KR20120137824A - Heating water tank and water purifier having the same - Google Patents

Abstract

PURPOSE: A warm water bath and a directly draining type water purifier including the same are provided to alleviate the heat expansion of heated water in a vapor buffer space. CONSTITUTION: A directly draining type water purifier including a warm water bath includes a water bath(60), a warm water draining pipe(70), an air vent pipe(80), a heater(82), and a partition(90). A space(58) is formed in the water bath. The warm water draining pipe is installed at the upper part of the water bath. The air vent pipe is installed at the upper part of the water bath and is spaced apart from the warm water draining pipe. The heater is installed at the lower part of the water bath. The partition divides the space in the water bath into a water heating space(S1) and a vapor buffer space(S2). The vapor buffer space is positioned at the upper part of the water heating space.

Description

Hot water tank and water purifier having it {Heating water tank and Water purifier having the same}

The present invention relates to a hot water tank and a direct type water purifier having the same, and more particularly, to a hot water tank for discharging steam through an air vent pipe and a direct type water purifier having the same.

In general, a water purifier is a device that removes impurities and filters them by physical and chemical methods.

Water purifiers can be classified into natural filtration, direct filtration, ion exchange resin, distillation, reverse osmosis, etc.

Water purifiers are classified according to the type of storage water purifier that passes through the filter and stores the purified purified water in a water tank, and discharges it by heating or cooling. There is.

The water purifier can connect an air vent pipe for flowing out steam when the hot water tank heats the water to the hot water tank, and connect the air vent tube to the water tank to relieve the pressure of water expansion due to the temperature increase when the water is heated in the hot water tank. In addition, the water overflowed through the air vent pipe can be made to flow into the reservoir.

The water purifier according to the prior art has a problem that a safety accident may be caused by the flooded water through the air vent pipe in the hot water tank when the reservoir is not installed to minimize the size and reduce the cost.

The present invention has been made in order to solve the above problems of the prior art, the hot water tank which can be discharged after the steam in the tank is buffered in the tank and the water in the tank to minimize the outflow through the air vent pipe The purpose is to provide.

Another object of the present invention is to provide a direct type water purifier having a hot water tank that does not need a water tank and can prevent contamination and safety accidents caused by water flowing out of the hot water tank.

Hot water tank according to the present invention for solving the above problems is a water tank formed with a space therein; A hot water discharge pipe installed at an upper portion of the water tank; An air vent pipe installed at an upper portion of the water tank to be spaced apart from the hot water discharge pipe; A heater installed under the water tank; A partition partitioning the space into a water heating space containing water heated by the heater and a vapor buffer space above the water heating space, wherein the partition wall has a diameter of the hot water output pipe below the hot water discharge pipe. Smaller handwork is formed.

The diameter of the hand may be less than 1/2 times the diameter of the hot water outlet pipe.

 The height of the bottom of the air vent pipe may be installed higher than the bottom height of the hot water outlet pipe.

The water tank may include an inner tank and an inner tank positioned inside the outer tank and forming a vacuum chamber between the outer tank and the space formed therein, and the partition wall may be joined to the inner tank.

The outer tank, the inner tank and the partition wall may be made of stainless steel.

The direct type water purifier having a hot water tank according to the present invention comprises: a water purifying unit for purifying water; A hot water tank in which water passing through the water purification unit is introduced and heated; And a hot water valve for discharging the water heated in the hot water tank, wherein the hot water tank includes a water tank having a space formed therein; A hot water discharge pipe installed at an upper portion of the water tank; An air vent pipe installed at an upper portion of the water tank to be spaced apart from the hot water discharge pipe; A heater installed under the water tank; A partition partitioning the space into a water heating space containing water heated by the heater and a vapor buffer space above the water heating space, wherein the partition wall has a diameter of the hot water output pipe below the hot water discharge pipe. Smaller handwork is formed.

The present invention is an advantage that the thermal expansion of the water heated in the water heating space can be buffered in the steam buffer space through the water, and the water heated in the water heating space through the air vent pipe to minimize the overflow of the water tank outside There is this.

