KR20120056194A - Hot water tank for purifier - Google Patents

Abstract

PURPOSE: A warm water tank for a water purifier is provided to keep the inside of a warm water tank under atmospheric pressure by arranging an exhaust pipe at a top module of the warm water tank. CONSTITUTION: A heating chamber module heats purified water using a supplying pipe. An insulator(40) surrounds the heating chamber module and prevents the emission of heat to the outside of the heating chamber module. A top module discharges warm water heated at the heating chamber module and keeps the internal pressure of the heating chamber module. The remaining warm water is collected after discharging. A valve is installed at the supplying pipe and controls the purified water supplied to the heating chamber module. The top module sprays the warm water from the heating chamber module into the top module using pressure applied to the purified water.

Description

Hot water tank for purifier

The present invention relates to a hot water tank for water purifier, and more particularly, to a hot water tank for water purifier, which maintains a constant pressure inside the hot water tank and prevents backflow of hot water.

A water cleaner or water purifier widely used in daily life is a device for purifying raw water, such as tap water, with drinking water suitable for the provisions of Article 5, paragraph 3, of the Water Management Act. It is variously divided according to the back.

According to the principle of water purification, which is the most common classification standard, it can be divided into natural filtration, direct filtration, distillation, reverse osmosis, etc. Natural filtration is stored by its own load Water is purified through the filter, and the direct filtration type connects the water purifier directly to a water supply pipe or a water outlet to purify the water through the filter with the supply water pressure of raw water. In addition, distillation is a method of boiling raw water to recollect steam generated, and reverse osmosis uses a semi-permeable membrane called a membrane to remove impurities in the raw water.

On the other hand, natural filtration and direct filtration water purifiers currently used mainly represent a purification method by a filter, so for convenience, commonly referred to as a 'filter water purifier', a general filter water purifier can be used for intake, filtration, adsorption, main filtration, and water extraction. Provide an integer through the steps.

As a result, the raw water obtained by the filter type water purifier is filtered out with impurities in the water through the filtration step, and then volatile organic substances are removed through the adsorption step, and then finally discharged to the user through the main filtration process according to the type of the water purifier. As the filter type water purifier for this purpose, a plurality of filter tanks in which various filters, such as a precipitating filter such as a nonwoven fabric, a filtration filter using activated carbon or a ceramic, a reverse osmosis filter, a hollow fiber membrane filter, and the like are used.

Meanwhile, as shown in FIG. 1, in a general cold / hot water purifier 100, a water tank 110 storing water filtered by a filter (not shown) and a water tank 110 through an inlet pipe 121. Built-in cold water tank 120 to quench and discharge the water introduced into the interior from the refrigerant pipe 123 surrounding the outer surface, and the water flowing into the interior from the water supply tank 110 through the inlet pipe 131 The hot water tank 130 for heating and discharging through the heater 133 is provided.

However, when the above-described hot water tank 130 is overheated and the water temperature and the vapor pressure of the hot water tank 130 are excessively high, the water stored therein boils, and the hot water of the hot water is supplied to the water intake pipe 121 by the excessive steam pressure. This phenomenon occurs to flow back to the water supply tank 110, such a backflow phenomenon causes the temperature of the water in the water supply tank 110 to increase the cooling performance in the cold water tank 120, the hot water tank 130 There is a problem that the temperature of the water in) cannot be raised to a relatively high temperature.

In addition, the hot water tank 130 according to the prior art, if the internal steam pressure is excessively high, there is a risk that the hot water tank 130 does not withstand the steam pressure and is damaged.

An object of the present invention is to provide a hot water tank for a water purifier that maintains a constant pressure inside the hot water tank and prevents the back flow of hot water.

