KR101416976B1 - Hot Water Supply Apparatus and Method for Controlling Pump of the same - Google Patents

Abstract

The present invention relates to a hot water supply apparatus and a method for controlling a pump of the hot water supply apparatus by transferring bubbles inside a main body to a water tank to enhance the performance of the pump. An outlet portion is formed in the direction of the water tank from the main body, so that the bubbles inside the main body can be easily discharged to the water tank, using its ascending pressure or pumping pressure.

Description

Technical Field [0001] The present invention relates to a hot water supply apparatus and a hot water supply apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water supply device and a method of controlling a pump of a hot water supply device, and more particularly, to a hot water supply device and a hot water supply device for rapidly moving bubbles in a main body toward a water tank, To a pump control method for a hot water supply device.

Generally, a hot water mat is used for heating or maintaining a hot water by using hot water. The hot water is heated by an electric heater or the like in a hot water storage tank provided inside the hot water heater to form hot water, So that it can circulate and supply the inside of the mat connected by the connecting hose. The hot water mat has an advantage that an existing electric mat configured to contain a heating wire inside the mat, that is, harmful electromagnetic waves generated by the heating wire during operation is cut off, and electrical safety accidents such as fire and electric shock are not generated have. Such a hot water mat has a basic constitution of a hot water supply device, a hot water pipe and a hot water mat, and the hot water supply device is provided with a pump for circulating hot water.

1 is a view illustrating a conventional hot water supply apparatus. 1, a conventional hot water supply device 10 is for supplying hot water to a hot water pipe (not shown) arranged in a staggered manner on a hot water mat 2. The hot water supply device 10 includes a water tank 12, A heater unit 14 such as a PTC heater for heating water in the tank 12 is provided and a pump 16 for circulating water is provided between the water tank 12 and the heater unit 14. [ The hot water moved to the hot water pipe of the hot water mat (2) flows into the water tank (12) through the inflow pipe (3) and circulated.

FIG. 2 is a view for explaining a pump provided in a conventional hot water supply apparatus, and FIG. 3 is a view for explaining a state where bubbles are accumulated in a pump provided in a conventional hot water supply apparatus.

The pump 16 includes a main body 16a having a space therein and a pumping unit 16b provided inside the main body 16a for pumping water. The main body 16a is provided with a water tank 12 The water introduced into the main body 16a is projected to be parallel to the inflow portion 16c on the side of the main body 16a and flows out to the outside And an outlet 16d. The inflow portion 16c is connected to the water tank 12 and the outflow portion 16d is connected to the heater unit 14 so that water flowing into the main body 16a through the inflow portion 16c flows into the main body 16a And is discharged to the outlet portion 16d by the pumping pressure by the pumping unit 16b provided at the outlet 16a.

A large amount of air bubbles are generated inside the main body 16a due to the friction of water caused by the rotation of the impeller provided in the pumping unit 16b. The air bubbles can not be discharged to the outside, The pressure inside the main body 16a is increased and the water in the water tank 12 can not flow into the main body 16a. As a result, there is a problem that the flow of water is not smooth. Particularly, in the conventional pump 16, since the inflow portion 16c and the outflow portion 16d are provided on the side of the main body 16a, the bubbles in the main body 16a can not escape to other places, So that a large amount of bubbles are accumulated in the main body 16a.

Published Patent No. 10-2013-0112100 Published patent application No. 10-2011-0011375

SUMMARY OF THE INVENTION It is an object of the present invention to provide a hot water supply device and a pump control method of a hot water supply device that can quickly move bubbles inside a main body to a water tank, And the like.

According to an aspect of the present invention, there is provided a water tank in which a space is formed to receive water therein and a discharge port is formed at a lower side thereof; A pump provided at a lower portion of the water tank for pumping water supplied from the water tank; And a heating unit for heating the water to be pumped in the pump, the pump comprising: a main body having pumping means for pumping water; An inlet protruding from an upper portion of the body and connected to the outlet; And an outflow portion protruding from a side of the main body and connected to the heating portion.

