KR200472263Y1 - Hot Water Supply Apparatus easy to Exhausting Bubble - Google Patents

Abstract

The present invention is a hot water supply device that is easy to discharge air bubbles to easily discharge the air bubbles introduced into the main body when the discharge plate for opening and closing the discharge hole of the main body is in close contact with the upper surface of the main body by the cohesive force of the water, etc. In this regard, since the bubbles introduced into the main body move along the discharge guide groove, the pressure is applied to the discharge plate in close contact with the upper surface of the main body, and the discharge plate opens the discharge hole of the main body, and the discharge of the main body in which the bubbles are opened. There is an effect that is easily discharged to the outside through the ball.

Description

Hot Water Supply Apparatus easy to Exhausting Bubble}

The present invention relates to a hot water supply device that is easy to discharge the bubble, and more particularly to a hot water supply device that is easy to discharge the bubble to easily discharge the bubble introduced into the main body to the outside.

Generally, a hot water mat is used for heating or maintaining the hot water by using hot water. Hot water pipes, in which hot water flows in the mat, are arranged at regular intervals. Hot water supplied from the hot water supply device is supplied to the hot water pipe, So that the mat is locally heated or kept at a constant temperature. Since the hot water mat does not use the heating wire provided on the electric mat, there is an advantage that electric safety accidents such as fire and electric shock accident are remarkably reduced without generating electromagnetic waves.

Such a hot water mat has a basic configuration of a hot water supply device, a hot water pipe and a hot water mat. The conventional hot water supply device used in the hot water mat uses a motor pump to circulate hot water. However, when the motor pump is driven, the noise and vibration of the motor itself are diverted to the outside, causing unpleasant noise, which hinders quiet and comfortable sleeping. Accordingly, in recent years, in a state in which water supplied in the heater is prevented from flowing back to the water tank without using a motor pump, hot water is supplied to the hot water pipe provided in the hot water mat by the expansion pressure generated by heating, A hot water supply device is developed.

FIG. 1 is a view for explaining a conventional hot water supply apparatus, and FIG. 2 is a view for explaining a conventional check valve.

1 and 2, a conventional hot water supply device 31 is provided to supply heated hot water to a pipe of a hot water mat 30, and a water tank 32 and a heater unit 33 And a check valve 1 is provided in the water tank 32. [ The hot water introduced into the pipe of the hot water mat (30) is supplied to the water tank (32) through the inflow pipe (35) and circulated.

The check valve 1 includes a main body 2 having an inlet part 2a and an outlet part 2b, a blocking plate 3 intermittently blocking the inlet part 2a inside the main body 2, It includes a bubble discharge portion (3) for discharging the bubbles in the main body (2).

The blocking plate 3 supplies water or circulated hot water in the direction of the supply pipe 34 connected to the heater unit 33 so that the hot water does not flow backward. That is, when the water supplied to the heater unit 33 is heated to the preset temperature, the blocking plate 3 blocks the inflow portion 2a inside the main body 2 by the inflation pressure of the heated water, So that the hot water does not flow backward and hot water is supplied to the piping of the hot water mat 30. Then, the water whose temperature is circulated while circulating in the hot water mat (30) is supplied to the water tank (32) through the inflow pipe (35). When the hot water is supplied to the hot water mat 30 from the heater unit 33, the pressure inside the heater unit 33 is lowered while the pressure in the water tank 32 becomes higher, At this time, the water in the water tank 32 flows into the main body 2 through the inflow portion 2a.

The bubble discharge part 3 discharges the bubbles collected in the main body 2, and opens and closes the opening and closing part 3b for opening and closing the through part 2c formed on the upper part of the main body 2 so that the bubbles are discharged. It includes a fixing portion (3a) for fixing one side of the upper side of the main body 2, and a buoyancy portion (3c) mounted to the lower side of the opening portion (3b). By the way, in the case of the opening and closing portion 3b, it often occurs in close contact with the penetrating portion (2c) due to the cohesive force of the water. In this case, the opening / closing portion 3b closes the penetrating portion 2c, and the bubbles collected in the main body 2 are not discharged to the outside, but accumulate inside the main body 2 so that the pressure inside the main body 2 increases. do. Accordingly, when the blocking plate 3 of the check valve 1 opens the inlet portion 2a and the water of the water tank 32 is to be introduced into the body 2 through the inlet portion 2a, the main body (2) There is a problem that the inlet portion 2a cannot be opened due to the high pressure inside.