One side of the present invention is a heating chamber module 20 for heating the purified water through the supply pipe 25; An insulator 40 surrounding the heating chamber module 20 to insulate the heating chamber module 20 and blocking heat from the heating chamber module 20 from dissipating to the outside; A top module 30 for discharging hot water heated by the heating chamber module 20, maintaining a constant pressure in the heating chamber module 20, and recovering the discharged hot water; Is installed in the supply pipe 25 includes a valve 50 for controlling the purified water supplied to the heating chamber module 20, the top module 30 is at a pressure supplied to the purified water by the valve 50 It provides a hot water tank for a water purifier including a lower hole 31 for allowing the hot water discharged from the heating chamber module 20 is injected into the top module 30.

Here, the top module 30 includes a top body 32 in which the lower hole 31 is formed and stores hot water discharged and remaining; A discharge pipe (35) for discharging hot water in the top body (32); It may include an exhaust portion 36 formed in communication with the inside of the top body 32 to form the inside of the top body 32 at atmospheric pressure.

In addition, the inner diameter b of the discharge pipe 35 may be larger than the diameter a of the lower hole 31.

In addition, a slit 37 may be formed at one end 35a of the discharge pipe 35 disposed in the top body 32.

In addition, at one end 35a of the discharge pipe 35 disposed inside the top body 32, a discharge pipe hole 38 for recovering hot water remaining in the discharge pipe 35 into the top body 32 is provided. Can be formed.

In addition, the one end (35a) of the discharge pipe 35 disposed in the top body 32 is formed with a slit 37 and the discharge pipe hole 38 in the vertical direction, the discharge pipe hole 38 is the slit ( 37) can be formed above.

In addition, the top module 30 may have a lower hole groove 33a protruding toward the heating chamber module 20, and the lower hole 31 may be formed in the lower hole groove 33a.

Another aspect of the invention the heating chamber module 20 for heating the purified water through the supply pipe 25; An insulator 40 surrounding the heating chamber module 20 to insulate the heating chamber module 20 and blocking heat from the heating chamber module 20 from dissipating to the outside; A top module 30 for discharging hot water heated by the heating chamber module 20, maintaining a constant pressure in the heating chamber module 20, and recovering the discharged hot water; Is installed in the supply pipe 25 includes a valve 50 for controlling the purified water supplied to the heating chamber module 20, the top module 30 is at a pressure supplied to the purified water by the valve 50 A lower hole 31 through which hot water discharged from the heating chamber module 20 is injected into the top module 30; A top body 32 formed with the lower hole 31 and storing hot water discharged and remaining; A discharge pipe (35) for discharging hot water in the top body (32); It is formed in communication with the inside of the top body 32 includes an exhaust portion 36 for forming the inside of the top body 32 to the atmospheric pressure, the discharge pipe 35 of the top body 32 At one end 35a, a discharge pipe hole 38 for recovering hot water remaining in the discharge pipe 35 into the top body 32 and hot water inside the top body 32 flow into the discharge pipe 35. A slit 37 can be formed to make it.

The hot water tank for water purifier according to the present invention has the effect that the solenoid valve 50 is disposed on the supply pipe 25 side to prevent the hot water heated to the supply pipe side from flowing backward.

In addition, the hot water tank for water purifier according to the present invention has an effect that the exhaust pipe 36 is arranged in the top module 20 to maintain the inside of the hot water tank 10 at atmospheric pressure.

In addition, the hot water tank for the water purifier according to the present invention forms a lower hole (a) of the lower hole 31 of the top module 20 than the inner diameter (b) of the discharge pipe 35 so that the hot water discharged from the lower hole 31 There is an effect to be injected into the discharge pipe 35 at a high pressure.