Further, in the operation of the pumping means, vibration is generated in the main body, and the vibration discharges bubbles in the main body toward the inflow portion.

The pumping means includes an impeller provided in the main body and a motor for rotating the impeller.

Further, the impeller is rotated so as to apply a pumping pressure toward the inflow portion, so that the bubbles which are moved to the upper portion of the main body are discharged toward the inflow portion.

Further, the present invention is characterized in that the pumping means provided in the main body of the pump vibrates the main body during a predetermined preparation time, and the bubbles inside the main body are discharged in the direction of the water tank through the inflow portion protruding to the upper portion of the main body Bubble removal step; A stopping step of the pumping means maintaining a stop state for a predetermined stop time; And a pumping step in which the pumping means applies pressure in the direction of a hitting portion provided at a side of the pump to move water moved from the water tank to the pump toward the hitting portion. Thereby providing a pump control method of the supply device.

The method may further include repeating the bubbling step and the stopping step between the stopping step and the pumping step by a preset number of times.

Further, in the bubble removing step, the pumping means is configured to rotate the impeller provided inside the main body to apply vibration to the main body.

Further, in the bubble removing step, the pumping means rotates the impeller provided in the main body in one direction, and in the pumping step, the pumping means rotates the impeller provided in the main body in the other direction The pump control method of the hot water supply device.

Since the outflow portion is formed in the direction of the water tank from the main body, the bubble in the main body can be easily moved toward the water tank by using the rising pressure or the pumping pressure of the main body. There is an effect of being discharged.

1 is a view illustrating a conventional hot water supply apparatus.
2 is a view illustrating a pump included in a conventional hot water supply device.
3 is a view for explaining a state where bubbles are accumulated in a pump provided in a conventional hot water supply apparatus.
4 is a schematic view for explaining a hot water supply device according to a preferred embodiment of the present invention.
5 is a view showing a pump of a hot water supply apparatus according to a preferred embodiment of the present invention.
6 is a view for explaining a state in which bubbles in a pump of a hot water supply apparatus are discharged to the outside according to a preferred embodiment of the present invention.
7 is a view for explaining a control module for controlling a pump of a hot water supply apparatus according to a preferred embodiment of the present invention.
8 is a view for explaining a process in which the fluid in the main body of the pump provided in the hot water supply apparatus according to the preferred embodiment of the present invention is moved to the outside of the main body by the control unit.
9 is a view for explaining a pump control method of a hot water supply apparatus according to a preferred embodiment of the present invention.

Hereinafter, a method of controlling a pump of a hot water supply device and a hot water supply device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is a schematic view illustrating a hot water supply device according to a preferred embodiment of the present invention, and FIG. 5 is a view illustrating a pump of a hot water supply device according to a preferred embodiment of the present invention.

4 and 5, a hot water supply apparatus according to a preferred embodiment of the present invention supplies hot water to, for example, a hot water mat, and includes a water tank 100, a heating unit 300, and a pump 200 . The heating unit 300 and the pump 200 may be provided one or more than one according to the size of the hot water mat or the water tank 100. The water tank 100, the heating unit 300, And a housing (not shown) that covers the housing.

The water tank 100 is provided with an empty space for receiving water therein, the upper side thereof is opened, and the lower side thereof is formed with a discharge port 102. The water tank 100 may be formed in various shapes such as a cylindrical shape or a hexagonal shape, and the size thereof may be variously formed. External water is injected through the open upper part of the water tank 100 and water in the water tank 100 is discharged to the outside through the discharge port 102 of the water tank 100. In addition, a water level sensor (not shown) may be further provided inside the water tank 100 to sense the water level of the water contained in the water tank 100. The level sensor may be a conventional float type level sensor or an electronic level sensor commonly used in a conventional humidifier or the like.

