JP3022653U - Cooling device for cooling / heating element in purified water cooling device - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] Since a motor fan is used, the total weight is increased, the electric energy consumption is large, and the operation noise of the motor fan becomes a noise. SOLUTION: In the first aspect, the cooling / heating element 1 is provided in the cooling tank 8.
0, the cooling element 10 is provided with the radiator 11, and the radiator 11 is provided with the refrigerant passage 30 through which one or both of the purified wastewater W ₁ and the raw water W _O discharged from the membrane 4 are made to flow as the refrigerant W ₂ . . In the second aspect, the radiator 11 is composed of the upper body 12 and the lower body 13, the lower body 13 is formed with the refrigerant passage 30 through which the refrigerant W ₂ flows, and the refrigerant passage 30 is formed with the refrigerant inflow hole 15
And the refrigerant flow passage 16 provided on the outer periphery thereof and the refrigerant flow passage 1
It was formed by the refrigerant outflow hole 17 provided at the end of 6.

Description

[Detailed description of the device]

[0001]

[Technical field to which the device belongs]

 The present invention relates to a device for purifying raw water and cooling a cooling / heating element of a purified water cooling device for cooling purified water (cooling device for cooling / heating element in purified water cooling device). The purified wastewater to be purified or the raw water to be purified is used as a coolant for cooling the cooling / heating element.

[0002]

[Prior art]

 Conventional water purifiers can purify water so that it can be drunk, but they do not have a cooling device to cool the purified water, so the temperature of the purified water can be lowered (cooled). There wasn't. Cold purified water is suitable as drinking water in high temperature seasons, but it cannot be cooled by conventional water purifiers, so conventionally, purified water was cooled by a refrigerator, a freezer compartment, a refrigerator compartment or ice. However, cooling purified water using another refrigerant after purification in this way is time-consuming, time-consuming, inconvenient, and costly.

In order to solve the above problems, the inventor of the present invention has developed a cooling device for cooling purified water of a water purifier and applied for a patent in Korea (Korean Patent Application No. 94-25892). issue). In this prior art, an N-P semiconductor, that is, a cooling element of a cooling / heating element (Peltier element) composed of a cooling element and a heating element is mounted on the cooling tank side on the bottom surface of the cooling tank, and a radiator plate is mounted on the outer surface of the heat element. A motor fan is installed below the heat sink. In this prior art, the cooling tank is cooled by the cooling element of the cooling / heating element, and the purified water in the cooling tank is cooled. At this time, the heat emitted from the heat element of the cold heat element is dissipated to the outside through the heat dissipation plate, and further, the heat of the heat dissipation plate is dissipated to the atmosphere by the motor fan, so that the cooling speed and efficiency are improved. Increase.

[0004]

[Problems to be solved by the device]

 However, since the cooling device of the water purifier uses a motor fan, the total weight is increased, the consumption of electric energy is increased, the running cost is increased, and the operation noise of the motor fan becomes a new problem. Occurred.

An object of the present invention is to provide a purified water cooling device that can cool quickly and efficiently without using a motor fan, can significantly reduce electricity consumption, and generate no noise.

[0006]

[Means for Solving the Problems]

As shown in FIG. 1, the cooling device for the cooling / heating element in the purified water cooling device according to claim 1 of the present invention supplies the raw water W _O to the purified water system provided with the membrane 4 and other purification devices to supply the same raw water W _O. In the purified water cooling device, the purified water is stored in the water tank 7, the cooling tank 8 is connected to the water tank 7, and the purified water in the cooling tank 8 is cooled by the cooling / heating element 10 attached thereto. , those wherein the heat radiating body 11 is provided on the cold element 10, provided with a coolant passage 30 to flow either or both of purifying waste water W ₁ and the raw water W _O leaving the membrane 4 to the heat radiating body 11 as the refrigerant W ₂ Is.

In the cooling device for cooling / heating elements in the purified water cooling device according to claim 2 of the present invention, as shown in FIG. 1, the radiator 11 in claim 1 is composed of an upper body 12 and a lower body 13, and a lower body 13 is provided. A coolant passage 30 for flowing the coolant W ₂ is formed, and a coolant inflow hole 15 into which the coolant W ₂ flows from the outside is formed in the coolant passage 30, and a coolant flow passage 16 through which the coolant W ₂ flowing out from the coolant inflow hole 15 flows around the coolant inflow hole 15. Is formed, and a refrigerant outflow hole 17 is formed at the end of the refrigerant flow passage 16 to allow the refrigerant W ₂ flowing thereinto to flow out of the lower body 13.

In the cooling device of the cooling / heating element in the purified water cooling device according to claim 3 of the present invention, as shown in FIG. 1, the cooling passage 30 according to claim 1 or 2 causes the purified wastewater W _{1 of the} membrane 4 to flow back. It is connected to a water pipeline 21 and a bypass pipeline 22 for supplying raw water.

A cooling device for cooling and heating elements in a purified water cooling device according to a fourth aspect of the present invention is a flow rate control valve for adjusting the flow rate of purified wastewater W _{1 to} a water discharge conduit 21 according to the third aspect as shown in FIG. 19 is provided.