1 is a structural diagram of a cold and hot water heater according to the prior art
2 is a perspective view of a hot water tank according to an embodiment of the present invention;
3 is a front view of FIG. 2
4 is a left side view of FIG.
5 is a right side view of FIG.
6 is a cross-sectional view taken along AA shown in FIG. 5.
7 is a perspective view of the heating chamber module shown in FIG.
8 is a perspective view of the top module shown in FIG.
9 is a plan view shown in FIG.
10 is a cross-sectional view taken along the line BB shown in FIG.
11 is a front view of the hot water tank connected to the solenoid valve according to an embodiment of the present invention

Figure 2 is a perspective view of a hot water tank according to an embodiment of the present invention, Figure 3 is a front view of Figure 2, Figure 4 is a left side view of Figure 2, Figure 5 is a right side view of Figure 2, Figure 6 5 is a cross-sectional view taken along AA, FIG. 7 is a perspective view of the heating chamber module shown in FIG. 2, FIG. 8 is a perspective view of the top module shown in FIG. 7, and FIG. 9 is a plan view shown in FIG. 8. 10 is a cross-sectional view taken along the line BB shown in FIG. 9, and FIG. 11 is a front view of the hot water tank to which the solenoid valve is connected according to an embodiment of the present invention.

As shown, the hot water tank for the water purifier 10 according to an embodiment of the present invention wraps the heating chamber module 20 and the heating chamber module 20 for heating the purified water, the heating chamber module 20 ) And an insulator 40 for blocking heat from the heating chamber module 20 from being dissipated to the outside, and discharging hot water heated in the heating chamber module 20, and heating the module 20. It maintains the pressure inside the constant and includes a top module 30 for recovering the discharged hot water.

The heating chamber module 20 is a heating body 22, a heating coil 24 installed in the heating body 22 to heat the filtered purified water, and senses the temperature inside the heating body 22 A temperature sensor insertion unit 26 in which a temperature sensor (not shown) is installed, a bimetal 28 for turning on / off the heating coil 24 according to a temperature inside the heating body 22, A supply pipe 25 for supplying purified water into the heating body 22, a bracket 21 for fixing the heating body 22 to a water purifier, and an outer circumferential surface of the heating body 22 are installed on the bimetal 28. The bimetal mounting portion 23 is inserted and fixed.

The heating body 22 is wrapped inside the insulator 40 and disposed therein, and is formed in a cylindrical shape in this embodiment.

The heating coil 24 is disposed in the heating body 22 and heated by an applied power source to heat the purified water stored in the heating body 22.

The bimetallic mounting portion 23 is fixed to the outer circumferential surface of the heating body 22, the bimetal 28 is slide-inserted into the bimetallic mounting portion 23 is fixed.

Here, the heating body 22 is formed through the supply pipe 25 for supplying purified water and the temperature sensor inserting portion 26 for inserting the temperature sensor therethrough.

The insulator 40 is formed to surround the outer circumferential surface of the heating body 22, and the bimetal penetrating portion 48 is formed to expose the bimetal 28.

The top module 30 is in communication with the heating body 22, the top body 32 receives the heated hot water, the discharge pipe 35 for discharging the hot water inside the top body 32, and the top body (32) It includes an exhaust 36 formed in communication with the interior.

The top body 32 is coupled to the lower body 33 formed with a lower hole 31 to communicate with the heating body 22 and the lower body 33 to shield the lower body 33. And an upper body 34.

The purified water heated by the heating body 22 is stored in the top body 32 through the lower hole 31, and the diameter of the lower hole 31 is defined as a. In addition, the lower body 33 has a lower hole hole 33a protruding toward the heating body 22 to form the lower hole 31.

Here, the discharge pipe 35 and the exhaust unit 36 are disposed to penetrate the upper body 34, and the discharge pipe 35 selectively discharges the purified water inside the top body 32, and the exhaust unit 36 is configured to discharge steam inside the top body 32.

Thus, one end 35a of the discharge pipe 35 is disposed inside the top body 32, the other end 35b is disposed outside the top body 32, and the one end 35a is the lower body 33. ) And spaced apart from each other by a predetermined interval to maintain the separation distance so as to be immersed in the purified water stored in the top body 32.

