KR200226505Y1 - A purifier having a straight inlet for pure water - Google Patents

Abstract

The present invention relates to a cold and hot water purifier with a straight water inlet pipe, and more specifically, to install a plate with a hole at the bottom to increase the resistance to water, and has a plurality of holes in the upper side to allow air to flow The present invention relates to a cold / hot water purifier having a straight water purification inlet pipe having a plurality of holes on its lower side to discharge purified water.

The cold and hot water purifier of the present invention is equipped with a straight purified water inlet pipe, which reduces the cost of manufacturing the purified water inlet pipe, improves workability, increases the inflow rate of purified water, solves freezing problems, and constrains the installation space. It has the advantage of disappearing.

Description

Cold and hot water purifier with straight water inlet pipe {A PURIFIER HAVING A STRAIGHT INLET FOR PURE WATER}

The present invention relates to a cold and hot water purifier with a straight water inlet pipe, and more specifically, to install a plate with a hole at the bottom to increase the resistance to water, and has a plurality of holes in the upper side to allow air to flow The present invention relates to a cold / hot water purifier having a straight water purification inlet pipe having a plurality of holes on its lower side to discharge purified water.

In a conventional cold / hot water purifier, the purified water inflow structure from the purified water tank to the cold / hot water tank is shown in FIGS. 1A and 1B. In the case of the hot water tank 14, the hot water inlet is installed at the bottom to extract hot hot water, and the steam heat generated in the hot water tank 14 is connected to the upper part of the purified water tank 10 to discharge steam. Suppress the temperature rise of). In addition, in the case of the cold water tank 12, a cold water extraction tube is installed at the lower end of the cold water tank 12 to extract cold cold water. In the case of the conventional design, the cold water inflow is generated in the U-type purified water inlet pipe when the purified water is introduced by the method of separately installing the air discharge pipe 22 (FIG. 1A) and the U-shaped purified water inlet pipe without providing a separate air discharge pipe. There are two types of structures (FIG. 1B) in which air exhaust and purified water flow smoothly even without a separate VENT tube due to air escaped by the lower end resistance.

Figure 1a is a schematic diagram of a conventional cold and hot water purifier with a separate air discharge pipe, Figure 1b is a schematic diagram of a conventional cold and hot water purifier with a U-shaped purified water inlet pipe.

In the case of the purified water inlet structure having the separate air discharge pipe 22 shown in FIG. 1A, the air discharge pipe 22 must be separately provided, thereby reducing the burden and cost of increasing the cost. Therefore, in order to compensate for this disadvantage, as shown in FIG. 1B, a purified water inflow structure using the U-shaped purified water inflow pipe 26 was used. However, in general, all the materials are used in the tank using drinking water, so in the case of U-shaped purified water inflow pipe, the cost of bending the SUS pipe is burdened and the purified water inflow is reduced due to the decrease in resistance to water when the purified water is inflowed. The problem is that the speed decreases.

Pointing out the problems of the conventional purified water inlet structure having a separate air discharge pipe and purified water inlet structure having a U-shaped purified water inlet pipe as follows.

First, there is a disadvantage in that cost increases and workability deteriorates.

As shown in Figure 1a, in the case of using a separate air discharge pipe 22, the air discharge pipe 22 must be installed separately, the cost of attaching the connection device is additionally consumed, as shown in Figure 2b U-shaped integer In case of using an inflow pipe, the SUS pipe must be bent and a hole must be drilled at the lower end, so that the cost is excessively consumed and the workability is deteriorated.

Second, there is a disadvantage in that the purified water inflow rate is lowered.

In order for a large amount of water to fall freely through a single pipe, the resistance value generated when the free falling water hits the wall must be large, so the amount of air discharged from the cold water tank to the purified water tank through the air outlet increases. The amount of water falling will also increase.

However, in the case of using the U-shaped purified water inlet pipe 26, since free-falling water flows into the cold water tank through the U-shaped purified water inlet pipe, the resistance to water decreases and the air discharge rate decreases. The problem is greatly reduced.

Third, in the case of the U-shaped purified water inlet pipe 26 there is a disadvantage that the freezing problem occurs.

Since the U-shaped purified water inlet pipe occupies a large space compared to the outer diameter of the limited tank, the cold water extraction pipe is installed close to the outer wall of the cold water tank 12, and is generated by a cooling coil (not shown) wound around the outer surface of the cold water tank. There is a problem in that it is close to the ice inside the tank, which causes the cold water extraction tube to freeze and have difficulty in extracting the cold water.

Fourth, there is a disadvantage that the installation space is limited due to the U-shaped shape.

In the case of U-shaped purified water inlet pipe, it occupies a large space, so it is installed in the center of the cold water tank. Therefore, when the cold water tank is installed inside the cold / hot water purifier, it becomes a constraint of space due to the difficulty of the connection structure. (dad space) occurs a lot of problems occur.

In order to solve the above problems of the present invention, the purpose of the present application is to eliminate the bent part, which is an element of the cost increase, and to make the hole of the lower plate by the mold to reduce the cost and work It is to provide a straight purified water inlet pipe with improved properties.

It is another object of the present invention to provide a straight purified water inlet pipe which improves the rate of purified water inflow by increasing the resistance to water by blocking the lower end with a separate plate.

Still another object of the present invention is to provide an inlet pipe and an extraction pipe at the center of the center to provide a purified water inlet pipe to solve the problem of freezing by moving away from the ice generation site by the cooling coil on the outer surface of the cold.

