JP2006505394A - Raw water cutoff device for water purifier - Google Patents

Abstract

A raw water shut-off device for a water purifier that automatically shuts off the flow of raw water when the filter is replaced, having a raw water introduction passage 12 and a first connector port 14 communicating with the raw water introduction passage 12, and a first connector The port 14 is provided with a connector 10 having a valve chamber 14a. The valve body 20 can move in the valve chamber 14a so that the first connector port 14 can be automatically closed or opened when the filter is attached or detached. The filter 30 detachably attached to the connector 10 includes an introduction port 32 for connecting to the first connector port 14 of the connector 10, a filter member (not shown), a delivery port 34, and an introduction port 32. A pusher 32a that moves the valve body 20 to the open position and opens the first connector port 14 when connected to the connector port 14 is provided.

Description

  The present invention relates to a raw water shut-off device for a water purifier, and more particularly to a raw water shut-off device for a water purifier configured to effectively shut off raw water introduced when a filter is replaced.

  Due to water pollution, it has become difficult to use the tap water supplied to each household and each store as it is. For this reason, water purifiers that purify contaminated water (hereinafter abbreviated as “raw water”) into water suitable for drinking (hereinafter abbreviated as “purified water”) have been used at homes and stores. Yes.

  Such a water purifier includes a plurality of filters for filtering raw water. These filters include a cylindrical case, a filter member disposed in the case, and an introduction port and a delivery port for introducing the raw water introduced and sending the raw water introduced. Such filters are connected to each other in series by connectors. The introduced raw water sequentially passes through these connected filters, and the contaminated raw water is filtered into clean purified water.

  In such a water purifier, when the filter is contaminated, the filter member must be periodically replaced. And when separating and exchanging the filter from the connector, the filter had to be exchanged after blocking the raw water introduced into the water purifier. This is because if the filter is separated from the connector without blocking the introduction of the raw water, the raw water will leak from the connector. Further, in order to shut off the raw water, it is necessary to mount an expensive electronic or manual shut-off valve, and there is a problem that the cost of the shut-off valve is high.

  In view of the above problems, the present invention provides a water purifier capable of preventing leakage of raw water from the connector by effectively blocking the flow of raw water when separating the filter from the water purifier connector for filter replacement. An object is to provide a raw water shut-off device.

  Another object of the present invention is to provide a raw water cutoff device for a water purifier that can realize the cutoff of raw water with a simple and effective configuration for reducing the manufacturing cost and can greatly reduce the manufacturing cost of the water purifier.

  In order to achieve the above object, a raw water cutoff device for a water purifier according to the present invention is a raw water cutoff device for a water purifier that automatically shuts off the flow of raw water when a filter is replaced. A first connector port communicating with the introduction passage, and the first connector port closes the first connector port when the filter is separated from the connector in which the valve chamber is formed; And a valve body movably disposed in the valve chamber so as to open the first connector port when the filter is attached.

  Hereinafter, preferred embodiments of a raw water cutoff device for a water purifier according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a cross-sectional view showing a configuration of a raw water cutoff device for a water purifier according to the present invention. According to this, the interruption | blocking apparatus of this invention has the connector 30 provided in the water purifier main body 1, and the filter 30 with which the connector 10 is mounted | worn so that isolation | separation is possible. The connector 10 has a raw water introduction passage 12 for introducing raw water and a first connector port 14 communicating with the raw water introduction passage 12. The raw water introduction passage 12 is connected to an introduction pipe 3 connected to an external raw water supply source, and introduces raw water. The first connector port 14 is connected to the introduction port 32 of the filter 30 and plays a role of sending the raw water introduced into the raw water introduction passage 12 to the introduction port 32 of the filter 30.

  The connector 10 includes a second connector port 16 and a purified water delivery passage 18 that communicates with the second connector port 16. The second connector port 16 is connected to the delivery port 34 of the filter 30 and introduces purified water delivered from the delivery port 34 of the filter 30. The purified water delivery passage 18 plays a role of delivering purified water introduced into the second connector port 16. The purified water delivery passage 18 is connected to the raw water introduction passage 12 of another adjacent connector 10 and is configured to send the sent purified water to another adjacent connector 10.