The discharge pipe 35 is formed in the form of a pipe, the inner diameter (b) of the discharge pipe 35 is formed larger than the diameter (a) of the lower hole 31 is discharged from the lower hole 31 Make it easy to enter

A slit 37 is formed in one end 35a of the discharge pipe 35 in a longitudinal direction (up and down direction), and an discharge pipe hole 38 is formed above the slit 37.

Here, the slit 37 is for easily sucking the hot water stored in the top body 32 into the discharge pipe 35 when the hot water is discharged through the discharge pipe 35. That is, when there is no slit 37, purified water may flow only through the inner diameter b formed at one end of the discharge pipe 35, but when the slit 37 is formed, the inner diameter b and the slit 37 Rapidly heated purified water can flow through.

The discharge pipe hole 38 is for draining hot water remaining in the discharge pipe 35 into the top body 32 after the hot water is discharged, even if the one end 35a is immersed in the hot water. Hot water inside the 35 may flow into the top body 32 through the discharge pipe hole 38.

Here, the discharge pipe hole 38 for discharging the purified water remaining in the discharge pipe 35 to the top body 32 is disposed above the slit 37.

The exhaust unit 36 communicates with the inside of the top body 32 to maintain the inside of the top body 32 at atmospheric pressure.

Hereinafter, the operation of the hot water tank 10 according to the present embodiment will be described in more detail with reference to the drawings.

First, the filtered purified water is filled in the heating body 22, and power is applied to the heating coil 24 so that the purified water in the heating body 22 is heated with hot water.

Here, the solenoid valve 50 is connected to the supply pipe 25 side to supply the purified water into the heating body 22, and the solenoid valve 50 is not connected to the discharge pipe 35 side. That is, the amount of water flowing into and out of the hot water tank 10 is controlled by the solenoid valve 50.

Thus, when hot water is moved from the heating body 22 to the top module 30, the solenoid valve 50 is opened to increase the water level of the heating body 22, and the water level is increased by an integer increased. Hot water is moved to the top module 30.

Therefore, since the lower hole 31 is the only place where the heating body 22 can be discharged, when the purified water is supplied from the solenoid valve 50, the lower hole 31 is discharged by the pressure of the purified water supplied. It is discharged to the discharge pipe 35 in the form of injection.

That is, the diameter (a) of the lower hole 31 is formed to be extremely small and the hot water discharged from the lower hole 31 by the pressure of the water supplied through the solenoid valve 50 is sprayed from the nozzle in the form It is discharged into the discharge pipe 35.

On the other hand, when hot water is discharged through the lower hole 31, the hot water stored in the top body 32 is also injected into the discharge pipe 35 by the pressure of the hot water discharged, the slit 37 Through the hot water stored in the top body 32 can be moved into the discharge pipe 35 more easily.

Thereafter, when the solenoid valve 50 is closed, the supply of hot water through the lower hole 31 is also stopped, and the hot water remaining in the discharge pipe 35 moves to one end 35a of the discharge pipe 35 by its own weight. do.

Here, when the hot water stored in the top body 32 is lower than the height of the slit 37, the hot water is discharged into the top body 32 through the slit 37, the height of the slit 37 If higher, it is discharged into the top body 32 through the discharge pipe hole 38. Thus, the discharge pipe hole 38 is located inside the top body 32, but is preferably located directly below the upper body 34.

In addition, the exhaust pipe 36 is disposed to penetrate the top body 32. Even though the heating chamber module 20 is heated by the heating coil 24, the inside of the top body 32 is in an atmospheric pressure state. The inside of the discharge pipe 35 is also maintained at atmospheric pressure by the discharge pipe hole 38.

In addition, the solenoid valve 50 is disposed on the supply pipe 25 side, and the heated hot water flows only to the discharge pipe 35 in a state where the hot water is originally blocked from flowing back to the supply pipe 25. Has a structure.