In the cooling device of the cooling / heating element in the purified water cooling device according to claim 5 of the present invention, a solenoid valve 20 is installed on the bypass pipe line 22 according to claim 3 as shown in FIG. When the purified water is filled in the water tank 7 and the supply of the raw water W _O to the purified water system is cut off, the water is opened and the raw water W _O is supplied to the radiator 11.

[0011]

First Embodiment of the Invention A cooling device for a cooling / heating element in a purified water cooling device of the present invention will be described in detail based on the embodiment shown in FIG. The thing shown in FIG. 1 is equipped with a water purifier and a cooling device. Clean water Ru fed water purification device, the raw water W _O of groundwater temporarily impurities precipitate filter 1 is filtered (primary filtration), is sent to the booster pump 2 passes through the first solenoid valve 18 The pressure is increased, the secondary carbon is filtered through the first carbon filter 3, and then the membrane 4 is reached. Only a part of the secondary filtered water passes through the membrane 4 for tertiary filtering, then enters the second carbon filter 5 for fourth filtering, and then passes through the U / V filter 6 for fifth filtering ( It is finally filtered) and flows into the water storage tank 7.

The purified water in the water storage tank 7 is replenished by the stored water amount adjusting device 9 when it is insufficient, and when the water is full, the replenishment of purified water is blocked. The purified water in the water storage tank 7 can be taken out as it is and used as drinking water or as washing water.

The purified water in the water storage tank 7 can be made to flow into the cold water tank 8 to be cooled water and then taken out. Therefore, in FIG. 1, the cold heat element 10 is attached to the bottom surface of the cold water tank 8. The cooling / heating element 10 is composed of a cooling element and a heating element. Of these, the cooling element is attached to the bottom surface of the cooling tank 8 so as to be in close contact therewith to expose the heating element downward (outside). A radiator 11 is attached to the bottom surface. In FIG. 1 having such a configuration, the cold water tank 8 is cooled by the cold element of the cold heat element 10, the water inside is cooled, and the heat radiated from the heat element of the cold heat element 10 is radiated to the outside through the radiator 11. Be done.

As shown in FIG. 2, the heat radiating body 11 is composed of a metal upper body 12 and a lower body 13 having high heat radiation efficiency, both of which are fixed by screws (not shown) screwed into the screw holes 12a and 13a. To be done. A heat element sheet 14 on which the heat elements 10b of the cooling element 10 are arranged is formed on the upper surface of the upper body 12. A coolant passage 30 is formed in the lower body 13. As shown in FIGS. 3 and 4, the refrigerant passage 30 includes a refrigerant inflow hole 15 vertically penetrating the central portion thereof and a shallow spiral groove-like refrigerant flow passage 16 formed around the refrigerant inflow hole 15. At the end of the coolant flow passage 16, a coolant discharge hole 17 is formed in a vertical direction so as to penetrate the upper surface and the lower surface of the lower body 13.

Refrigerant W ₂ flows into the refrigerant inflow hole 15 of the lower body 13. In this embodiment, the raw water W _O and the purified wastewater W ₁ shown in FIG. 1 are used as the refrigerant W ₂ . The purified wastewater W ₁ passes through the first carbon filter 3 described above, is secondarily filtered, and then reaches the membrane 4 and then reaches the membrane 4. Impurities and viscous components remaining without passing through the membrane 4 Is. This purified wastewater W ₁ was previously discarded as sewage, but in the present invention it is used as a refrigerant W ₂ . Therefore, in the present invention, as shown in FIG. 1, the purified wastewater W ₁ flows as the refrigerant W ₂ from below the refrigerant inflow hole 15. This refrigerant W ₂ flows in the spiral refrigerant flow passage 16 and is discharged to the refrigerant outflow hole 17 from the end thereof. In this case, all the upper ends of the refrigerant flow passages 16 are closed by covering the lower body 13 with the upper body 12, so that the cooling medium W ₂ enters the refrigerant inflow holes 15, travels through the refrigerant flow passages 16 and discharges the refrigerant. The entire amount is used for heat exchange without leaking outside until it exits the hole 17. Although the heat exchange efficiency is low when the refrigerant W ₂ passes through temporarily, the contact time between the refrigerant W ₂ and the upper body 12 becomes longer and the contact area is enlarged if the refrigerant W ₂ flows spirally as in the present invention. Heat exchange becomes active, cooling is speeded up, and cooling efficiency is greatly improved. Further, the above-mentioned purified wastewater W ₁ is a large part of the secondary filtered water and is an enormous amount. Therefore, by utilizing such a large amount of purified wastewater W ₁ as the cooling medium W ₂ , the inside of the cold water tank 8 is It is very economical because it costs almost no cost to cool the purified water.

A first solenoid valve 18 is installed on the conduit between the settling filter 1 and the booster pump 2 in FIG. This is normally open and sends the raw water W _O that has been primarily filtered by the settling filter 1 to the pressurizing tank 2 and closes when the purified water in the water tank 7 is full, shuts off the inflow of the raw water W _O and closes the raw water W _{O. This} is to prevent waste of _O.