  A valve chamber 14a is disposed in the first connector port 14 of the connector 10, and a valve seat 14b is provided in the valve chamber 14a. The valve seat 14b is a rubber O-ring, and the O-ring 14b is attached to the first connector port 14 by a retainer 14c. On the other hand, a valve body 20 is provided in the valve chamber 14a. The valve body 20 is a spherical ball, and closes the first connector port 14 when pressed against the valve seat 14b by the pressure of raw water introduced into the valve chamber 14a via the raw water introduction passage 12. That is, it has a function as a general check valve.

  Thus, when the valve body 20 is pressed against the valve seat 14b and the first connector port 14 is shut off, the raw water can be shut off automatically when the filter 30 is separated from the connector 10 for replacement. . For this reason, it was possible to eliminate the inconvenience of having to shut off the raw water by operating an electronic or manual shut-off valve before replacing the filter 30 as in the prior art. In addition, this valve body 20 is provided in the valve chamber 14a so that a movement is possible, and is arrange | positioned at intervals with the inner wall of the valve chamber 14a. This is because the raw water introduced into the valve chamber 14a can be sent to the first connector port 14 when the valve body 14a is separated from the valve seat 14b. For this reason, as shown in FIG. 2, a plurality of flow grooves 14d are formed at equal intervals on the inner wall peripheral surface of the valve chamber 14a.

  As shown in FIG. 1, the blocking device of the present invention includes a filter 30. The filter 30 includes a filter member (not shown) therein so that the introduced raw water can be filtered, and includes an introduction port 32 and a delivery port 34. The introduction port 32 is connected to the first connector port 14 of the connector 10 and introduces raw water sent from the first connector port 14 into the filter. On the other hand, the delivery port 34 is connected to the second connector port 16 of the connector 10 and has a role of delivering filtered purified water to the second connector port 16.

  The introduction port 32 of the filter 30 is provided with a pusher 32a protruding outward. When the introduction port 32 of the filter 30 and the first connector port 14 of the connector 10 are connected, the pusher 32 a is inserted into the first connector port 14 and presses the valve body 20 of the first connector port 14.

  The pusher 32a presses the valve body 20 of the first connector port 14 to separate the valve body 20 from the valve seat 14b, thereby opening the first connector port 14. For this reason, after attaching the filter 30 to the connector 10, the raw water can be introduced into the filter 30 without performing an electronic or manual valve operation to open the first connector port 14 of the connector 10. In addition, the diameter of the pusher 32a is slightly smaller than the diameter of the 1st connector port 14, and as shown in FIG. 3, it is supported by the introduction port 32 by the some rib 32b.

  In the present invention having the above configuration, when the pressure of raw water is applied to the valve body 20 that is a check valve, the first connector port 14 of the connector 10 is closed and the filter 30 is separated from the connector 10. The raw water introduced can be shut off automatically. Further, since the first connector port 14 is opened by pressing the valve body 20 by the pusher 32a of the filter 30, the first connector port 14 of the connector 10 is automatically connected when the filter 30 is coupled to the connector 10. Opened.

  In the present invention, in the process of separating the filter 30 from the connector 10 for replacement of the filter member and coupling the filter 30 replaced with a new filter member to the connector 10, the raw water can be automatically shut off and reintroduced. . For this reason, the replacement work of the filter 30 can be performed very easily.

  As shown in FIG. 1, the connector 10 of the present invention is attached to the water purifier main body 1 by being supported pivotally about a pivot shaft 10 a by support brackets 5 on both sides of the connector 10. For this reason, as shown in FIG. 4, the connector 10 can be rotated between the “filter use position A” and the “filter exchange position B”, thereby facilitating the exchange work of the filter 30.

  Next, another embodiment according to the present invention will be described with reference to FIGS. 5, 6, and 7.

  The second embodiment shown in FIG. 5 is characterized in that the valve body 20 for closing the first connector port 14 of the connector 10 is constituted by a poppet valve. The poppet 20 includes a poppet base 22 having a tapered shape so as to be in close contact with the valve seat 14b, and a projecting load 24 that is inserted through the first connector port 14 from the end of the poppet base 22 and projects outward. . The poppet base 22 is in close contact with the periphery of the valve seat 14 b to close the first connector port 14, and the protruding load 24 is pressed against the pusher 32 a of the filter 30. Therefore, when the protruding load 24 is pressed by the pusher 32a, the poppet 20 that is in close contact with the valve seat 14b is separated from the valve seat 14b, and the first connector port 14 is opened.

