a heating tank for sending water to the discharge tank through the first valve when the expansion pressure is generated;
An absorption tank connected to the water discharge side of the pipe passing through the mat and sending water to the heating tank through a third valve when the condensation pressure is generated; And
And a water storage tank receiving water from the absorption tank through the second valve when the expansion pressure is generated and sending water to the discharge tank through the fourth valve when the condensation pressure is generated. The hot water boiler according to claim 4, further comprising an auxiliary heating device installed in the absorption tank to heat water in the absorption tank at a temperature such that water vapor is not generated in the absorption tank. The hot water boiler according to claim 4, further comprising: an auxiliary heating device installed in the discharge tank to heat water in the discharge tank at a temperature such that water vapor is not generated in the discharge tank. The hot water boiler according to claim 6, wherein the auxiliary heating device of the discharge tank compensates for the temperature lost when water in the storage tank is sucked into the discharge tank and mixed when the heating device of the heating tank is stopped. A heating bath in which a heating device is installed;
A storage tank in which water is stored in contact with the heating tank;
First and third valves respectively connected to the heating tank; And
And a second valve and a fourth valve connected to the reservoir, respectively.
One side of the pipe passing through the mat is connected to the first valve and the fourth valve, and the other side of the pipe passing through the mat is connected to the second valve and the third valve. A heating bath in which a heating device is installed;
A storage tank in contact with the heating tank and storing water;
A first valve and a second valve opened by the expansion pressure of the heating bath to allow flow of water from the heating bath to the mat and from the mat to the storage tank; And
And a third valve and a fourth valve opened by the condensation pressure of the heating bath to allow the flow of water from the mat to the heating bath and from the reservoir to the mat. The method according to claim 9,
The first valve and the fourth valve are branched from one side of the pipe passing through the mat is installed in each of the pipes connected to the heating bath and the storage tank, the second valve and the third valve pipe passing through the mat Hot water boiler, characterized in that branched from the other side of the reservoir and installed in each of the pipes connected to the heating bath.

Images