JP3202679B2 - Water supply mechanism - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a water supply system for a water faucet provided in a kitchen or a sink without providing a branching mechanism to a water supply hose of equipment such as a water purifier, a dishwasher, a water heater and a washing machine. The present invention relates to a novel water supply mechanism capable of supplying water to a hose.

[0002]

2. Description of the Related Art Conventionally, water is supplied to a water purifier provided in a kitchen sink, for example, as shown in FIG.
2, a switching cock 93 is provided, and a water supply hose 95 of a water purifier 94 is connected to a branch portion 93a of the switching cock 93. In addition, a dedicated branch faucet having an inlet channel communicating with the branch channel of the faucet is provided, and the outlet of the branch faucet is connected to the inlet of a water supply hose to supply water to the water purifier.

[0003]

However, since it is necessary to provide a branching mechanism from the faucet itself, such as the switching cock 93 and the branch faucet, the usability is poor. Also,
In the case where the faucet 91 is a hot and cold water mixing faucet, if the switching state to the water supply is poor, the water may be supplied to the water purifier 94 in a state where the hot water is mixed. Further, there is no water supply mechanism having a structure capable of supplying water or mixed water to a washing machine or the like through the hose without providing a branching mechanism to a hose of the washing machine or the like on the faucet itself provided on the wash basin or the like. Was.

[0004] The present invention relates to a water supply hose provided independently in a water faucet provided in a kitchen or a washstand without providing a branching mechanism to a water supply hose of equipment such as a water purifier, a dishwasher, a water heater and a washing machine. It is intended to provide a new water supply mechanism capable of supplying water to the water.

[0005]

[MEANS FOR SOLVING THE PROBLEMS] To achieve the above object
In this invention, the water supply pipe of the faucet was attachedwall
A faucet with a flow control function separate from the faucet,
From the water supply pipe to the water inlet of the faucet with flow rate adjustment function
Connect the branched water supply pipe with the flow rate adjustment function
At the outlet of the faucet, a water purifier, dishwasher, kettle
The fittings of the water supply hose of equipment such as washing machines and washing machines are detachably connected.
Provide a faucet-side joint to be continued, and with the flow rate adjustment function
In the faucet, the flow adjustment operation member has its shaft in the closed position.
Along with the water supply hose,
A disconnection mechanism for disconnecting from the faucet side joint is provided.
It is characterized by having.

[0006]

Embodiments of the present invention will be described below. Note that the present invention is not limited thereby. 1 to 5 show a water supply mechanism of a wall storage type according to one embodiment of the present invention. 1 to 5, reference numeral 1 denotes a hot-water mixing tap provided on a kitchen sink A, for example. The hot-water mixing tap 1 is attached to a wall 2 to which a water supply pipe (not shown) of the hot-water mixing tap 1 is attached. Is formed with an opening 4 (FIG. 2) for installing another faucet 3 with a flow rate adjusting function. The wall 2 is, for example, tiled.

The faucet 3 with a flow rate adjusting function includes a vertically long faucet (single faucet) main body 5, a cartridge 6 screwed to the faucet main body 5, and a dial type flow rate control member. It comprises an adjustment lever 7, a transmission mechanism 8 (FIG. 7) for transmitting the turning operation of the flow rate adjustment lever 7 to the cartridge 6, and a disconnection mechanism 9. Reference numeral 10 denotes a water inlet formed in the faucet main body 5 and is connected to a branch water supply pipe 11 branched from a water supply pipe (not shown) of the hot and cold water mixing tap 1. A water outlet 14 connected to a water supply hose 13 of a water purifier 12 installed on a sink A is formed on the front surface of the faucet body 5, and a joint 15 on the water supply hose 13 side is connected to the water outlet 14. A faucet side joint 16 (FIG. 4) is provided. This joint 16 is preferably formed so as to fit within the wall surface. The faucet 3 with a flow rate adjusting function is installed in a vertically long housing 17 attached to the opening 4, and a front opening 17 a of the housing 17 is openable and closable by a lid member 18 pivotally supported on a lower edge thereof. .