Patent Registration No. 10-1275676 Patent No. 10-1128952

An object of the present invention for solving the problems of the prior art as described above, even if the discharge plate for opening and closing the discharge hole of the main body is in close contact with the upper surface of the main body by the cohesive force of water, etc., the air bubbles introduced into the main body easily discharged to the outside of the main body It is to provide a hot water supply device that can be easily discharged bubble.

In order to achieve the above object, the present invention provides a water tank in which a supply part is formed at one side and a discharge part is formed at the other side; A heater member provided outside the water tank and connected to the discharge part to heat the water discharged from the discharge part; And a main body provided inside the water tank, the inflow part being formed to allow the water in the water tank to flow in one side, and the outflow part being formed to be connected to the discharge part in the other side, and the main body to open and close the inflow part of the main body. And a check valve having a disc mounted inside the body, and a bubble discharge part for opening and closing a discharge hole formed in an upper portion of the main body to discharge bubbles provided in the main body to the outside of the main body, wherein the bubble discharge part includes: A discharge plate disposed to be in close contact with the inner upper surface of the main body to cover the discharge hole, or spaced apart from an upper inner wall of the main body to open the discharge hole, wherein the main body of the main body faces the discharge plate; Bubble discharge is easy characterized in that it comprises a discharge induction groove formed in the outer direction of the discharge plate along the inner upper surface Provide a hot water supply.

In addition, one side of the discharge induction groove in the longitudinal direction is located on the outer side of the discharge plate, the other side in the longitudinal direction of the discharge induction groove is characterized in that the hot water supply device easy to discharge the bubble, characterized in that located on the inside of the discharge plate. to provide.

In addition, one side in the longitudinal direction of the discharge induction groove provides a hot water supply device easy to discharge the bubbles, characterized in that extending in the direction of the outlet portion of the body.

In addition, the other side in the longitudinal direction of the discharge induction groove provides an easy hot water supply device, characterized in that extending in the inner circumferential direction of the discharge hole.

In addition, the bubble discharge portion: one side is fixed to the inner upper surface of the main body, the other side of the discharge plate covering the discharge hole; And it is connected to the other side of the discharge plate provides a hot water supply device easy to discharge the bubble, characterized in that it comprises a rising induction portion is raised by the pressure or buoyancy of the water introduced into the main body.

In the hot water supply device that is easy to discharge the bubble according to the present invention, even if the discharge plate is in close contact with the upper surface of the main body by the cohesive force of the water, since the bubbles introduced into the main body is moved along the discharge guide groove, the pressure is applied to the discharge plate, The discharge plate is to open the discharge hole of the body, there is an effect that the bubble is easily discharged to the outside through the discharge hole of the open body.

1 is a view illustrating a conventional hot water supply apparatus.
2 is a view for explaining a conventional check valve.
3 is a view schematically illustrating a hot water supply device that is easy to discharge bubbles according to a first embodiment of the present invention.
4 is a view schematically showing the external appearance of the check valve of the hot water supply device is easy to discharge bubbles according to the first embodiment of the present invention.
5 is a view schematically illustrating a hot water supply device that is easy to discharge bubbles according to a first embodiment of the present invention.
6 is a view schematically illustrating a bubble discharge portion of the hot water supply device that is easy to discharge the bubble according to the first embodiment of the present invention.
7 is a view schematically illustrating a discharge induction groove of the hot water supply device that is easy to discharge bubbles according to the first embodiment of the present invention.
FIG. 8 is a view schematically illustrating a process of discharging bubbles inside the main body through a discharge guide groove of a hot water supply device that is easy to discharge bubbles according to a first embodiment of the present invention.
9 is a view schematically illustrating a hot water supply device that is easy to discharge bubbles according to a second embodiment of the present invention.
FIG. 10 is a view schematically illustrating a process of discharging bubbles inside a body through a discharge guide groove of a hot water supply device that is easy to discharge bubbles according to a second embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in more detail a hot water supply device easy to discharge bubbles according to a preferred embodiment of the present invention.