Although the present invention has been described above with reference to the illustrated drawings, the present invention is not limited to the embodiments and drawings described herein, and is applied by those skilled in the art through various combinations within the scope of the technical idea of the present invention. This is possible.

10: hot water tank 20: heating chamber module
22: heating body 24: heating coil
25 supply pipe 26 temperature sensor insert
28: bimetal 30: top module
31: Lower Hall 32: Top Body
33: Lower Body 34: Upper Body
35 discharge pipe 35a: discharge pipe
35b: other end of the exhaust pipe 36: exhaust pipe
37: slit 38: discharge pipe hole
40: insulator 50: solenoid valve

Claims (8)

A heating chamber module 20 for heating the purified water through the supply pipe 25;
An insulator 40 surrounding the heating chamber module 20 to insulate the heating chamber module 20 and blocking heat from the heating chamber module 20 from dissipating to the outside;
A top module 30 for discharging hot water heated by the heating chamber module 20, maintaining a constant pressure in the heating chamber module 20, and recovering the discharged hot water;
Installed in the supply pipe 25 includes a valve 50 for controlling the purified water supplied to the heating chamber module 20,
The top module 30 has a lower hole 31 which allows the hot water discharged from the heating chamber module 20 to be injected into the top module 30 by the pressure supplied by the valve 50. Hot water tank for water purifier to contain. The method according to claim 1,
The top module 30 is
A top body 32 formed with the lower hole 31 and storing hot water discharged and remaining;
A discharge pipe (35) for discharging hot water in the top body (32);
The hot water tank for a water purifier including an exhaust part 36 formed in communication with the inside of the top body 32 to allow the inside of the top body 32 to be formed at atmospheric pressure. The method according to claim 2,
The inner diameter (b) of the discharge pipe (35) is a hot water tank for water purifier formed larger than the diameter (a) of the lower hole (31). The method according to claim 2,
Hot water tank for a water purifier formed with a slit 37 at one end (35a) of the discharge pipe (35) disposed inside the top body (32). The method according to claim 2,
At one end 35a of the discharge pipe 35 disposed inside the top body 32, a water purifier having a discharge pipe hole 38 for recovering hot water remaining in the discharge pipe 35 into the top body 32 is formed. Hot water tank. The method according to claim 2,
One end 35a of the discharge pipe 35 disposed inside the top body 32 is provided with a slit 37 and a discharge pipe hole 38 in the vertical direction, and the discharge pipe hole 38 is the slit 37. Hot water tank for water purifier formed on the upper side. The method according to claim 1,
The top module 30 is a hot water tank for a water purifier in which a lower hole groove 33a protruding toward the heating chamber module 20 is formed, and the lower hole 31 is formed in the lower hole groove 33a. A heating chamber module 20 for heating the purified water through the supply pipe 25; An insulator 40 surrounding the heating chamber module 20 to insulate the heating chamber module 20 and blocking heat from the heating chamber module 20 from dissipating to the outside; A top module 30 for discharging hot water heated by the heating chamber module 20, maintaining a constant pressure in the heating chamber module 20, and recovering the discharged hot water; Installed in the supply pipe 25 includes a valve 50 for controlling the purified water supplied to the heating chamber module 20,
The top module 30 is
A lower hole 31 through which hot water discharged from the heating chamber module 20 is injected into the top module 30 by a pressure supplied with purified water by the valve 50;
A top body 32 formed with the lower hole 31 and storing hot water discharged and remaining;
A discharge pipe (35) for discharging hot water in the top body (32);
It is formed in communication with the inside of the top body 32 includes an exhaust 36 for forming the inside of the top body 32 to atmospheric pressure,
At one end 35a of the discharge pipe 35 disposed inside the top body 32, a discharge pipe hole 38 for recovering hot water remaining in the discharge pipe 35 into the top body 32 and the tower Hot water tank for a water purifier formed with a slit (37) for introducing hot water in the body (32) into the discharge pipe (35).

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