[0008] The cartridge 6 is screwed into the upper half of the faucet body 5. Reference numeral 19 denotes a valve portion of the faucet 3, which is composed of a fixed disk 20 made of ceramic and a movable disk 21 made of ceramic. A stopper rod 22 is inserted into the cartridge 6, and its upper end is linked to the flow rate adjusting lever 7 via the transmission mechanism 8. In addition, plug rod 2
A projecting piece 24 having a shape that can be fitted into an engaging recess 23 formed on the front surface of the movable disk 21 is integrally formed on the bottom surface of the lower part of the circular shape in a plan view. A ring-shaped sliding packing 25 is provided at an intermediate position of the stopper rod 22, and the sliding packing 25 is attached to a packing receiving portion 26 in the cartridge 6.
The stopper rod 22 is configured to be rotatable by contact with the stopper rod 22. Since the cartridge 6 is screwed to the faucet main body 5 as described above, the cartridge 6 is
Does not rotate by the operation of.

Further, a C-ring 27 provided in the cartridge 6 on the water inlet 10 side and a fixed disk 20 are provided.
Between the spring plate 28 and the disk holder 2 made of synthetic resin.
9 are interposed. As shown in FIG. 6, the disc retainer 29 has a ring shape, and a protrusion 24 having a shape fittable with the engaging recess 23 formed on the back surface of the fixed disc 20 is integrally formed at a center position thereof. I have. The disc retainer 29 has an engagement protrusion 30 integrally formed in the same manner as the protrusion 24, and the engagement protrusion 30 abuts on the ring-shaped end surface m of the cartridge 6 on the water inlet 10 side. The spring plate 28 is provided with a recess 3 provided on the back side of the projection 24.
1 (FIG. 5). Reference numeral 32 denotes a communication hole formed in the disc retainer 29, which connects the water inlet 10 to the valve hole 33 of the fixed disc 20.

In the fixed disk 20, a valve hole 33 communicating with the water inlet 10 through a communication hole 32 formed in the disk holder 29 is formed at symmetrical positions with the engagement recess 23 interposed therebetween. . The valve hole 33 has a fan shape in plan view when viewed from the sliding surface T side, and is disposed to face each other.
When viewed from the back side, they are opposed to each other with a flat crescent shape sandwiching the engaging recess 23.

On the other hand, the movable disk 21 is arranged rotatably (eg, 90 °) in the direction shown by the arrow G in a state of being in close contact with the sliding surface T of the fixed disk 20. The back surface of the movable disk 21 is provided with a fan-shaped valve hole 3 of the fixed disk 20 in plan view.
3 is closed, and a notch 34 is provided. Further, on the surface of the movable disk 21, as described above, the engaging concave portion 23 that engages with the projecting piece 24 formed on the bottom surface of the plug rod 22 is formed. Further, since a load is applied to the fixed disc 20 by the spring plate 28 and the disc retainer 29 on the two discs 20 and 21, the pressing load can be kept constant, and thus the seal between the movable disc 21 and the fixed disc 20 can be maintained. Good performance can be maintained.

Next, a connection mechanism of the water supply hose 13 of the water purifier 12 will be described. The joint 16 with the check valve provided at the water outlet 14 of the faucet body 5 with the flow rate adjusting function has a flange 35 around the opening c, and a peripheral groove 36 is provided at the back of the flange 35. Further, a spherical valve body 38 having a diameter slightly larger than the diameter of the small diameter portion 37 is provided inside, and a spring body 40 is interposed between the valve body 38 and a central cylindrical portion 39 located upstream of the valve body 38. Has been inserted.

On the other hand, the joint 15 of the water supply hose 13 is shown in FIG.
As shown in the figure, the outer cylindrical cover 41 which is arranged concentrically
And the inner cylinder 42, the small ball 43..., The inner cylinder 4
The outer cylinder cover 41 is configured to be slidable in the direction of F in the figure with respect to the inner cylinder 42. The inner cylindrical body 42 is provided with four through holes t having openings smaller in the inner circumference than in the outer circumference. The four holes t have a diameter slightly larger than that of the inner circumference. Small ball 43 ...
Is fitted. The small balls 43 are pressed inward by the outer cylindrical cover 41, respectively.