3 is a view schematically illustrating a hot water supply device that is easy to discharge bubbles according to a first embodiment of the present invention.

Referring to FIG. 3, the hot water supply device for easily discharging bubbles according to the first embodiment of the present invention is for supplying hot water to the mat unit 330, and includes a water tank 100, a heater unit 300, and the like. It includes a check valve 200, one or more water tank 100, the heater unit 300 and the check valve 200 may be provided by the size of the mat unit 100, and the like.

The water tank 100 is provided with an empty space to accommodate the water therein, the upper portion of the water tank 100 is open to the opening 130 is provided, the supply portion 110 and the discharge portion 120 is formed on one side. And the water tank 100 and the heater unit 300 to be described later may be accommodated in the housing (not shown). A mat portion (330) is provided on the outer side of the housing, and a hot water pipe (320) is embedded in the mat portion (330). In addition, the discharge port 120 and the heater 300 of the water tank 100 are interconnected by the first connecting portion 310, the hot water pipe 320 and the supply port 110 of the water tank 100 is a second It is connected to each other by the connecting portion 340. And the outside water is injected into the water tank 100 through the opening 130, the water circulating in the hot water pipe 320 is supplied into the water tank 100 through the supply unit 110, Water inside the water tank 100 is discharged to the outside through the discharge unit 120. 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 heater unit 300 includes an electric heater formed of a metal plate, a coil, and the like, and is provided outside the water tank 100, and one side thereof is connected to the discharge unit 120 of the water tank 100. The water discharged from the water tank 100 to the heater unit 300 is heated to a preset temperature inside the discharge unit 120. A bimetal (not shown) or the like may be provided on the other side of the heater unit 300 so that the other side of the heater unit 300 may be opened when the temperature of the water supplied to the heater unit 300 is higher than a predetermined temperature. have. When the temperature of the water supplied to the heater unit 300 is heated to a preset temperature, the heated water is moved to the hot water pipe 320 connected to the other side of the opened heater unit 300. When the water is heated, steam is generated and the inner pressure of the heater unit 300 increases. When the inner pressure of the heater unit 300 increases, the pressure inside the heater unit 300 increases. The water is pushed toward the hot water pipe 320 provided at the other side of the heater unit 300. At this time, one side of the heater unit 300 is blocked by the check valve 200 to be described later, is configured so that the water of the heater unit 300 does not flow back toward the water tank (100). As such, the water supplied to the heater 300 is discharged to the hot water pipe 320 by the internal pressure, and the water discharged to the hot water pipe 320 flows back into the water tank 100 by the second connection part 340. The cycle of being repeated is repeated.

The check valve 200 prevents a backflow of the fluid so that the fluid flows in only one direction, which will be described with reference to the following drawings.

4 is a view schematically showing the external appearance of the check valve of the hot water supply device is easy to discharge the bubble according to a first embodiment of the present invention, Figure 5 is a bubble discharge according to a first embodiment of the present invention In order to explain an easy hot water supply device is a schematic view.

4 and 5, the check valve 200 includes a main body 210, a disc 240, and a bubble discharge unit 220.

The main body 210 is provided inside the discharge part 120 of the water tank 100, and is formed in a polyhedral shape having a space therein, and an inlet part 212 and an outlet part 214 on one side and the other side thereof. Is formed. The outlet 214 communicates with the discharge port 120 of the main body 210 so that the water in the water tank 100 flows into the main body 210 through the inlet 212 of the main body 210 The outflow portion 214 of the main body 210 and the discharge portion 120 of the water tank 100 to the outside of the water tank 100. That is,