In addition, the amount of water in the steam buffer space is properly maintained to prevent the water from flowing back through the air vent pipe, there is an advantage that only the steam can be discharged through the air vent pipe.

In addition, there is an advantage that can prevent the water overflow of the hot water tank in the direct type water purifier without a water tank, and prevent a safety accident.

In addition, there is an advantage in that the partition wall and the water tank are easily joined and have good joining properties.

1 is a view showing the configuration of an embodiment of a direct type water purifier having a hot water tank according to the present invention;
2 is an enlarged cross-sectional view of the hot water tank shown in FIG.
3 is an enlarged view of a vapor buffer space when the ratio between the manual and hot water outlet pipes shown in FIG. 2 is more than 1/2 times;
4 is an enlarged view of a vapor buffer space when the ratio between the manual and hot water discharge pipes shown in FIG. 2 is 1/2 times or less.

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

1 is a diagram showing the configuration of an embodiment of a direct type water purifier according to the present invention.

The direct type water purifier includes a water purifying unit 2 for purifying water and a hot water tank 4 for heating the water purified by the water purifying unit 2 with reference to FIG. 1. The direct type water purifier may further include a cold water tank 6 in which the water purified by the water purification unit 2 is cooled.

The water purification unit 2 is connected to a raw water supply source 8 such as a faucet and a raw water supply flow path 10 to purify the water supplied from the raw water supply source 8.

The water purification unit 2 may include at least one filter 12, 14, 16 through which water passes sequentially, and at least one filter 12, 14, 16 of the raw water feed passage 10. Water supply valve 18 for adjusting the water flowing toward the () may be installed.

The purified water unit 2 is connected to the purified water flow path 20 through which the purified water flowing out of the purified water unit 2 passes.

The purified water flow path 20 may be arranged to withdraw the water flowing out from the purified water unit 2 to the outside, and the hot water tank 4 and the cold water tank may not be directly discharged from the purified water unit 2 to the outside. It is possible to arrange to guide to at least one of (6).

The purified water flow path 20 may be provided with a water purification valve 24 for discharging or blocking the water flowing out of the water purification unit 2 to the outside when the water flowing out of the water purification unit 2 is disposed to the outside. .

The purified water valve 24 is a solenoid valve that discharges water when a purified water extraction command is input through a purified water extraction input unit (not shown), such as a purified water extraction button, and blocks water discharge when a purified water extraction stop command is input through the purified water extraction input unit. It can be done. The purified water valve 24 may be formed of a purified water discharge coke valve that is provided with a purified water discharge lever (not shown) to discharge water during operation of the purified water discharge lever.

The purified water flow path 20 is disposed so that the water flowing out from the purified water unit 2 is discharged to the outside, and the purified water valve 24 is installed in the purified water unit 2.

The hot water tank 4 may be connected to the purified water flow path 20 and the warm water purification flow path 26 to heat the water flowing through the warm water purification flow path 26.

The hot water tank 4 may be connected to the hot water discharge passage 34 which is arranged to withdraw water from the hot water tank 4 to the outside.

The hot water discharge passage 34 may be provided with a hot water valve 36 for discharging or blocking the water flowing out of the hot water tank (4) to the outside.

The hot water valve 36 is a solenoid valve that prevents water discharge when the hot water discharge command is input through a hot water discharge input unit (not shown) such as a hot water discharge button, and the hot water discharge stop command is input through the hot water discharge input unit. It can be done. The hot water valve 36 may be formed of a hot water discharge coke valve installed with a hot water discharge lever (not shown) to discharge water when the hot water discharge lever is operated.

The cold water tank 6 includes a cooling coil 40 in which water is cooled, and a water tank 42 (cold water tank) in which a cool storage material for cooling the cooling coil 40 is contained.

The cold water tank 6 may further include a cooling device 44 for cooling the cold storage material of the water tank 42.