When the water supply hose 13 is attached to the faucet main body 5, the outer cylinder cover 41 of the joint 15 is slid in the direction of arrow F to release the pressing force against the small balls 43. Into the joint 16 provided at the water outlet 14 of the faucet main body 5. At this time, the small balls 43 are located on the circumferential groove 36, and the outer cylindrical cover 41 is
When the small balls 43 are slid in the opposite direction (that is, to the original position), the small balls 43 are pressed inward again to firmly grip the flange 35 in the circumferential groove 36, and the push rod 44 Valve body 38 incorporated in faucet side joint 16
push. Therefore, water can be supplied from the water outlet 14 of the faucet main body 5 to the water supply hose 13 of the water purifier 12.

Between the faucet-side joint 16 and the flow control lever 7 in the faucet 3 having the flow control function, the flow control lever 7 is pushed in the axial direction at the closed position, so that The pipe cover 41 of the joint 15 on the water supply hose side is pushed to the disconnection side (F direction), and the joint 15 on the water supply hose side is connected to the joint 16 on the faucet side, so that the flow rate adjusting lever 7 is pushed. A connection release mechanism 9 for releasing is provided. The disconnection mechanism 9 is provided with a screw 4
A fork-shaped swing lever 48 is swingably supported by a support shaft 47 on a frame 46 fixed by 5. The lower end of the swing lever 48 is extended to a position where it can be engaged with the end surface of the cylindrical cover 41 of the water supply hose side joint 13 connected to the faucet side joint 16. The upper end is extended to a position where it can be engaged with the back surface of the disk portion of the flow rate adjusting lever 7. This swing lever 48
Is urged by a spring 49 (FIG. 7) to the side where the lower end is raised forward.

The frame 4 supporting the swing lever 48
6, a drum 50 constituting a transmission mechanism 8 for transmitting the rotation operation of the flow rate adjusting lever 7 to the valve rod 22 of the cartridge 6 is provided rotatably in the same direction as the valve rod 22. At the lower end of the drum 50, a fitting hole 51 is formed for fitting the valve rod 22 so that it can rotate around. A flange 53 having two engaging pins 52, 52 projecting upward at a 90 ° rotation angle is integrally formed on the outer periphery of the upper half portion of the drum 50. On the upper portion of the frame 46, a shaft support cylinder 55 for rotatably supporting the rotation shaft 54 of the flow rate adjusting lever 7 is formed integrally. The rotating shaft 54 of the flow rate adjusting lever 7 inserted into the shaft supporting cylinder 55
Is urged by a spring (not shown) in a direction in which the shaft support cylinder 55 is pulled inward. Rotary shaft 5 of flow adjustment lever 7
A large diameter portion 56 having a diameter larger than that of the rotary shaft 54 is integrally formed on the outer periphery of the drum 4.
Also, a tooth portion 57 constituting the transmission mechanism 8 is formed. The engaging pin 52 of the drum 50 is engaged with the tooth portion 57, and the rotation of the flow rate adjusting lever 7 is transmitted to the valve rod 22 of the cartridge 6 as the rotation of the drum 50.

On the outer periphery of the shaft support cylinder 55 of the frame 46, a protrusion 58 for slidably supporting a pushing amount adjusting projection 58 extending from the large diameter portion 56 of the flow rate adjusting lever 7 toward the shaft end. One-sided guide flange 59 is formed integrally. In addition, on the outer periphery of the shaft support cylinder 55, at the rotation position of the flow rate adjusting lever 7 in which the faucet 3 with the flow rate adjusting function is in the closed state, the projecting piece 58 for adjusting the pushing amount is located at the position facing the pushing amount adjusting projection 58. A notch 60 is provided to allow the one-side guide flange 59 to be interrupted and to allow the protrusion 58 to be pushed.
The notch 60 allows the flow rate adjusting lever 7 to be pushed by a predetermined amount toward the distal end of the rotating shaft 54, that is, the inner side of the wall at the plugging position. That is, the projecting piece guide flange 59 constitutes a pushing movement regulating member that regulates pushing of the flow regulating lever 7 when the flow regulating lever 7 is at a rotation position other than the closing position. The notch 60 or a spring (not shown) that pulls the rotary shaft 54 of the flow control lever 7 inward of the shaft support cylinder 55 and urges the same is used.
Is held in a pushing state, and a pushing holding mechanism 61 that regulates the turning operation to the opening side is configured.

