KR20100010550U - Flow Control Apparatus of the water purifier - Google Patents

Abstract

According to the present invention, the membrane filter of the reverse osmosis water purification method; A tubing provided as a removal water discharge line of the membrane filter; A fitting disposed to communicate a flow path between the membrane filter and the tubing, wherein a concave groove in a flow path direction is formed at an inner diameter of an insertion part inserted into and coupled to one side of the membrane filter; And a press-fit pin forcibly press-fitting the inner diameter side of the insertion part of the fitting to form a fine flow path for releasing the removal water into the concave groove.

According to this, the microchannel is formed by the combination of the concave groove and the press-fit pin on the inner diameter side of the insert, thereby eliminating the use of the adhesive for bonding in the conventional channel formation process, thereby improving the working environment and productivity.

In addition, the micro flow channel formed by the present invention can prevent the disconnection due to dissolution of the adhesive as in the prior art, it is possible to continue semi-permanently.

Water Purifier, Removal Water, Reverse Osmosis, Membrane Filter, Tubing, Fittings, Push-In Pins, Flow Control

Description

Flow Control Apparatus of the water purifier

The present invention relates to a flow regulating device of the water purifier, and more particularly, to a flow regulating device of the water purifier for optimizing the flow rate of the discharge water is removed in the discharge of the contaminants concentrated in the water purification process to the removal water.

In general, the reverse osmosis water purifier refers to a water purifier in which a membrane filter is used in the construction of a water purification system. The membrane filter is applied with a pressure greater than the osmotic pressure to concentrate contaminants and is discharged as water to be removed. It consists of a system that produces water.

Hereinafter, a flow rate regulating device of a conventional water purifier will be described with reference to the accompanying drawings.

1 is an assembly view showing a flow control apparatus of a conventional water purifier, and FIG. 2 is an assembly complete view of FIG. 1.

1 and 2, the conventional reverse osmosis water purifier is inevitably generated by the removal of the contaminant condensate, the tubing (T) and the lower side of the membrane filter (M) It is provided with a flow control device 100 is connected to form a fine flow path between the.

In particular, the flow control device 100 is provided with an injection-molded elbow fitting (Fitting) 110, the inside of the fitting 110 is a micro flow path of about 0.5mm optimized to prevent the occurrence of excessive removal water It is formed.

Since the fitting 110 is formed by injection of a resin, it is difficult to form a fine flow path of about 0.5 mm, so that a separate flexible pipe P having a fine flow path formed therein is a collet 120. The microchannel is formed by inserting and bonding the inner hollow portion of the fitting 110 to the inside of the fitting 110.

Here, the collet 120 has one side thereof is press-coupled to the inner diameter side of the tubing (T) together with the flexible pipe (P), the other side is inserted into the fitting 110 and the jaw portion is caught It is a connecting member for selectively coupling the tubing (T) with the fitting (110).

According to the conventional flow control device 100, the adhesive is used in the process of fixing the inner tube and the outer peripheral surface of the flexible pipe (P) to the inner hollow portion of the collet 120, according to the work of the product assembly line The problem that the environment and productivity are lowered arises.

Moreover, the adhesive used is gradually dissolved when it is in contact with the removal water for a long time, and eventually the flexible pipe P is separated from the collet 120 so that the fine flow path of the removal water is disconnected. Will occur.

The present invention was created to solve the above problems, by forming a fine flow path on the inner diameter side of the fitting to eliminate the use of adhesive in the conventional flow path forming process, and to provide a flow control device of the water purifier that can maintain the micro flow path firmly The purpose is to provide.

Flow control device of the water purifier according to an aspect of the present invention to achieve the above object is a membrane filter of the reverse osmosis water purification method; A tubing provided as a removal water discharge line of the membrane filter; A fitting disposed to communicate a flow path between the membrane filter and the tubing, wherein a concave groove in a flow path direction is formed at an inner diameter of an insertion part inserted into and coupled to one side of the membrane filter; And a press-fit pin forcibly press-fitting the inner diameter side of the insert portion of the fitting to form a fine flow path for releasing the removal water into the concave groove.

Here, the concave groove of the fitting is characterized in that the radial depth or width with respect to the inner diameter of the insertion portion is adjusted so that the discharge flow rate of the removal water is set.

In addition, the press-fit pin is characterized in that the length of the press-fit to the inner diameter of the insertion portion is adjusted so that the discharge flow rate of the removal water is set.

In addition, the present invention is characterized in that it further comprises a collet for one side is press-fitted into the inner diameter side of the tubing, the other side is inserted into the opposite side of the insert portion of the fitting to couple the tubing with the fitting.

As described above, according to the flow rate adjusting device of the water purifier according to the present invention, the microchannel is formed by the combination of the concave groove and the press-fit pin on the inner diameter side of the insert, thereby eliminating the use of the adhesive for bonding in the conventional channel formation process. Work environment and productivity can be improved.

In addition, the micro flow channel formed by the present invention can prevent the disconnection due to dissolution of the adhesive as in the prior art, it is possible to continue semi-permanently.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the flow control device of the water purifier according to an embodiment of the present invention.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and the inventor may appropriately design the concept of the term appropriately to describe its own design in the best way possible. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiment of the present invention, and do not represent all of the technical ideas of the present invention, these can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

Figure 3 is an assembly view showing a flow control device of the water purifier according to an embodiment of the present invention, Figure 4 is an enlarged view of the insertion portion of the fitting of Figure 3, and Figure 5 is pressed in the insertion portion of the fitting of Figure 3 The pin is inserted.