The cooling device 44 includes a compressor in which a refrigerant is compressed, a condenser in which the refrigerant compressed in the compressor is condensed, an expansion mechanism in which the refrigerant condensed in the condenser is expanded, and an evaporator in which the refrigerant expanded in the expansion mechanism is evaporated. The evaporator may be installed inside the water tank 42 or on the outer wall of the water tank 42 to cool the coolant or the water tank 42 in the water tank 42.

In the cold water tank 6, water purified from the purified water unit 2 may be used as a coolant. Hereinafter, water from the purified water flow path 20 flows into the water tank 42 to be cooled by the cooling device 44 and cooled. It will be described as cooling the coil 40.

The cooling coil 40 may be connected to the purified water flow path 20 and the first cold water purified water flow passage 46. The cooling coil 40 may be connected to the cold water discharge passage 48 which is arranged to withdraw the water of the cooling coil 40 to the outside.

The water tank 42 may be connected to the purified water flow path 20 and the second cold water purified water flow path 50, and a drain flow path 52 for draining the water of the water tank 42 may be connected.

The cold water tank 6 is contained in the water tank 42 so that the water flowing into the water tank 42 through the second cold water purification channel 50 is heat-exchanged with the cooling coil 40, and through the drain channel 52 Can be drained. In addition, the cold water tank 6 is cooled while the water introduced into the cooling coil 40 through the first cold water purification flow passage 46 passes through the cooling coil 40, and the water cooled in the cooling coil 40 is Cold water may be discharged to the outside through the water flow passage (48).

The cold water discharge channel 48 may be provided with a cold water valve 54 to discharge or block the water leaked from the cooling coil 40 to the outside.

The cold water valve 54 adjusts the water discharge of the water cooled in the cooling coil 40. When the cold water discharge command is input through a cold water discharge input unit (not shown) such as a cold water discharge button, water is discharged and the cold water discharge input unit is input. When the cold water discharge stop command is input through the solenoid valve to prevent the discharge of water can be made. The cold water valve 54 may include a cold water discharge coke valve that is provided with a cold water discharge lever (not shown) to discharge water when the cold water discharge lever is operated.

The water purifier is installed in the purified water flow path 20 to control the water supply to the first cold water purified water flow passage 46, and the first cold water valve 56 is installed in the purified water flow path 20, and the second cold water purified water flow path ( And a second cold water valve 57 to regulate the water supply to 50.

FIG. 2 is an enlarged cross-sectional view of the hot water tank shown in FIG. 1, and FIG. 3 is an enlarged view of a vapor buffer space when the ratio between the manual and hot water outlet tubes shown in FIG. 2 is more than 1/2 times. 2 is an enlarged view of the vapor buffer space when the ratio between the manual and hot water outlet pipes shown in FIG. 2 is less than 1/2 times.

The hot water tank 4 includes a water tank 60 in which a space 58 is formed therein; A hot water discharge pipe 70 installed at an upper portion of the water tank 60; An air vent pipe (80) installed at an upper portion of the water tank (60) to be spaced apart from the hot water outlet pipe (70); A heater 82 for heating the water in the water tank 60; The partition 58 includes a partition 90 which divides the space 58 into a water heating space S1 in which water heated by the heater 82 is contained and a vapor buffer space S2 above the water heating space S1.

The water tank 60 may be provided with a water inlet pipe 62 is connected to the purified water flow path 26 for the hot water in the lower portion. The water inlet pipe 62 is preferably installed on the lower plate of the water tank 60.

  The water tank 60 may include an outer tank 64 and an inner tank 66 positioned inside the outer tank 64 and forming a vacuum chamber V between the outer tank 64 and a space 58 formed therein. have.

The water tank 60 may form an outer surface on which the outer tank 64 forms the outer appearance of the water tank 60, and may form an inner surface of the water tank 66 in which the inner tank 66 is in contact with water. (V) has a thermal insulation function that prevents heat from entering.

