KR20220169148A - Flow connection connector device of small double pipe for water purifier - Google Patents

Abstract

The present invention relates to a connector device for connecting a flow path of a small double pipe for a water purifier. The connector device for connecting a flow path of a small double pipe for a water purifier provided with an inner tube for movement of a refrigerant and an outer tube formed to surround the inner tube and provided for the movement of drinking water comprises: a connector body through which the inner tube passes, and which is coupled to an end of the outer tube to allow drinking water to flow to the outside; and a connector cap which surrounds the connector body, and through which the inner tube passes. In the present invention, a double pipe with a refrigerant pipe on the inside and a drinking water pipe on the outside is processed into a double circle, and an input/output structure of the inner tube and outer tube is implemented using an injection molding and an O-ring so that corrosion can be prevented by deleting welding parts during a double pipe manufacturing process.

Description

Flow connection connector device of small double pipe for water purifier {Flow connection connector device of small double pipe for water purifier}

The present invention relates to a small-sized double pipe water purifier, and more particularly, a double pipe having a refrigerant pipe inside and a drinking water pipe positioned outside is processed into a double circular shape, and the input/output structure of the inner and outer pipes is formed by using an injection product and an O-ring. It relates to a connector device for connecting a flow path of a small double pipe for a water purifier, which is realized by using a double pipe to prevent corrosion by removing welds during a double pipe manufacturing process.

In general, a water purifier is a device for purifying raw water supplied from tap water or a bottled water container, and is configured to remove heavy metals and other harmful substances contained in tap water through processes such as precipitation, filtration and sterilization.

Such a water purifier may be configured not only to supply room temperature drinking water, but also to generate and supply cold water obtained by cooling the drinking water or hot water obtained by heating the drinking water. As a device for supplying cold water, a water storage type cooling device that stores and supplies cold water in a cold water tank is common.

The storage type cooling device has a cold water tank, installs an evaporator inside the cold water tank, or places the evaporator in contact with the outer surface of the cold water tank, and stores drinking water inside the cold water tank to cool the drinking water.

However, in the case of such a water storage type cooling device, since the cooling device must be operated for a long time to maintain the temperature of cold water flowing into the cold water tank at a cold temperature, there is a problem in that power consumption is high.

In addition, there is an unsanitary problem in that the cold water stored in the cold water tank is supplied to the user while being contaminated due to the contamination of the cold water tank.

Accordingly, various methods have been proposed to supply drinking water by instantaneous cooling without using a cold water tank, but commercialization has not been achieved due to problems such as drinking water cooling performance and water intake performance.

In order to solve this problem, the present applicant discloses a double tube evaporator in which the drinking water cooling performance of an instantaneous cooling water purifier is improved by using a double tube evaporator and the water intake of cooled drinking water is increased.

In this prior art double pipe water purifier, drinking water flows through the inner pipe and refrigerant flows through the outer pipe, and the inner drinking water pipe is designed in a spiral shape to increase heat exchange efficiency.

However, due to such a spiral structure, the prior art could not miniaturize the cooling module.

In addition, in the double pipe water purifier of the prior art, the outer pipe through which the refrigerant flows is made of an iron pipe.

In addition, a BUSH structure is used to connect the refrigerant inlet and outlet pipes, and steel and copper pipes are welded during the double pipe assembly process.

However, condensation is generated on the steel pipe while the cooling module having this structure is performing a cooling operation, and as a result, refrigerant leakage occurs due to heterogeneous corrosion of the welded part.

This is shown in Figures 1 and 2.

Referring to FIG. 1 or 2, the conventional double pipe has a BUSH structure to connect the inner/outer pipe and the refrigerant inlet/output pipe, and thus the coupling is performed using welding in the manufacturing process.

In addition, in the manufacturing process, a combination of iron and stainless pipes or a welded double pipe for combining iron and copper pipes was used as a cooling module. As a cooling module, dew condensation occurs depending on external environmental conditions. Refrigerant leakage occurred due to corrosion.

In addition, the conventional double pipe used an inexpensive steel pipe to maintain a certain thickness or more of the outer pipe, and therefore, electrodeposition coating was used to prevent corrosion. As the electrodeposition coating was used for the cooling module used for drinking water in the water purifier, there was difficulty in managing the manufacturing process.

The present invention is to solve the above problems, processing a double pipe with a refrigerant pipe inside and a drinking water pipe located outside into a double circular shape, and implementing the input/output structure of the inner and outer pipes using an injection molding and an O-ring. To provide a flow path connection connector device for a small double pipe for a water purifier, which prevents corrosion by removing welds during a double pipe manufacturing process.

A flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention for solving the above problems is,

A connector device for connecting a flow path of a small double pipe for a water purifier having an inner tube for movement of refrigerant and an exterior formed to surround the inner tube and for movement of drinking water,

a connector body through which the inner tube passes and is coupled to an end of the exterior to allow drinking water to flow to the outside;

Surrounding the connector body, the inner tube includes a connector cap passing through.

The connector body,

At the end of the exterior, a flow path toward the external entrance is formed.

The connector body,

first and second O-rings inserted between the inner tube and the connector body portion surrounding the inner tube inside the cap to maintain airtightness;

A third O-ring is inserted into the space between the end of the exterior and the connector body to maintain airtightness.

The connector body,

A first locking clip for fixing the connector cap to the connector body;

It further includes a second locking clip for locking the connector body to the exterior.

A first spacer installed between the first O-ring and the second O-ring;

A second spacer installed next to the third O-ring is further included.

The inner tube and the exterior are characterized in that they are wound several times in a double circular structure that is wound in a small circle shape and then wound once more in a large circle shape.

According to the flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention, the double pipe having the refrigerant pipe inside and the drinking water pipe positioned outside is processed into a double circular shape, and the input/output structure of the inner pipe and the exterior is formed. It can be implemented using injection molding and O-ring to prevent corrosion by removing welded parts during the double pipe manufacturing process.

1 and 2 are views showing a conventional double pipe.
3 is a view showing the structure of a connector device for connecting a flow path of a small double pipe for a water purifier according to another embodiment of the present invention.
4 is a view showing a double pipe structure of a small double pipe for a water purifier according to an embodiment of the present invention.
5 is a cross-sectional view of a flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention.

In order to help the understanding of the features of the present invention as described above, a flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

Hereinafter, the described embodiments will be described based on the most suitable embodiments for understanding the technical characteristics of the present invention, and the technical characteristics of the present invention are not limited by the described embodiments, but the following description It is to illustrate that the present invention can be implemented, such as the embodiments. Therefore, the present invention can be variously modified and implemented within the technical scope of the present invention through the embodiments described below, and these modified embodiments will be said to fall within the technical scope of the present invention. And, in the reference numerals described in the accompanying drawings to aid understanding of the embodiments to be described below, related components among components that perform the same action in each embodiment are indicated with the same or extended numerals.

3 is a view showing the structure of a connector device for connecting a flow path of a small double pipe for a water purifier according to another embodiment of the present invention.

4 is a view showing the structure of a small double pipe for a water purifier according to an embodiment of the present invention.

5 is a cross-sectional view of a flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention.

Referring to FIGS. 3 to 5, the flow path connection connector device of a small double pipe for a water purifier according to an embodiment of the present invention,

A small double tube flow path connection connector device for a water purifier having an inner tube 110 for movement of refrigerant and an exterior 120 formed to surround the inner tube 110 and for movement of drinking water,

a connector body 210 through which the inner tube 110 passes and coupled to an end of the outer tube 120 to allow drinking water to flow to the outside;

It surrounds the connector body 210 and includes a connector cap 220 penetrating the inner tube 110 .

The connector body 210,

A flow path 270 toward the external entrance 271 is formed at the end of the exterior 120 .

The connector body 210,

first and second O-rings 241 and 242 inserted between the connector body 210 surrounding the inner tube 110 inside the connector cap 220 and the inner tube 110 to maintain airtightness;

A third O-ring 243 is inserted into the space between the end of the exterior 120 and the connector body 210 to maintain airtightness.

The connector body 210,

A first locking clip 231 for fixing the connector cap 220 to the connector body 210,

A second locking clip 232 for locking the connector body 210 to the exterior 120 is further included.

a first spacer 251 installed between the first O-ring 241 and the second O-ring 242;

A second spacer 252 installed next to the third O-ring 243 is further included.

The inner tube 110 and the outer tube 120 are wound several times in a double circular structure in which they are wound in a small circle shape and then wound once again in a large circle shape.

In addition, the exterior 120 and the interior tube 110 use a stainless tube (STS tube) to prevent corrosion.

In the embodiment of the present invention, the degree of freedom in processing is secured by eliminating the spiral processing of the drinking water pipe, and the length of the corrugated pipe and the inner pipe 110 is increased to maintain the same volume of the drinking water pipe as before.

And, in order to reduce the increased volume due to the increase in the length of the exterior 120 and the interior tube 110, the double tube was processed into a double circular shape as shown in FIG. 4 to minimize the volume of the double tube.

In addition, the welding part was deleted during the manufacturing process of the double pipe, and corrosion was prevented by replacing the connection part with the connector device injection molding material of the present invention.