As shown in the figure, the flow control device 200 of the water purifier according to an embodiment of the present invention is provided with a membrane filter (M) of the reverse osmosis water purification method, and the removal water discharge line of the membrane filter (M) It comprises a tubing (T), the fitting 210, the collet 220 and the pressing pin 230.

Here, the membrane filter (M) is provided to filter the fine particles and microorganisms contained in the raw water by passing the raw water passed through the precipitation filter and the pre-treatment carbon filter not shown in the membrane formed with a plurality of pores. The contaminants thus filtered are concentrated and discharged to the removal water through the lower side of the membrane filter (M) shown, on the other hand to produce purified pure water.

In addition, the fitting 210 is inserted into the tubular insertion portion is inserted into the lower side of the membrane filter (M) to communicate the flow path for removal water between the lower side of the membrane filter (M) and the tubing (T). 211 is provided, and the inner diameter 211a of the insertion portion 211 is formed by extending the concave groove 211b in the flow direction by the length of the insertion portion 211.

In addition, the tubing (T) is interpolated and fixed to the opposite side of the inserting portion 211 of the fitting 210 to be integrated with the inserting portion 211 such that a communication flow path between the tubing T and the membrane filter M is formed. And a tubular fastening portion 212 extending in a "L" shape. The fastening part 212 is formed by the inner diameter (212a) of a size corresponding to the outer diameter of the tubing (T).

In the present embodiment, the fitting 210 is illustrated as an elbow, but the shape thereof is not limited thereto, and various kinds of fittings may be selected as long as the fitting 210 may communicate with the membrane filter M and the tubing T. Can be used as

In addition, one side of the collet 220 is press-fitted to the inner diameter side of the tubing (T), the other side is inserted into the fastening portion 212 of the fitting 210, the tubing (T) to the fitting 210 It is a connecting member for selectively coupling. The collet 220 is formed such that the outer diameter becomes smaller as one side toward the end portion is easily provided to the inside diameter of the tubing (T).

On the other hand, the press-fit pin 230, the insertion portion 211 of the fitting 210 is inserted into the lower side of the membrane filter (M) before the insertion portion 211 inner diameter 211a side of the fitting 210 5 is disposed in a forced indentation manner (see FIG. 5), and a fine flow path for discharging water to the tubing T side through the concave groove 211b formed between the membrane filter M and the fitting 210 is formed. It is provided to form.

Hereinafter, with reference to the drawings looks at the action of the flow control device 200 of the present invention water purifier.

When the removal water is discharged from the lower side of the membrane filter (M) with the production of purified water, the flow rate of the removal water is optimized to the recessed groove (211b) formed in the insertion portion 211 of the fitting 210, the fastening portion 212 of the fitting Through the inner diameter 212a to form a discharge line flowing to the tubing (T).

At this time, the discharge flow rate of the removal water is the radially formed depth of the concave groove 211b with respect to the inner diameter 211a of the insertion portion 211 or the press-fit pin (with respect to the inner diameter 211a of the insertion portion 211) It is made adjustable according to the press-in length of 230).

As such, the micro-channel is formed by the combination of the concave groove 211b and the press-fit pin 230 on the inner portion 211a of the fitting portion 210 to prevent the use of the adhesive for bonding in the conventional flow path forming process. Exclusion can improve work environment and productivity.

In addition, the micro flow channel formed by the present invention can prevent the disconnection due to dissolution of the adhesive as in the prior art, it is possible to continue semi-permanently.

On the other hand, the above-described flow control device 200 of the water purifier is illustrated as being used where the removal water is discharged through the lower side of the membrane filter (M) in one embodiment of the present invention, if the flow rate control is required in the water purifier Of course, it can be installed and used anywhere.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto. Of course, various modifications and variations are possible within the scope of equivalents.

1 is an assembly view showing a flow control device of a conventional water purifier,

2 is an assembly complete view of FIG.

3 is an assembly view showing a flow control device of the water purifier according to an embodiment of the present invention,

4 is an enlarged view of the insert of the fitting of FIG. 3, and

5 is a view showing a state in which the pressing pin is inserted into the insertion portion of the fitting of FIG.

DESCRIPTION OF REFERENCE NUMERALS

200: flow control device of the water purifier 210: fitting

211: inserting portion 211a: inner diameter

211b: concave groove 220: collet

230: press-fit pin M: membrane filter

T: Tubing

Claims (4)

Reverse osmosis water purification membrane filter (M); Tubing (T) provided as the removal water discharge line of the membrane filter (M); The concave groove in the flow path direction is disposed in the inner diameter 211a of the insertion portion 211 which is disposed to communicate with the flow path between the membrane filter M and the tubing T, and is inserted and coupled to one side of the membrane filter M. A fitting 210 in which 211b) is formed; And A press-fit pin (230) forcibly pressed into the inner diameter (211a) side of the insertion portion (211) of the fitting (210) to form a fine flow path for discharging the removal water into the concave groove (211b). Flow control device (200). The method of claim 1, wherein the concave groove 211b of the fitting 210, Flow rate control apparatus of the water purifier, characterized in that the depth or width of the radial direction to the inner diameter (211a) of the insertion portion 211 is adjusted so that the discharge flow rate of the removal water is set. The method of claim 1, wherein the press pin 230, Flow control apparatus 200 of the water purifier, characterized in that the length press-fitted into the inner diameter (211a) of the insertion portion 211 is set so that the discharge flow rate of the removal water. The method of claim 1, One side is press-fitted to the inner diameter side of the tubing (T), the other side is inserted into the opposite side of the insertion portion 211 of the fitting 210 is a collet 220 for coupling the tubing (T) with the fitting 110 Flow control device 200 of the water purifier, characterized in that it further comprises.

Images