The water tank 60 is preferably made of a stainless steel material of the inner tank 66 in which water is contained to minimize hygiene and bacteria in the tank 60, and the outer tank 66 is easily joined to the outer tank 64. It is preferable that 64 also consists of stainless materials. The water tank 60 is made of the same material as the inner tank 66 and the outer tank 64, so that welding and welding are easy, and the bonding property is good.

The hot water outlet pipe 70 is a pipe in which water heated in the water tank 60 flows out of the hot water tank 4. The hot water discharge pipe 70 may be connected to the hot water discharge channel 34 shown in FIG. 1.

One end of the hot water outlet pipe 70 is located in the interior of the water tank 60, in particular, the steam buffer space (S2) and the other end of the water outflow is located outside the water tank (60).

Hot water outlet pipe 70 is preferably disposed to penetrate the upper portion of the water tank (60).

The air vent pipe 80 discharges the steam in the water tank 60 to the outside of the water tank 60, and one end of the steam inlet is positioned inside the water tank 60, in particular, the steam buffer space S2, and the steam flows out. The other end is located outside in the water tank (60).

The air vent tube 80 is preferably disposed to penetrate the upper portion of the water tank 60 at one side between the upper center of the water tank 60 and the upper edge of the water tank 60.

The direct type water purifier does not include a reservoir, and water that is moved to the vapor buffer space S2 needs to be formed so that it is not drained through the air vent pipe 80, and the air vent pipe 80 has a height H1 at the bottom thereof. ) May be installed higher than the bottom height (H2) of the hot water outlet pipe (70).

The air vent pipe 80 may be disposed in communication with the atmosphere inside the direct type water purifier because the direct type water purifier does not include a water tank.

The heater 82 may be installed at the bottom of the water tank 60, and all of them may be installed to be located inside the water heating space S1.

The heater 82 may be installed vertically on the lower plate of the water tank 60, and may be installed horizontally on the circumference of the water tank 60.

The partition wall 90 may be horizontally disposed to partition the inside of the space 58 into an upper space and a lower space. The space between the upper surface of the partition 90 and the water tank 60 may include a vapor buffer space S2. The space between the lower surface of the partition wall 90 and the water tank 60 becomes the water heating space S1.

The water heating space S1 is formed higher than the height of the heater 82.

Steam buffer space (S2) is a kind of free space that can be filled with steam during expansion due to water heating and prevents the water in the water heating space (S1) flows toward the air vent pipe 80, has a predetermined height.

The steam buffer space (S2) is formed higher than the height of the portion of the air vent pipe 80 protruding into the interior of the water tank 60, the height of the portion of the hot water outlet pipe 70 protruding into the interior of the water tank 60. Formed higher.

 The partition wall 90 may be formed of a plate body in contact with the inner surface of the water tank 60, and the edge thereof is preferably joined to the inner tank 66 forming the inner surface of the water tank 60.

The partition wall 90 is preferably joined to the inner tank 66, and preferably made of a stainless material, such as the outer tank 64 and the inner tank 66. The partition wall 90 is made of the same material as the inner tank 66 to facilitate welding and good joining properties.

The partition 90 has a water hole 92 smaller than the diameter of the hot water discharge pipe 70 at the lower side of the hot water discharge pipe 70.

Here, the hand 92 is to generate a venturi effect, the water heated in the water heating space (S1) the flow rate is faster and the pressure is lowered in the hand 92 having a diameter smaller than the hot water outlet pipe 70, The water in the water heating space S1 is drawn up to the hot water outlet pipe 70 by the pressure difference in the water heating space S1 and the pressure inside the water hole 92.

 The partition wall 90 is a hot water outlet pipe 70 and a predetermined gap t so that the water in the water heating space S1 can be moved to the hot water outlet pipe 70 after passing through the water hole 92 by the venturi effect. Is installed to have.

The partition wall 90 is preferably formed with a hand 92 having a size that does not leak water into the air vent pipe 80 while maximizing the Venturi effect, the diameter (D1) of the hand 92 is a hot water outlet pipe (70) It is preferable that it is comprised by 1/2 times or less of diameter (D2). Here, the diameter D2 of the hot water outlet tube 70 is the diameter of the inner diameter of the hot water outlet tube 70.