Another object of the present invention is to provide a purified water inlet pipe that can be installed freely without restrictions on the installation space.

1a is a schematic diagram of a cold / hot water purifier having a conventional separate air discharge pipe,

1B is a schematic view of a cold / hot water purifier having a conventional U-shaped purified water inlet pipe,

2 is a schematic view of a cold / hot water purifier having a straight purified water inlet pipe 28 of the present application;

3 is an enlarged cross-sectional view of the straight water purification inlet pipe 28 of the present application.

<Description of Main Reference Signs in Drawings>

10 .. purified water tank 12. cold water tank

14. Hot water tank 16. Cold water coke

18 .. Hot water coke 20 .. Water purification inlet

22 .. Air discharge pipe 24 .. Air discharge pipe

26 .. U shaped water inlet pipe 28 .. Straight type water inlet pipe

30 .. Clogging plates 31, 32, 33 .. holes

In order to achieve the above object, the cold / hot water purifier with the straight inlet pipe of the present invention forms a block plate with a hole at the bottom to increase resistance to water, It has a hole, and has a straight inlet pipe having a plurality of holes in the lower side to discharge purified water.

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

2 is a schematic view of a cold / hot water purifier having a straight purified water inlet pipe 28, and FIG. 3 is an enlarged cross-sectional view of the straight purified water inlet pipe 28.

In order for a large amount of water to fall freely through a single pipe, the amount of air discharged from the cold water tank to the purified water tank through the air outlet increases only when the resistance generated when the free falling water hits the wall is large. As the amount of air discharged increases, the free-falling water inflow rate increases. Therefore, the resistance generated when free falling water hits the wall should be large.

As shown in FIG. 3, the straight purified water inlet pipe 28 of the present invention includes a blocking plate 30 to increase resistance to water. The center of the blocking plate 30 is provided with a hole 31 for discharging purified water, and a plurality of holes 32 are provided on the lower side of the purified water inlet pipe so that purified water is discharged through the side surface of the purified water inlet pipe 28. Doing. In addition, a plurality of holes 33 are provided on the upper side surface of the purified water inflow pipe so that air in the cold water tank is introduced and discharged into the purified water tank.

The purified water that falls freely from the purified water tank 10 to the cold water tank 12 through the straight purified water inlet pipe 28 impinges on the blocking plate 30 and is also discharged through the hole 31 installed in the center of the blocking plate. A large amount is discharged through the hole 32 of the lower side of the tube. At the same time, the purified water flowing through the straight purified water inlet pipe 28 hits the blocking plate 30, thereby increasing the resistance to water. Therefore, a large amount of air in the cold water tank is discharged to the purified water tank through the hole 33 on the upper side of the straight purified water inflow pipe 28, so that the inflow rate of purified water flowing into the cold water tank is increased.

In FIG. 3, four upper side holes 32 and four lower side holes 33 are respectively provided, and a straight water inlet pipe 28 having one hole 31 in the center of the blocking plate 30 is illustrated. have. In the case of a straight purified water inlet pipe having an internal diameter of 13 mm, the diameter of the holes 31, 32, 33 is 4 mm.

As described above with reference to the drawings illustrated a cold and hot water purifier with a straight purified water inlet pipe according to the present invention, the present invention is not limited by the embodiments and drawings disclosed herein, the scope of the technical idea of the design Of course, various modifications can be made by those skilled in the art.

EXAMPLE

In order to investigate the performance of the straight water inlet pipe of the present application, the time taken from the cold water tank inlet, the storage tank to be full, the water inlet opening and closing, and the cold water tank full time were measured. A cold and hot water purifier with a storage tank capacity of 6.8 l and a cold water tank capacity of 1.97 l was used.

Using the conventional U-type purified water inlet pipe and the straight purified water inlet pipe of the present application, the time taken until the cold water tank is full is shown in Table 1. The two inner diameters were 13 mm, and a tube having the same inner diameter was used.

Table 1

Item Conventional U-shaped Water Inlet Pipe Straight water inlet pipe Time taken until cold water tank full 110 sec 72 sec Minute inflow 1.07 (ℓ / min) 1.64 (ℓ / min)

As shown in Table 1, the time taken to fully fill the cold water tank when the straight purified water inlet pipe of the present application was used is much less than the time taken to fill the cold water tank when the conventional U-shaped purified water inlet pipe is used under the same conditions. It can be seen that.

According to the cold / hot water purifier having the straight purified water inlet pipe of the present invention, it does not have a separate air discharge pipe and does not have a bent portion, thereby reducing the manufacturing cost of the inlet pipe and improving workability.

In addition, since the lower end portion of the straight inlet pipe of the present application was prevented by a separate plate to increase the resistance to water, it has the advantage of increasing the inflow rate of purified water flowing into the cold water tank from the purified water tank.

In addition, since the cold and hot water purifier of the present application uses a straight purified water inlet pipe, it is possible to install a purified water inlet pipe at the center of the cold water tank. It can solve the problem of the tube freezing.

In addition, since only one straight pipe is required when the purified water is introduced from the purified water tank into the cold water tank, there is an advantage that the restriction of the installation space is eliminated.

Claims (1)

In a cold / hot water purifier having a purified water inflow structure in which purified water flows from a purified water tank to a cold water tank, Forming a plate 30 with holes at the bottom to increase the resistance to water, a plurality of holes 33 in the upper side to allow air to flow, and a plurality of holes in the lower side to discharge purified water Cold water purifier characterized in that it has a straight water inlet pipe (28) having (32).