In addition, when the conventional spiral structure is deleted, the contact area is reduced, and as a result, the heat exchange efficiency is reduced, making it difficult to implement the same level of cooling performance. made it possible

In addition, the length of the pipe was selected to match the inner volume of the outer pipe 120, which is a drinking water pipe, with the existing double pipe, and the diameter of the inner pipe 110, which is a refrigerant pipe, was selected as the minimum diameter of a pipe that can be processed to minimize the use of refrigerant.

The increased volume due to the increase in pipe length was minimized by processing the double pipe into a double circle (double circle) (the deletion of the spiral structure increased the degree of freedom in processing, enabling it to be processed into a double circle), (110) is located inside and has a structure in contact with drinking water, and both refrigerant and drinking water pipes are made of stainless steel.

In the conventional double pipe, the outer pipe had to be maintained at a certain thickness or more due to the spiral structure of the inner pipe, but the new double pipe can reduce the thickness of the material by eliminating the spiral structure, thereby reducing the weight of the product.

In the new double pipe, the inside/outside pipe and the refrigerant inlet/outlet structure can be prevented from corrosion by removing the welding part during the double pipe manufacturing process by adding an injection molding material and a flow path connection connector using an O-ring.

The double pipe water purifier may further include a temperature sensor 260, a flow control valve, a separation pipe, and a control device in addition to the double pipe of the present invention.

The double temperature sensor 260 is inserted into the lower portion of the connector body 220 and senses the temperature in a state of direct contact with the flow path 270, so that accurate temperature detection is possible.

In the small double pipe of the present invention, drinking water and a refrigerant are supplied and mutually heat exchanged, and the drinking water is cooled by the refrigerant.

Drinking water supplied to the small double pipe may be obtained into the double pipe through the inlet part, cooled by the refrigerant, and then discharged from the small double pipe through the water outlet part.

In this specification, normal temperature is defined as the temperature of water formed by the temperature of the external atmosphere without being affected by the refrigerant cooling device.

In the embodiment of the present invention, looking at the structure of the drinking water pipe, the present invention can save 43.9% of the cost compared to the prior art,

The weight of the present invention was also reduced by 52.9% compared to the prior art.

In addition, the amount of refrigerant was reduced by 64.2% compared to the prior art.

According to the flow path connection connector device for a small double pipe for a water purifier according to an embodiment of the present invention, the double pipe having the refrigerant pipe inside and the drinking water pipe positioned outside is processed into a double circle, and the input/output structure of the inner pipe and the exterior is formed. By implementing it using injection molding and O-ring, it is possible to prevent corrosion by removing welded parts during the double pipe manufacturing process.

In addition, in the conventional double pipe water purifier, the spiral structure is deleted, the refrigerant pipe is placed inside and the drinking water pipe is placed outside, and the pipe length is increased to equalize the volume of the drinking water pipe, and the increased volume due to the increase in pipe length is The volume of the double pipe can be minimized by processing the double pipe into a double circular shape.

In addition, in the case of the conventional double pipe, the drinking water pipe is a method of connecting a standard fitting to a separately processed pipe, and there is a risk of leakage such as fitting deviation depending on pipe processing deviation.

On the other hand, in the case of the small double pipe of the present invention, it is possible to improve leakage problems related to fitting installation and detachment compared to the conventional connection method by assembling an injection-molded connector into a pipe and inserting a fitting into the nipple structure of the connector.

Claims (6)

A connector device for connecting a flow path of a small double pipe for a water purifier having an inner tube for movement of refrigerant and an exterior formed to surround the inner tube and for movement of drinking water,
a connector body through which the inner tube passes and coupled to an end of the outer tube to allow drinking water to flow to the outside;
A small double pipe flow connector device for a water purifier including a connector cap surrounding the connector body and penetrating the inner tube. According to claim 1,
The connector body,
A flow path connection connector device of a small double pipe for a water purifier in which a flow path is formed from the end of the exterior toward the external entrance. According to claim 2,
The connector body,
first and second O-rings inserted between the inner tube and the connector body portion surrounding the inner tube inside the cap to maintain airtightness;
A small double pipe flow connector device for a water purifier further comprising a third O-ring inserted into the space between the end of the exterior and the connector body to maintain airtightness. According to claim 3,
The connector body,
A first locking clip for fixing the connector cap to the connector body;
A flow path connection connector device for a small double pipe for a water purifier further comprising a second locking clip for locking the connector body to the exterior. According to claim 4,
A first spacer installed between the first O-ring and the second O-ring;
A flow path connection connector device of a small double pipe for a water purifier further comprising a second spacer installed next to the third O-ring. According to claim 5,
The inner tube and the outer tube are wound in a small circle shape and then wound in a large circle shape several times in a double circular structure.

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