  In the second embodiment, the valve body 20 for closing the first connector port 14 is a poppet valve, thereby increasing the contact area with the valve seat 14b and further closing the first connector port 14. Make sure. When the valve body 20 is a poppet valve, it is not necessary to configure the valve seat with the rubber O-ring 14b. This is because the poppet base 22 of the poppet 20 contacts the valve seat 14b in a wider contact area, so that the first connector port 14 can be reliably closed. Further, the poppet 20 having a predetermined elasticity, for example, made of soft plastic or soft metal, can more reliably close the first connector port 14. When the poppet 20 is made of a soft material, another airtight material, that is, a rubber O-ring 14b is not required. Further, when the valve body 20 is a poppet valve, the pusher 32a of the filter 30 for pressing the protruding protrusion 24 of the poppet 20 may be shortened. This is because the protruding protrusion 24 of the poppet 20 is inserted through the first connector port 14 and protrudes to the outside, so that the protruding protrusion 24 can be sufficiently pressed even if the length of the pusher 32a is shortened.

  Next, a third embodiment shown in FIG. 6 will be described. In this embodiment, the second connector port 16 of the connector 10 is also provided with a valve chamber 16a having a valve seat 16b, and a valve body 40 for closing the second connector port 16 is disposed in the valve chamber 16a. A pusher 34 a for pressing the valve body 40 is provided at the delivery port 34 of the filter 30 connected to the second connector port 16.

  In the third embodiment, when the valve body 40 in the second connector port 16 functions as a check valve and the second connector port 16 is closed, and the filter 30 is separated from the connector 10, The raw water flowing backward from the purified water delivery passage 18 can be automatically shut off. Further, when the filter 30 is coupled to the connector 10 in order to open the second connector port 16 by pressing the valve body 40 by the pusher 34 a formed in the delivery port 34 of the filter 30, the second connector port 16 of the connector 10. Can be opened automatically.

  According to the third embodiment, when the filter 30 is separated from the connector 10 in the replacement operation of the filter member in the filter 30, the raw water flowing backward from the purified water delivery passage 18 is automatically shut off, and the second connector port 16 Can prevent the leakage of raw water.

  Finally, a fourth embodiment will be described with reference to FIG. In this embodiment, a third connector port 19 is formed in the connector 10, a valve chamber 19a having a valve seat 19b is provided in the third connector port 19, and the third connector port 19 is closed in the valve chamber 19a. The valve body 50 is arranged. The filter 30 coupled to the connector 10 is formed with an auxiliary delivery port 36 connected to the third connector port 19 of the connector 10, and the auxiliary delivery port 36 presses the valve body 50 of the third connector port 19. A pusher 36a is provided. The auxiliary delivery port 34 of the filter 30 is for sending out effluent water flowing out from the reverse osmotic pressure type filter member when a reverse osmotic pressure type filter member (not shown) is used. The third connector port 19 of the connector 10 is for sending out the effluent water sent from the filter 30 to the outside. The third connector port 19 communicates with the auxiliary delivery passage 19c.

  In the fourth embodiment, when the third connector port 19 is closed by the valve body 50 functioning as a check valve provided in the third connector port 19 and the filter 30 is separated from the connector 10, the auxiliary delivery passage 19c is used. Backflowing raw water can be automatically shut off. For this reason, when the filter 30 is separated from the connector 10 for replacement of the filter member accommodated in the filter 30, the raw water flowing back from the auxiliary delivery passage 19 c is automatically shut off, thereby allowing the third connector port 19 to The leakage of raw water can be prevented.

  As described above, in the present invention, when the filter 30 is separated from the connector 10 of the water purifier body 1, the introduction of the raw water is automatically shut off, and the raw water is automatically supplied when the filter 30 is attached to the connector 10 again. Can be reintroduced. For this reason, it was possible to realize an extremely quick and easy filter 30 replacement operation.

  In the attached drawings of the above embodiments, the first to third connector ports 14, 16, 19 of the connector 10 having a protruding shape are connected to the valve chambers 14a, 16a, 19a and the valve bodies 20, 40, 50. Are shown, and the pusher 32a, 34a, 36a is provided on the introduction port 32, the delivery port 34, and the auxiliary delivery port 36 of the filter 30 having a groove shape so as to be coupled to each of these ports. Yes. However, the first to third connector ports 14, 16, 19 of the connector 10 having a groove shape are provided with valve chambers 14a, 16a, 19a and valve bodies 20, 40, 50, and are coupled to these ports. It is also possible to provide pushers 32a, 34a, and 36a in the introduction port 32, the delivery port 34, and the auxiliary delivery port 36 of the filter 30 having such a protruding shape.