The heating unit 300 includes an electric heater formed by a PTC heater, a ceramic heater, a carbon nanotube, or the like. The heating unit 300 is provided outside the water tank 100, and one side thereof is connected to a pump 200, The pump 200 heats the water to be pumped. The heated water in the heating unit 300 is supplied to the hot water mat. Since the heating unit 300 has a general structure, a detailed description thereof will be omitted.

The pump 200 is provided at a lower portion of the water tincture and is configured to supply water discharged from the discharge port 102 of the water tank 100 and pump it to the heating unit 300. The pump 200 includes a body 210, an inlet 230, and an outlet 240. The main body 210 may have a space such that the pumping means 220 is provided therein, and the outer shape of the main body 210 may be various, such as a cylindrical shape or a hexahedron shape. The pumping means 220 is configured to pump the fluid and the present invention is configured such that the pumping means 220 includes the impeller 222 and the motor 224 but this is only an embodiment of the present invention, Of course, be configured with other pumping means 220 known to pump the fluid. The impeller 222 is provided to rotate inside the main body 210. The motor 224 is positioned within the body 210 or outside the body 210 and is configured to rotate the impeller 222. When a current is applied to the motor 224 and the impeller 222 is rotated, the fluid in the main body 210 is pumped to the outside of the main body 210 by the pressure generated by the rotation of the impeller 222. The inlet 230 is protruded from the upper side of the main body 210 so that the end of the inlet 230 is connected to the outlet 102 of the water tank 100. The outflow portion 240 protrudes from the side of the main body 210 so that the end of the outflow portion 240 is connected to the heating portion 300. The water contained in the water tank 100 flows into the main body 210 through the inlet 230 of the pump 200. When the impeller 222 of the pumping means 220 is rotated forward, The water is forcedly conveyed toward the heating unit 300 through the outlet 240.

A large amount of air bubbles are generated in the main body 210 of the pump 200 due to the rotation of the impeller 222. The air bubbles are easily discharged to the outside of the main body 210 through the inlet 230. This will be described with reference to FIG.

6 is a view for explaining a state in which bubbles in a pump of a hot water supply apparatus are discharged to the outside according to a preferred embodiment of the present invention.

Referring to FIG. 6, water in the water tank 100 flows into the main body 210 of the pump 200 from the inlet 230. When current is applied to the motor 224, the impeller 222 rotates And the water introduced into the main body 210 is applied to the heating part 300 through the outflow part 240. In this process, bubbles are generated in the main body 210 due to friction of water due to rotation of the impeller 222, and the bubbles are moved to the upper part of the main body 210 by the upward pressure of the bubbles. Since the inflow portion 230 protrudes upward and is connected to the discharge port 102 of the water tank 100 on the upper side of the main body 210, The water tank 100 can be easily discharged to the outside of the water tank 100.

The impeller 222 of the pumping means 220 may be rotated in order to discharge the bubbles in the body 210 more easily. In this case, by rotating the impeller 222, The bubbles in the main body 210 are easily moved to the inflow part 230 due to the impact due to the vibration. Particularly, when the impeller 222 of the pumping means 220 is reversely rotated, the impeller 222 applies a pumping pressure toward the inlet portion 230, so that the air bubbles moved to the upper portion of the body 210 flow into the inlet portion 230 To the water tank 100 through the water supply pipe (not shown).

The bubble in the main body 210 of the pump 200 is moved to the upper portion of the main body 210 by the upward pressure or the pumping pressure of the main body 210, 100 in the direction of the water tank 100 through the inlet 230 protruding in the direction of the water tank 100.