The disk 240 is provided on one side of the main body 210 to intermittently open or close the inlet 212 of the main body 210, and is formed of a rubber material or the like to facilitate close contact with one side of the main body 210. do. The disk 240 is formed to have a larger diameter than the inlet 212, the upper side is fixed to the upper side of the main body 210, the lower side of the one side of the main body 210 toward the outlet portion 214 It is configured to be movable. The disk 240 is configured such that the water in the water tank 100 can easily flow into the main body 210 through the inlet 212 of the main body 210, the water of the main body 210 is the main body It is configured such that it cannot flow back to the outside of the main body 210 through the inlet 212 of the (210). That is, when the water heated in the heater unit 300 is discharged to the hot water pipe 320, a space as much as discharged is created, the air pressure of the heater unit 300 is instantaneously compared to the air pressure of the water tank 100 At this time, the lower side of the disk 240 is moved toward the outlet portion 214 by the pressure difference, the inlet portion 212 of the main body 210 is opened, the water in the water tank 100 is the main body After passing through the open inlet portion 212 of the 210, introduced into the main body 210, the heater unit passes through the outlet portion 214 of the main body 210 and the discharge portion 120 of the water tank 100 Inflow to 300.

Bubble discharge unit 220 is to discharge the bubbles provided in the main body 210 to the outside, for example, the water supplied to the heater unit 300 is generated in the process of heating the bubble, the bubble is checked After flowing into the body 210 of the valve 200, it is discharged to the outside through the bubble discharge unit 220. This will be described with reference to the following drawings.

6 is a view schematically showing a bubble discharge portion of the hot water supply device is easy to discharge the bubble according to a first embodiment of the present invention, Figure 7 is a bubble discharge according to a first embodiment of the present invention Figure is a schematic diagram illustrating the discharge induction groove of the easy hot water supply device.

6 and 7, the bubble discharge unit 220 is adjacent to the discharge hole 216 formed through the upper portion of the main body 210, the fixing portion 224 penetrated and fixed to the upper surface of the main body 210. And, one side is fixed to the fixing portion 224 and the other side includes a discharge plate 222 for opening and closing the discharge hole 216, and the rising induction part 226 for moving the discharge plate 222 up and down.

Discharge plate 222 is disposed on the inner upper surface of the main body 210, one side is fixed to the fixing portion 224, the other side extends in the direction of the discharge hole 216, so as to cover the discharge hole 216 Is formed. The discharge plate 222 is formed in a plate shape, made of a watertight material, for example, silicon, etc., when the other side of the discharge plate 222 is in close contact with the inner upper surface of the main body 210, discharge of the main body 210 The ball 216 is covered. Here, the other side of the discharge plate 222 is positioned to face the outlet 214 of the body 210. On the other hand, in some cases, the other side of the discharge plate 222 may be positioned to face the inlet 212 of the main body 210, of course.

The rising induction part 226 is connected to the lower side of the other side of the discharge plate 222 and configured to be raised or lowered by buoyancy of water introduced into the main body 210. That is, the rising induction part 226 is configured to press the other side of the discharge plate 222 to the upper portion by buoyancy, so that the other side of the discharge plate 222 covers the discharge hole 216.

In addition, bubbles introduced into the main body 210 are moved to an upper portion of the main body 210. At this time, the bubble, the pressure between the discharge plate 222 of the bubble discharge unit 220 and the upper surface of the body 210 by the rising pressure of the bubble itself, so that the other side of the discharge plate 222 Spaced apart from the upper surface of the main body 210, the discharge hole 216 of the main body 210 is opened, the bubble is discharged to the outside through the open discharge hole 216.

On the other hand, the discharge plate 222 of the bubble discharge unit 220 is often caused to adhere to the inner upper surface of the main body 210 by the cohesive force of the water, etc., in order to solve this, the present invention is the discharge induction in the main body 210 It has a groove 218. The discharge guide groove 218 is formed to be long in the groove shape along the inner upper surface of the main body 210, one side in the longitudinal direction of the discharge plate 222 is located outside the discharge plate 222, the length The other side of the direction extends in the inner circumferential direction of the discharge hole 216 and is configured to communicate with the discharge hole 216 of the main body 210.

 FIG. 8 is a view schematically illustrating a process of discharging bubbles inside the main body through a discharge guide groove of a hot water supply device that is easy to discharge bubbles according to a first embodiment of the present invention.

