KR200362292Y1 - Water intercepting structure of air inflow pipe in natural water tub - Google Patents

Abstract

The present invention prevents the water from entering the air inlet pipe while the valve member floats in the water when the air inlet pipe is inserted into the bottle, and prevents the water from entering the air inlet pipe. It relates to a water blocking structure of the bottled water inlet pipe so that the air is supplied to the top of the bottled water.

For this purpose, the bottled water inlet preventing means located at the end of the bottled water insertion portion of the air inlet pipe, the inner diameter is at least larger than the inner diameter of the air inlet pipe and the air discharge hole is formed on one side concentrically on the inner end of the bottled water bottle of the air inlet pipe Combining the cap member and the outer diameter is narrower than the inner diameter of the cap member and configured to be wider than the distance between the inner peripheral surface of one side of the cap member from the opposite inner peripheral surface of the air inlet pipe, it is composed of a buoyancy member positioned to be able to move up and down inside the cap member, In this way, when the air inlet pipe is inserted into the bottled water bottle, the bottled water inflow prevention means located at the end of the buoyancy member floats in the water and completely blocks the end of the air inlet pipe. It can be completely shut off, and when the bottle is turned upside down and placed on the bottle, the outside air The inflow into the bottled water can be discharged smoothly.

Description

Water intercepting structure of air inflow pipe in natural water tub

The present invention relates to the water blocking structure of the bottled water inlet pipe, and more particularly, when the air inlet pipe is inserted into the bottled water bottle, the valve member floats in the water and blocks the air inlet pipe so that water does not enter the air inlet pipe. After the air inlet pipe is completely inserted into the bottled water, the air is supplied to the top of the bottled water by the pressure of the air.

As is well known, bottled water is a beneficial water for the human body that contains many minerals such as microorganisms and natural minerals, whereas unlike boiled water, the bottled water is the best for the growth of germs, which are harmful microorganisms, during storage and discharge through the bottled water discharger. It can be said that it is equipped with environmental conditions.

In addition, the bottled water is supplied to a business or home in a sealed state in a bottled water bottle, and the bottled water bottle is opened and placed on the input of a separate bottle of water dispenser, and the cold water or hot water is discharged for drinking. In most cases, insoluble water flows out, and the drip tray part of the water dispenser remains exposed in the air. After a certain period of time, the bottled water is discharged several times. There was a problem that can be introduced into the polluted bottled water.

Therefore, the present applicant has placed the bottled water bottle 10 for storing and discharging the bottled water in Patent 350705 (see FIG. 1), and the heating / cooling device 61 and 62 connected through the bottled water bottle 10 and the discharge pipe 30. It is provided with a hot water and cold water to be discharged, and the sterilization means consisting of ultraviolet lamp 41 and the quartz tube 42 inside the bottled water bottle 10 is installed to sterilize the bottled water 10 inside the bottled water 10 In the bottled water dispenser, a stopper (20) covered by the inlet of the bottled water bottle (10); An air inlet pipe 51 inserted into the stopper 20 so that one end thereof is positioned inside the bottled water bottle 10 to facilitate the discharge of the bottled water by introducing external air into the bottled water bottle 10; Bottled water inlet preventing means 53 is coupled to the inner end of the bottled water bottle of the air inlet pipe 51 to prevent the bottled water is introduced into the air inlet pipe 51; An air filter 52 coupled to the outer end of the bottled water container of the air inlet pipe 51 so as to introduce purified air; And safety valves 70 respectively installed in the heating device 61 and the cooling device 62 to open when the internal pressure applied to the heating device 61 and the cooling device 62 is equal to or greater than a predetermined pressure. When water is placed in the bottled water dispenser 1, the water does not flow even if the bottled water bottle 10 is turned over, and the bottled water can be sterilized by the sterilizing means of the ultraviolet lamp 41 and the quartz tube 42 installed in the stopper 20. In addition, since the air can be introduced into the bottled water bottle (10) through the air inlet pipe 51 has been disclosed a bottled water dispenser (1) to facilitate the discharge of the bottled water.

However, in Patent No. 350705, the bottled water inflow preventing means 53 which prevents the bottled water from flowing into the air inlet tube 51 has a ball member inserted into the cap member 53a so as to be able to flow up and down (see Fig. 2). 53b, an isolation plate 53c having an air distribution hole 53d openable and closed by the ball member 53b, and a stopper 53e defining a flow distance of the ball member 53b. When the air inlet pipe 51 is inserted into the bottled water bottle 10 facing the ball member 53b, the air distribution hole 53d of the separator plate 53c is naturally opened, and the bottled water is aired at that height. When the water flows into the inlet pipe 51 and stays upside down, the water bottle 10 is filled with the water, thereby filling the air inlet pipe 51, so that air cannot be supplied to the upper surface of the water level inside the bottled water bottle 10.