7 is a view for explaining a control module for controlling a pump of a hot water supply apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 7, the hot water supply apparatus according to the preferred embodiment of the present invention may further include a control module 400. The control module 400 is mainly disposed inside the housing and includes a control unit 410, a counter 420, and a motor driving unit 430. The control unit 410 outputs a first control signal to the motor driving unit 430 for operating the motor 224 of the pumping means 220 to control the motor driving unit 430 in order to control the pumping means 220. [ The motor driving unit 430 receives the first control signal of the control unit 410 and applies a current to the motor 224 of the pumping unit 220 to drive the motor 224. The motor 224 then rotates the impeller 222 to pump the bubbles inside the body 210 out of the body 210. The counter 420 counts the number of times the control unit 410 outputs the control signal to the motor driving unit 430 and transmits the counted number to the control unit 410. The control unit 410 determines whether the count value counted by the counter 420 is preset And outputs a second control signal to the motor driving unit 430. [ The motor driving unit 430 receives the second control signal from the control unit 410 and applies a current to the motor 224 of the pumping unit 220 to drive the motor 224. Then, the motor 224 rotates the impeller 222 to pump the fluid introduced into the body 210 toward the heating unit 300. This will be described again with reference to FIG.

8 is a view for explaining a process in which the fluid in the main body of the pump provided in the hot water supply apparatus according to the preferred embodiment of the present invention is moved to the outside of the main body by the control unit.

8 (a), when the power is turned off or the power is turned on, the control unit 410 is in a state just before the pumping means 220 is controlled. In the main body 210 of this state, There may be some remaining, and there may still be air bubbles that have not escaped. In the case of water remaining in the main body 210, there is no problem in supplying hot water to the hot water mat, but in the case of air bubbles remaining in the main body 210, it may cause a problem in supplying hot water to the hot water mat. That is, the greater the amount of water contained in the main body 210, the greater the amount of water pumped into the heating unit 300 from the pumping means 220, so that a large amount of hot water can be rapidly supplied to the hot water mat. However, if bubbles remain in the main body 210 instead of the water, the amount of water contained in the main body 210 is reduced, so that a large amount of hot water can not be quickly supplied to the hot water mat. Further, if bubbles remain in the main body 210, noise may be generated due to friction between the bubbles and water or bubbles.

8B, after the power is turned on, the controller 410 controls the impeller 222 of the pumping means 220 to remove bubbles remaining in the main body 210 for about three seconds Rotate about 3 times for a short time. At this time, vibration is generated in the main body 210 by the rotation of the impeller 222, and bubbles in the main body 210 are easily moved to the inflow portion 230 due to the impact due to the vibration. When the impeller 222 is rotated in the reverse direction, the impeller 222 applies a pumping pressure toward the inlet 230 so that the air bubbles that are moved to the upper portion of the body 210 pass through the inlet 230, Can be moved more easily to the apparatus 100.

Referring to FIG. 8C, when the bubbles in the main body 210 are removed by rotating the impeller 222 for a short period of time, the remaining space in the main body 210 is enlarged. In this state, the pumping means 220 causes the water in the water tank 100 to be pumped to the heating unit 300, so that the hot water is quickly supplied to the hot water mat.

9 is a view for explaining a pump control method of a hot water supply apparatus according to a preferred embodiment of the present invention.

Referring to FIG. 5, first, the controller 410 determines whether a start signal is received by pressing a power button (S100). When the start signal is received, the controller 410 outputs the first control signal to the motor driver 430 (S110). Here, the first control signal is a signal for controlling the motor driving unit 430 to rotate the motor 224 for a predetermined setup time, for example, 3 seconds. The motor driving unit 430 receives the first control signal and rotates the motor 224 of the pumping means 220 for 3 seconds. The impeller 222 is rotated by the rotation of the motor 224 to generate vibration in the main body 210. The bubbles in the main body 210 due to the vibration cause the inflow of the pumping means 220 230). When the impeller 222 is rotated in the reverse direction, the impeller 222 applies a pumping pressure toward the inlet 230 so that the air bubbles that are moved to the upper portion of the body 210 pass through the inlet 230, Can be moved more easily to the apparatus 100.