FIG. 4 shows a state in which the flow rate adjusting lever 7 is pushed. In this state, the upper end of the swing lever 48 is pushed by the flow rate adjusting lever 7, and the lower end of the swing lever 48 is floated to the front side. In this state, when the water supply hose side joint 15 is connected to the faucet side joint 16 as described above, the lower end of the swing lever 7 is pushed by the cylinder cover 41 of the water supply hose side joint 15. The upper end of the swing lever 48 rises to the front side against the urging force of a spring (not shown) that draws the rotation shaft 54 of the flow rate adjustment lever 7 into the inner side of the shaft support cylinder 55, Flow adjustment lever 7
Is pushed out to the front. Thereby, the flow control lever 7
As shown in FIG. 3, the protrusion 58 for adjusting the pushing amount is released from the notch 60 of the shaft support cylinder 55. That is, it becomes possible to operate the faucet 3 by opening the flow control lever 7 to the opening side.

When the flow control lever 7 in the closed position as described above is turned, for example, in the counterclockwise opening direction, the movable disk 21 slides on the fixed disk 20 via the transmission mechanism 8 and the stopper rod 22. It rotates on the moving surface T. In this case, as the movable disk 21 rotates, the notch 34 provided on the back surface of the movable disk 21 and the valve hole 33 of the fixed disk 20
And the amount of water supplied to the water purifier 12 increases. On the other hand, when the flow control lever 7 is turned clockwise, the water supply flow rate decreases and the movable disk 21 is closed when the back surface of the movable disk 21 closes the valve hole 33 of the fixed disk 20.

As described above, since the faucet 3 with the flow rate adjusting function can be used independently, the problems of the conventional example shown in FIG. Since the branching mechanism needs to be provided, the usability is poor, and when the faucet 91 is a hot-water mixing faucet, if the switching state to the water supply is poor, the water may be supplied to the water purifier 94 in a state where the hot water is mixed. Problems can be solved at once.

Further, in a state where the water supply hose side joint 15 is connected to the faucet side joint 16, the flow rate adjusting lever 7 is turned to the closed position as shown in FIG. 2, and then as shown in FIG. When the flow adjustment lever 7 is pushed deep into the wall,
Since the lower end of the swing lever 48 rises to the front side,
At its lower end, the pipe cover 41 of the joint 15 on the water supply hose side.
Is pushed back in the direction away from the faucet 3 (F direction). Thereby, the gripping force of the small ball 43 of the joint 15 on the water supply hose side is released, the joint 15 on the water supply hose side is detached from the joint 16 on the faucet side, the connection is released, and the valve by the push rod 44 is released. The pressing of the body 38 is also released. That is, the connection of the water supply hose side joint 15 from the faucet side joint 16 can be easily performed by a one-touch operation of pushing the flow rate adjusting lever 7.

Further, the pushing operation of the flow control lever 7 is performed when the flow control lever 7 is at the open position as shown in FIG.
As shown in (1), it is regulated by the projecting piece guide flange 59 of the shaft support cylinder 55, which is a push-movement regulating member. There is no possibility that the connection will be released from the fitting 16 on the faucet side. For this reason, the connection 15 on the water supply hose side is disconnected from the connection 16 on the faucet side in the open state, and the water outlet 14 of the faucet 3 is shortly before the check valve is operated. It is possible to eliminate occurrence of a situation such as overflow of water.

When the flow control lever 7 is in the open position, the cylinder cover 41 of the joint 15 on the water supply hose side is closed with the faucet 3.
Even if the joint 15 is disconnected from the faucet-side joint 16 by directly pulling it back in the direction away from the direction (F direction) by hand, the check valve of the faucet-side joint 16 works to close the water outlet 14. Therefore, a large amount of water is not discharged from the water outlet 14.

In the above-described embodiment, the case where the faucet 3 with the flow rate adjusting function is a single faucet has been described. However, the present invention can be similarly applied to the case of a hot and cold mixed faucet.