The present invention has been proposed in view of this point, and the buoyancy member is placed inside the cap member so that the buoyancy member is suspended by the bottled water inside the bottle when the air inlet tube is inserted into the bottle to prevent the air inlet tube. It is intended to provide a water blocking structure of the bottled water inlet pipe that can prevent the bottled water from flowing into the air inlet pipe.

1 is a configuration of the bottled water discharger according to Patent No. 350705.

Figure 2 is a detailed view of the bottled water inflow prevention means of the bottled water discharger according to Patent No. 350705.

3 is a block diagram of the bottled water preventing means according to the present invention.

Figure 4 is a state of use of the bottled water preventing means according to the present invention.

Figure 4a is a state when initially inserted into the bottled water.

Figure 4b is the bottled water upside down after insertion.

*** Explanation of symbols for the main parts of the drawing ***

100: bottled water preventing means 110: cap member

111: air exhaust hole 112: guide slope

120: buoyancy member 121: buoyancy receiving groove

130: cap member 140: buffer ring

Hereinafter, the present invention will be described in detail with reference to the embodiments presented.

The bottled water inflow preventing means according to the present invention is to be applied to the apparatus as shown in Figure 1 except for the bottled water inflow preventing means that is the subject of the present invention will be given the same reference numerals as in FIG.

The present invention covers the stopper 20 of the structure that the bottled water outlet is open only when placed in the bottled water dispenser (1) to prevent the leakage of bottled water, the end portion of the bottled water 10 is located inside The air inlet pipe 51 is inserted into the stopper 20 so that the bottled water is smoothly discharged, and the bottled water inlet prevention means 100 is coupled to the inner end of the bottled water bottle 10 of the air inlet pipe 51 to inlet the air. When the bottled water is not introduced into the tube 51, and the air filter 52 is coupled to the outer end of the bottled water bottle 10 of the air inlet pipe 51 so that only purified air is introduced into the bottled water bottle 10. It relates to the water blocking structure of the bottled water inlet pipe to fundamentally block the inflow of the bottled water to the air inlet pipe 51 to facilitate the inflow of air, as shown in Figure 3 at least the inside diameter of the air inlet pipe ( 51) and composed on one side larger than the inner diameter The air discharge hole 111 is formed is a cap member 110 is concentrically coupled to the inner end of the bottled water reservoir of the air inlet pipe 51 and the outer diameter (D2) than the inner diameter (D1) of the cap member 110 It is narrower and wider than the distance D3 between the inner circumferential surface of one side of the cap member 110 and the inner circumferential surface of the opposite side of the air inlet pipe 51 (D1> D2> D3). It is to provide a bottled water preventing means 100 made of a buoyancy member (120).

At this time, the buoyancy member 120 to form a buoyancy receiving groove 121 to be opened to the lower side to configure the buoyancy member 120 to operate more smoothly, and also the upper end of the buoyancy member 120 in the center of the pointed conical shape And, the air inlet pipe connecting portion of the cap member 110 may form a guide inclined surface 112 with a slope corresponding to the slope of the upper end of the buoyancy member 120 may implement a more reliable water blocking function.

In the drawings, reference numeral 130 denotes a plug member that blocks the opposite side of the air inlet pipe connecting portion of the cap member 110, and 140 is a cap member 110 when the air inlet pipe 51 is inserted into the bottled water bottle 10. Represents a buffer ring that buffers the bottle so that the bottle does not break even when the bottle 10 is in contact with the bottom.

Looking at the operation of the present invention configured as described above are as follows.

First, when the stopper 20 is placed on the bottled water bottle 10, the bottled water bottle 10 is inverted so that the inlet of the bottled water bottle 10 is directed toward the top, and when the stopper 20 is covered, the stopper 20 is placed. The air inlet pipe 51 is installed in is inserted from the top of the bottled water bottle 10 is to stay in the state that the end is contained in the bottled water.

Therefore, if the end of the air inlet pipe 51 is open, the bottled water will flow into the air inlet pipe 51 side as much as the water level, and when the water bottle 10 is later turned over, the bottled water will stay in the air inlet pipe 51. The bottled water side end of the air inlet pipe 51 is to prevent the inflow of bottled water by installing a bottled water preventing means.

By the way, as described in Patent No. 350705, such a bottled water preventing means includes a ball member inserted into the cap member so as to be flowable up and down, an isolation plate having an air flow hole open and closed by the ball member, and a flow distance between the ball member. When the air inlet pipe is inserted into the bottled water inlet facing upward, the ball member is positioned at the lower side, and the air distribution hole of the separator is naturally opened, and the bottled water is introduced into the air inlet pipe by the height thereof. If the water stays inverted and the bottle is turned upside down, the water fills the air inlet pipe, which prevents the air from being supplied to the upper water level inside the bottle.