Referring to the drawings, bubbles generated in the process of heating water in the heater unit 300 flows into the main body 210 of the check valve 200 and then externally through the discharge hole 216 of the main body 210. Is discharged.

On the other hand, as described above, the discharge plate 222 of the bubble discharge unit 220 may be attached to the inner upper surface of the main body 210 by the cohesive force of the water. At this time, the bubble introduced into the main body 210 is moved to the upper portion of the main body 210, and then moved to one side of the discharge induction groove 218 located outside the discharge plate 222 by the rising pressure of the bubble itself. Then, it is moved in the other direction of the discharge induction groove 218 located inside the discharge plate 222, in this process to apply pressure to the discharge plate 222. Then, the discharge plate 222 is spaced downward from the inner upper surface of the main body 210, the discharge hole 216 of the main body 210 is opened, whereby the bubble is discharge hole 216 of the open main body 210 Easily discharged to the outside through).

Thus, even if the discharge plate 222 is in close contact with the upper surface of the main body 210 due to the cohesive force of the water, the air flowing into the main body 210 is moved along the discharge induction groove 218 and the pressure on the discharge plate 222 Since the discharge plate 222 opens the discharge hole 216 of the main body 210, the bubble is easily discharged to the outside through the discharge hole 216 of the main body 210 is opened. have.

9 is a view schematically illustrating a hot water supply device that is easy to discharge bubbles according to a second embodiment of the present invention.

Referring to FIG. 9, the hot water supply device for easily discharging bubbles according to the second exemplary embodiment of the present invention includes a bubble discharge part 230 of a discharge induction groove 219 and a check valve 200 formed in the main body 210. ) Is configured to be different from the first embodiment.

That is, the hot water supply device for easy bubble discharge according to the second embodiment of the present invention includes a water tank 100, the heater 300 and the check valve 200, the check valve 200 is the main body ( 210, the disk 240 and the bubble discharge unit 230.

Bubble discharge unit 230 is adjacent to the discharge hole 216 is formed through the upper portion of the main body 210, the fixing portion 234 is fixed to penetrate the upper surface of the main body 210, one side of the fixing portion 234 The other side includes a discharge plate 232 for opening and closing the discharge hole 216, and an upward guide portion 236 for moving the discharge plate 232 up and down.

Discharge plate 232 is disposed on the inner upper surface of the main body 210, one side is fixed to the fixing portion 234, the other side extends in the direction of the discharge hole 216, so as to cover the discharge hole 216 Is formed. The discharge plate 232 is formed in a plate shape, made of a watertight material, for example, silicon, etc., when the other side of the discharge plate 232 is in close contact with the inner upper surface of the main body 210, the discharge of the main body 210 The ball 216 is covered. Here, the other side of the discharge plate 232 is positioned to face the outlet 214 of the body 210.

The rising induction part 236 is connected to the lower side of the other side of the discharge plate 232 is configured to be raised or lowered by the buoyancy of the water introduced into the body 210. That is, the rising induction part 236 is configured to press the other side of the discharge plate 232 upward by buoyancy, so that the other side of the discharge plate 232 covers the discharge hole 216.

In addition, bubbles introduced into the main body 210 are moved to an upper portion of the main body 210. At this time, the bubble is to dig a space between the discharge plate 232 of the bubble discharge unit 230 and the upper surface of the main body 210 by the rising pressure of the bubble itself, so that the other side of the discharge plate 232 Spaced apart from the upper surface of the main body 210, the discharge hole 216 of the main body 210 is opened, the bubble is discharged to the outside through the open discharge hole 216.

On the other hand, the discharge plate 232 of the bubble discharge unit 230 is often caused to adhere to the inner upper surface of the main body 210 by the cohesive force of water, etc., in order to solve this, the present invention induces the discharge induction in the main body 210 The groove 219 is provided. The discharge guide groove 219 is elongated in the shape of a groove along an inner upper surface of the main body 210, and one side in the longitudinal direction passes through the outer side of the discharge plate 232 toward the outlet portion 214 of the main body 210. The other side in the longitudinal direction extends in the inner circumferential direction of the discharge hole 216 of the main body 210, and is configured to communicate with the discharge hole 216 of the main body 210.