[0025]

As described above, according to the present invention, since the faucet with the flow rate adjusting function can be used alone, the conventional problem, that is, it is necessary to provide a branching mechanism from the faucet itself. , A long water supply hose is required, which obstructs the cleaning of the sink, makes it impossible to use the water faucet for maintenance, etc. it can.

Further, since the faucet with the flow rate adjusting function is provided with the disconnection mechanism, the disconnection of the water supply hose side joint from the faucet side joint can be easily performed by one-touch operation of pushing the flow rate adjusting lever. .

Further, since the water tap having the flow rate adjusting function is provided with the push-movement restricting member, the connection releasing mechanism is operated under the opened state, and the water supply hose side joint is disconnected from the water tap side joint. There is no danger.

[Brief description of the drawings]

FIG. 1 is an explanatory diagram of an overall configuration showing a water supply mechanism according to an embodiment of the present invention.

FIG. 2A is a front view showing an opened state of a faucet in the water supply mechanism, and FIG. 2B is a side sectional view of the same.

FIG. 3 (A) is a front view showing a closed state of the faucet,
(B) is the same side sectional view.

FIG. 4 is an explanatory diagram showing a state where the faucet is disconnected from a joint.

FIG. 5 is a sectional view showing a main part of the faucet.

FIG. 6 is an exploded perspective view of a valve section of the faucet.

FIG. 7 is an exploded perspective view of a main part of the faucet.

FIG. 8 is a perspective view of a main part showing a conventional example.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Hot water mixing tap, 2 ... Sink wall, 3 ... Faucet with flow control function, 7 ... Flow control lever (flow control operating member), 9
... Disconnection mechanism, 10 ... Water inlet, 11 ... Branch water supply pipe, 12 ... Water purifier, 13 ... Water supply hose, 14 ... Water outlet, 15 ... Water supply side joint, 16 ... Faucet side joint, 38 ... Valve body, 41 ... Cylinder cover, 48 ... Swing lever, 59 ... Flange for protruding piece guide (pressing restricting member), 61 ... Pressing holding mechanism, A ... Sink.

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) E03C 1/02

Claims (6)

(57) [Claims] 1. A wall on which a water supply pipe of a faucet is attached,
A water faucet with a flow control function different from the water faucet is provided, and a branch water supply pipe branched from the water supply pipe is connected to a water flow inlet of the water faucet with the flow control function, and a water flow of the water faucet with the flow control function is provided. At the exit, a water purifier, dishwasher, water heater,
A faucet-side joint to which a joint of a water supply hose of a washing machine or the like is detachably connected is provided. Further, the faucet with a flow rate adjusting function has its flow rate adjusting operation member pushed in the axial direction at a closed position. The water supply mechanism is provided with a disconnection mechanism for disconnecting the joint on the water supply hose side from the faucet side joint. 2. The faucet with a flow rate adjusting function is provided with a push holding mechanism that holds the flow rate adjusting operation member in a pushing state and regulates the operation to the opening side, and the disconnection mechanism includes: 2. A push / hold release function for releasing the push / hold of the flow rate adjusting operation member by the push / hold mechanism when the water supply hose joint is connected to the faucet side joint. The water supply mechanism according to 1. 3. The faucet with a flow rate adjusting function is provided with a push regulating member that regulates pushing of the flow rate adjusting operating member when the flow rate adjusting operating member is at a position other than the plugging position. Or the water supply mechanism according to 2. 4. The connection release mechanism comprises a swing lever having one end engaged with the flow rate adjusting operation member and the other end engaged with a joint of the water supply hose connected to the faucet side joint. Item 4. A water supply mechanism according to any one of Items 1 to 3. 5. The water supply hose according to claim 1, wherein said water supply hose has a tubular cover which can be moved forward and backward, and can be disconnected from said faucet side joint by retracting said tubular cover. The water supply mechanism according to any one of the above. 6. The faucet side joint is provided with a check valve, and the water supply hose joint has a function of opening the check valve upon connection to the faucet side joint. Item 6. A water supply mechanism according to any one of Items 1 to 5.