After step S110, the controller 410 outputs a stop signal to the motor driver 430 so as to maintain the motor 224 in a stopped state for a predetermined stop time, for example, three seconds (S120). The motor driving unit 430 receives the stop signal and stops the motor 224 of the pumping means 220 for 3 seconds. At this time, the bubbles moved to the upper part of the main body 210 pass through the inflow unit 230 And is continuously moved to the water tank 100. Alternatively, after step S110, the controller 410 may output the first control signal to control the motor driving unit 430 to rotate the motor 224 during a predetermined preparation time, Check whether the preset stop time has passed. At this time, the motor 224 of the pumping means 220 is stopped for the preparation time, for example, 3 seconds, and the bubbles moved to the upper part of the main body 210 are introduced into the water tank 100 through the inflow portion 230, .

Thereafter, the counter 420 counts the number of times the control unit 410 outputs the first control signal, and outputs the counted number, that is, the counted value, to the control unit 410 (S130). Then, the control unit 410 determines whether the count value output from the counter 420 matches a predetermined value, for example, three times (S140). That is, the control unit 410 controls the motor 224 of the pumping means 220 to rotate for 3 seconds in step S110, and then, in step S120, Sec. In step S140, it is determined whether the steps S110 and S120 are repeated three times. If the counted value is less than three, the process returns to step S110. If the counted value is three, the bubble in the main body 210 is mostly removed, so that the remaining space inside the main body 210 is enlarged. In this state, the controller 410 outputs the second control signal to the motor driver 430 (S150). The motor driving unit 430 receives the second control signal from the controller 410 and applies a current to the motor 224 of the pumping unit 220 to rotate the motor 224 forward. The motor 224 then steers the impeller 222 forward so that the pumping means 220 causes the water in the water tank 100 to be pumped into the heating portion 300 so that a large amount of hot water can be quickly .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. It should be understood that the technical idea belonging to the scope of the claims also belongs to the present invention.

100: water tank 102: discharge port
200: pump 210:
220: pumping means 222: impeller
224: motor 230: inlet
240: outlet part 300: heating part
400: control module 410:
420: Counter 430: Motor driver

Claims (8)

A water tank in which a space is formed to receive water therein, and a discharge port is formed in a lower side thereof;
A pump provided at a lower portion of the water tank for pumping water supplied from the water tank; And
And a heating unit for heating water to be pumped by the pump,
The pump comprises:
A body having pumping means for pumping water;
An inlet protruding from an upper portion of the body and connected to the outlet; And
And an outflow portion protruding from a side portion of the main body and connected to the heating portion,
Wherein the pumping means includes an impeller provided inside the main body and a motor for rotating the impeller,
Wherein the impeller is rotated so as to apply a pumping pressure toward the inflow portion, and bubbles which are moved to an upper portion of the main body are discharged toward the inflow portion.
The method according to claim 1,
Wherein vibration is generated in the main body during the operation of the pumping means, and the vibration discharges bubbles in the main body toward the inflow portion.
delete delete A bubble removing step in which a pumping means provided in a main body of the pump applies vibration to the main body during a predetermined preparation time so that the bubbles inside the main body are discharged in the direction of the water tank through the inflow portion protruding to the upper portion of the main body;
A stopping step of the pumping means maintaining a stop state for a predetermined stop time; And
Wherein the pumping means applies pressure in the direction of the hitting portion provided on the side of the pump to move the water moved from the water tank to the pump toward the hitting portion,
In the bubble removing step, the pumping means rotates the impeller provided in the main body in one direction,
Wherein the pumping means rotates the impeller provided in the main body in the other direction in the pumping step.
6. The method of claim 5,
Between the stopping step and the pumping step,
And repeating the bubble removing step and the stopping step by a preset number of times.
6. The method of claim 5,
Wherein the pumping means is configured to rotate the impeller provided in the main body to vibrate the main body in the bubble removing step.
delete

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