In consideration of this, the inner diameter is at least larger than the inner diameter of the air inlet pipe 51, and an air discharge hole 111 is formed at one side thereof so that the cap is concentrically coupled to the inner end of the water bottle of the air inlet pipe 51. Member 110 and the outer diameter is narrower than the inner diameter of the cap member 110 and wider than the distance between the inner peripheral surface of the side of the cap member 110 from the inner peripheral surface of the opposite side of the air inlet pipe 51 is formed inside the cap member 110 To provide the bottled water preventing means 100 of the buoyancy member 120 and the cap member 130 that prevents the opposite side of the air inlet pipe connecting portion of the cap member 110, which is positioned to move up and down, Figure 4 and Likewise, when the air inlet pipe 51 is inserted into the bottled water bottle 10 having the inlet facing upward (actually, the air inlet pipe is put into the bottled water bottle while the cap is placed on the bottled water bottle inlet), the buoyancy member 120 is applied to the buoyancy of the water. Rises and the discharge part of the air inlet pipe 51 Because it prevents the water does not enter the air inlet pipe (5), and in this state upside down the bottled water bottle (10) and put on the bottled water dispenser (1) bottled water inlet prevention means located at the end of the air inlet pipe (51) ( 100 is located above the water level surface of the bottled water bottle 10 can supply air to the top of the water is to smoothly discharge the water.

At this time, since the buoyancy receiving groove 121 is formed in the buoyancy member 120 to open to the lower side, the buoyancy member 120 can receive the buoyancy of the water well when inserting the air inlet pipe 51 into the bottled water bottle 10. The lifting operation of the buoyancy member 120 can be made more sensitive, the upper end portion of the buoyancy member 120 is composed of a pointed conical shape, the air inlet pipe connecting portion of the cap member 110 buoyancy member 120 Since the guide inclined surface 112 is formed at an inclination corresponding to the inclination of the upper end of the buoyancy member 120, the conical upper end is guided while contacting the guide inclined surface 112, and naturally closes the end of the air inlet pipe 51. It can prevent the air inlet pipe 51 of the bottled water will completely block the inflow.

As described above, the present invention is because the buoyancy member is adopted in the form of a float valve to the bottled water inlet prevention means, when the air inlet pipe is inserted into the inside of the bottled water while capping the bottled water bottle, In this case, the buoyancy member floats in the water and can completely block the end of the air inlet pipe so that the inflow of the bottled water can be completely blocked.If the bottle is turned upside down and placed on the bottle, the outside air is introduced into the air inlet pipe. Is introduced into the bottled water through the bottled water is a very useful effect that can be smoothly discharged.

Claims (3)

Covers the stopper 20 of the structure in which the bottled water outlet is open only when the bottle is placed in the bottled water dispenser 1 at the inlet of the bottled water bottle 10 to prevent the leakage of bottled water, and the air is positioned so that one end thereof is positioned inside the bottled water bottle 10. The inlet pipe 51 is inserted into the stopper 20 so that the bottled water is smoothly discharged, and the bottled water inlet prevention means 100 is coupled to the inner end of the bottled water bottle of the air inlet pipe 51 to the air inlet pipe. In order to prevent the bottled water from flowing into the inside of the water inlet, the air filter 52 is coupled to the outer end of the bottled water container 51 so that only the purified air is introduced into the bottled water bottle 10. , The bottled water preventing means 100, The inner diameter is at least larger than the inner diameter of the air inlet pipe 51 and the air discharge hole 111 is formed on one side of the cap member 110 is concentrically coupled to the inner end of the bottled water bottle of the air inlet pipe 51 ; And The outer diameter (D2) is narrower than the inner diameter (D1) of the cap member 110 and wider than the distance (D3) between the inner peripheral surface of the opposite side of the air inlet pipe 51 from one inner peripheral surface of the cap member 110 is the cap Water blocking structure of the bottled water inlet pipe, characterized in that it comprises a buoyancy member (120) positioned to be raised and lowered inside the member (110). The method of claim 1, The buoyancy member 120 is a water blocking structure of the bottled water inlet pipe, characterized in that the buoyancy receiving groove 121 is formed to open to the lower side. The method of claim 1, The upper end portion of the buoyancy member 120 is composed of a pointed cone of the center portion, The air inlet pipe connecting portion of the cap member 110, the water blocking structure of the bottled water inlet pipe, characterized in that the guide inclined surface 112 is formed with a slope corresponding to the slope of the upper end of the buoyancy member (120).