FIG. 10 is a view schematically illustrating a process of discharging bubbles inside a body through a discharge guide groove of a hot water supply device that is easy to discharge bubbles according to a second embodiment of the present invention.

Referring to FIG. 10A, bubbles generated in the process of heating water in the heater unit 300 flow into the main body 210 of the check valve 200, and then discharge holes of the main body 210. 216 is discharged to the outside. On the other hand, as described above, the discharge plate 232 of the bubble discharge unit 230 may be attached to the inner upper surface of the main body 210 by the cohesive force of the water.

At this time, referring to Figure 10 (b), the bubble introduced into the main body 210 is moved to the upper portion of the main body 210, it is located on the outside of the discharge plate 232 by the rising pressure of the bubble itself. After moving to one side of the discharge induction groove 219, it is moved in the other direction of the discharge induction groove 219 located inside the discharge plate 232, in this process to apply pressure to the discharge plate 232. Then, the discharge plate 232 is spaced downward from the inner upper surface of the main body 210, the discharge hole 216 of the main body 210 is opened, whereby the bubble is discharge hole 216 of the open main body 210 Easily discharged to the outside through).

Thus, even if the discharge plate 232 is in close contact with the upper surface of the main body 210 due to the cohesive force of the water, the air flowing into the main body 210 is moved along the discharge induction groove 219, the pressure on the discharge plate 232 Since the discharge plate 232 opens the discharge hole 216 of the main body 210, the bubble is easily discharged to the outside through the discharge hole 216 of the main body 210 is opened. have.

Although the present invention has been described in detail in the above embodiments, it is obvious that the present invention is not limited thereto, and it is obvious to those skilled in the art that various changes and modifications can be made within the scope of the technical idea of the present invention. If it falls within the scope of the utility model registration claims, the technical idea should also be regarded as belonging to the present invention.

100: water tank 102: supply port
104: discharge port 106: opening
200: check valve 210:
212: inlet portion 214: outlet portion
216: discharge hole 218, 219: discharge guide groove
220: bubble discharge unit 222: discharge plate
224: fixed portion 226: buoyancy portion
230: bubble discharge unit 232: discharge plate
234: fixed portion 236: buoyancy portion
240: disk

Claims (5)

A water tank in which a supply part is formed at one side and a discharge part is formed at the other side;
A heater member provided outside the water tank and connected to the discharge part to heat the water discharged from the discharge part; And
The main body is provided on the inside of the water tank, the inlet is formed on one side so that the water of the water tank is introduced, the outlet is formed to be connected to the discharge portion on the other side, and the inlet of the main body to open and close the And a check valve having a disk mounted therein, and a bubble discharge part for opening and closing a discharge hole formed in an upper portion of the main body to discharge bubbles provided in the main body to the outside of the main body,
The bubble discharge unit includes a discharge plate which is in close contact with the inner upper surface of the main body to cover the discharge hole, or is spaced apart from the upper inner wall of the main body to open the discharge hole,
The main body, the hot water supply device easy to discharge the bubble, characterized in that it comprises a discharge guide groove formed in the outward direction of the discharge plate along the inner upper surface of the main body facing the discharge plate.
The method according to claim 1,
One side of the discharge induction groove in the longitudinal direction is located outside the discharge plate, the other side of the discharge induction groove in the longitudinal direction of the discharge plate, characterized in that the hot water supply device easy to discharge.
3. The method of claim 2,
One side of the longitudinal direction of the discharge induction groove is easy to discharge the hot water supply apparatus, characterized in that extending in the direction of the outlet of the main body.
3. The method of claim 2,
The other side in the longitudinal direction of the discharge guide groove is easy to discharge the hot water supply apparatus, characterized in that extending in the inner circumferential direction of the discharge hole.
The method according to claim 1,
The bubble discharge unit:
One side is fixed to the inner upper surface of the main body, the other side of the discharge plate covering the discharge hole; And
It is connected to the other side of the discharge plate is a hot water supply device easy to discharge the bubble, characterized in that it comprises a rising induction portion is raised by the pressure or buoyancy of water introduced into the main body.

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