 When the diameter D1 of the hand 92 exceeds 1/2 of the diameter D2 of the hot water outlet pipe 70, as shown in FIG. 3, the water flow rate in the steam buffer space S2 is large, Water in the vapor buffer space (S2) may be drained through the air vent pipe (80).

On the other hand, when the diameter (D1) of the hand 92 is less than 1/2 times the diameter (D2) of the hot water outlet pipe 70, as shown in Figure 4, the water flow rate in the steam buffer space (S2) is small The water in the steam buffer space S2 is not drained through the air vent pipe 80.

The partition wall 90 has a diameter D1 of the water hole 92 equal to or less than 1/2 the diameter D2 of the hot water discharge pipe 70, and a diameter D1 of the water hole 92 is the diameter of the hot water discharge pipe 70. When the pressure is lower than 1/2 times of (D2), the pressure is lowered, and the remaining water in the steam buffer space (S2) is sucked into the hot water discharge pipe (70) and discharged by the pressure drop.

 The diameter D1 of the hand 92 may be set to 1/10 or more and 1/2 times or less of the diameter D2 of the hot water outlet pipe 70.

4: water bath 58: space
60: tank 64: outer tank
66: inner tank 70: hot water outlet pipe
80: air vent pipe 90: bulkhead
92: handmade S1: water heating space
S2: steam buffer

Claims (11)

A water tank having a space formed therein;
A hot water discharge pipe installed at an upper portion of the tank;
An air vent pipe installed at an upper portion of the water tank to be spaced apart from the hot water discharge pipe;
A heater installed under the water tank;
A partition wall partitioning the space into a water heating space containing water heated by the heater and a vapor buffer space above the water heating space,
The partition wall is a hot water tank is formed in the lower side of the hot water outlet tube smaller than the diameter of the hot water outlet tube. The method of claim 1,
The diameter of the water is a hot water tank is less than 1/2 times the diameter of the hot water outlet pipe. The method of claim 1,
The air vent pipe is a hot water tank, the height of the bottom is installed higher than the bottom height of the hot water outlet pipe. The method of claim 1,
The tank includes an outer tank and an inner tank positioned inside the outer tank and forming a vacuum chamber between the outer tank and the space formed therein.
The partition wall is a hot water tank bonded to the inner tank. The method of claim 1,
The outer tank, the inner tank and the partition wall is a stainless steel hot water tank. A water purification unit for purifying water;
A hot water tank in which water passing through the water purification unit is introduced and heated;
It includes a hot water valve for withdrawing water heated in the hot water tank,
The hot water tank
A water tank having a space formed therein;
A hot water discharge pipe installed at an upper portion of the water tank;
An air vent pipe installed at an upper portion of the water tank to be spaced apart from the hot water discharge pipe;
A heater installed under the water tank;
A partition wall partitioning the space into a water heating space containing water heated by the heater and a vapor buffer space above the water heating space,
The partition wall is a direct type water purifier having a hot water tank in which a water hole smaller than the diameter of the hot water outlet pipe is formed below the hot water outlet pipe. The method according to claim 6,
The manual water purifier having a hot water tank of less than 1/2 times the diameter of the hot water outlet pipe. The method according to claim 6,
The air vent pipe is a direct type water purifier having a hot water tank, the height of the bottom is installed higher than the bottom height of the hot water outlet pipe. The method according to claim 6,
The tank includes an outer tank and an inner tank positioned inside the outer tank and forming a vacuum chamber between the outer tank and the space formed therein.
The partition wall is a direct type water purifier having a hot water tank bonded to the inner wall of the inner tank. The method of claim 9,
The outer tank, the inner tank and the partition wall is a direct type water purifier having a hot water tank made of stainless steel. The method according to claim 6,
The air vent pipe is a direct type water purifier having a hot water tank disposed in communication with the atmosphere inside the direct type water purifier.

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