A flow control valve 19 is installed on the water discharge conduit 21 extending from the membrane 4 in FIG. 1 to the bypass conduit 22, and is provided on the bypass conduit 22 before the water discharge conduit 21. Is equipped with a second solenoid valve 20. Although the second solenoid valve 20 is normally closed, the purified water in the water tank 7 becomes full and the first solenoid valve 18 cuts off the supply of the raw water W _O to generate purified wastewater W _1. If the purified wastewater W ₁ cannot be used as the coolant W ₂ without being opened, the raw water W _O flowing through the bypass passage 22 is supplied to the radiator 11 as an auxiliary coolant. It is a thing.

[0018]

[Other embodiments of the invention]

 At present, it is considered desirable to form the above-described refrigerant flow passage 16 in a spiral shape in terms of heat exchange efficiency, but it may be formed in another shape depending on manufacturing problems or other factors.

[0019]

[Effect of device]

 The cooling device for the cooling / heating element in the purified water cooling device of the present invention has the following effects. . The heat radiator attached to the cold heat element dissipates the heat emitted from the heat element of the cold heat element to the outside, and moreover, the heat radiator is cooled by the refrigerant, so the cooling efficiency of the cold heat element decreases even if it is operated for a long time. Instead, the purified water in the cooling tank can be cooled efficiently in a short time. . Since the purified wastewater that passes through the membrane is used as the coolant for cooling the radiator, the purified wastewater is effectively used and is economical. . When the purified wastewater is insufficient, the raw water is used as a refrigerant, so that the refrigerant is reliably secured and cooling of the radiator is also secured. . Since a motor fan for promoting heat dissipation is not required, the structure of the cooling device is simple and lightweight, not only is the manufacturing cost drastically saved, but it also saves electricity because it does not require electric power and running costs. The noise is greatly reduced, the noise caused by the operation of the motor fan is eliminated, and it is quiet.

[Brief description of drawings]

FIG. 1 is an overall view of a purified water cooling device using a cooling device of a cooling / heating element in the purified water cooling device of the present invention.

FIG. 2 is a perspective view of a radiator according to the present invention.

FIG. 3 is a plan view of a lower body of a radiator according to the present invention.

FIG. 4 is a sectional view of a radiator according to the present invention.

[Explanation of symbols]

4 is a membrane 7 is a water tank 8 is a cooling tank 10 is a cooling / heating element 11 is a radiator 12 is an upper body 13 is a lower body 15 is a refrigerant inflow hole 16 is a refrigerant flow passage 17 is a refrigerant outflow hole 19 is a flow control valve 20 is a second Solenoid valve 21 is a drainage pipe 22 is a bypass pipe 30 is a refrigerant passage W _O is raw water W ₁ is purified wastewater W ₂ is a refrigerant

Claims (5)

[Scope of utility model registration request] 1. A membrane (4) and the other purifier raw water purification system provided that (W _O) the raw water supply (W _O)
Water, and the purified water is stored in the water tank (7), the cooling tank (8) is connected to the water tank (7), and the cooling tank (8) is connected.
In a purified water cooling device in which purified water in the inside is cooled by a cooling / heating element (10) attached thereto, a radiator (11) is provided on the cooling / heating element (10), and the radiator (11) is provided.
Either one or both of the purified wastewater (W ₁ ) discharged from the membrane (4) and the raw water (W _O ) as a refrigerant (W ₂ )
A cooling device for a cooling / heating element in a purified water cooling device, characterized in that a cooling medium passage (30) is provided as a cooling medium. 2. A radiator (11) comprises an upper body (12) and a lower body (1).
3), a refrigerant passage (30) for flowing the refrigerant (W ₂ ) is formed in the lower body (13), and the refrigerant passage (30) is formed with a refrigerant inflow hole (15) into which the refrigerant (W ₂ ) flows from the outside. is, refrigerant flowing from the refrigerant inlet (15) (W ₂₎ of the refrigerant flow passage to flow (16) is formed on the outer periphery, a refrigerant flow passage refrigerant flowing therefrom to the end of (16) (W ₂₎
The cooling device of the cooling / heating element in the purified water cooling device according to claim 1, characterized in that a refrigerant outflow hole (17) is formed to flow out of the lower body (13). 3. A water discharge conduit (21) through which the purified wastewater (W ₁ ) of the membrane (4) flows through the refrigerant passage (30) and the raw water (W).
_The cooling device of the cooling / heating element in the purified water cooling device according to claim 1 or 2, wherein the cooling device is connected to a bypass line (22) for supplying _{O 2} ). 4. The cooling / heating element in the purified water cooling device according to claim 3, wherein the water discharge conduit (21) is provided with a flow rate control valve (19) for controlling the flow rate of the purified wastewater (W ₁ ). Cooling system. 5. A solenoid valve (20) is installed on the bypass line (22), and the solenoid valve (20) is filled with purified water in a water tank (7) and the raw water (W Open when the supply of _{O 2} ) is cut off and the raw water (W
_O ) is supplied to a radiator (11), The cooling device of the cooling / heating element in the purified water cooling device of Claim 3 or Claim 4 characterized by the above-mentioned.