  The preferred embodiments of the present invention have been described above by way of example, but the scope of the present invention is not limited to such specific embodiments, and can be appropriately changed within the scope described in the claims. It is.

  The raw water cutoff device of the water purifier according to the present invention automatically shuts off the introduction of raw water when the filter is separated from the connector of the water purifier body, and when the filter is attached to the connector of the water purifier body again, Can be automatically reintroduced. For this reason, the filter replacement operation can be performed very easily. Also, unlike conventional water purifiers configured to shut off raw water using an expensive shut-off valve, the raw water can be shut off and re-introduced with a simple and effective construction for reducing manufacturing costs. The production cost can be greatly reduced.

It is sectional drawing which shows the raw | natural water cutoff device of the water purifier of embodiment which concerns on this invention. It is sectional drawing about the line II-II of FIG. FIG. 3 is a cross-sectional view taken along line III-III in FIG. 1. FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. 1. It is sectional drawing which shows the raw | natural water cutoff device of the water purifier of 2nd Embodiment which concerns on this invention. It is sectional drawing which shows the raw | natural water cutoff device of the water purifier of 3rd Embodiment which concerns on this invention. It is sectional drawing which shows the raw | natural water cutoff device of the water purifier of 4th Embodiment which concerns on this invention.

Claims (9)

A raw water cutoff device for a water purifier that automatically shuts off the flow of raw water when replacing the filter,
A raw water introduction passage and a first connector port communicating with the raw water introduction passage;
The first connector port closes the first connector port when separating the filter from which the valve chamber is formed and the filter from the connector, and opens the first connector port when attaching the filter to the connector. And a valve body disposed movably in the valve chamber.   The filter is configured to open the valve body by connecting the introduction port connected to the first connector port of the connector, the filter member, the delivery port, and the introduction port to the first connector port of the connector. The raw water shut-off device for a water purifier according to claim 1, further comprising a pusher that moves the first connector port to open.   2. The raw water blocking device for a water purifier according to claim 1, wherein the valve body is a ball that closes the first connector port by the pressure of raw water flowing into the raw water introduction passage.   The valve body is a poppet that closes the first connector port by the pressure of raw water flowing into the introduction passage, and the poppet is a protruding load that can be brought into contact with the pusher of the filter through the introduction port of the filter. The raw water cutoff device for a water purifier according to claim 1, comprising:   2. The raw water cutoff device for a water purifier according to claim 1, wherein the connector is a rotary connector that can rotate between a filter use position and a filter replacement position about a pivot shaft.   The connector further includes a second connector port connected to the delivery port of the filter and a purified water delivery passage communicating with the second connector port, and a valve chamber is formed in the second connector port, The valve chamber is provided with a valve body that automatically closes the second connector port when the filter is separated, and the filter has the second connector port connected to the delivery port and the two connector port. The raw water cutoff device for a water purifier according to claim 1, further comprising a pusher that presses the valve body in the opening direction.   The connector further includes a third connector port connected to the filter port and an auxiliary delivery port connected to the third connector port, and the third connector port has a valve chamber formed therein. A valve body for opening and closing the third connector port is disposed in the valve chamber of the three connector port, and the auxiliary delivery port and the third connector port are connected to the auxiliary delivery port of the filter, The raw water cutoff device for a water purifier according to claim 1, further comprising a pusher that presses the valve body of the third connector port in the opening direction.   The raw water cutoff device for a water purifier according to claim 1, further comprising a retainer detachably attached to the first connector port of the connector so that the valve body can be maintained in the valve chamber. A raw water shut-off device for a water purifier that automatically shuts off the flow of raw water when replacing the filter,
A raw water introduction passage and a first connector port communicating with the raw water introduction passage;
The first connector port includes a connector in which a valve chamber is formed;
A valve body movably disposed in the valve chamber so as to close the first connector port when the filter is separated and to open the first connector port when the filter is attached;
By connecting the introduction port, the filter member, the delivery port, and the introduction port, which are detachably attached to the connector and connected to the first connector port of the connector, to the first connector port of the connector, A raw water cutoff device for a water purifier, comprising: a filter including a means for moving the valve body to an open position so that the first connector port is opened.

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