JP4689520B2 - Cylinder type valve device - Google Patents

Description

  The present invention relates to a cylinder type valve device, and more particularly to a valve device suitable for application to a switching valve device in a water purifier.

Tap water contains components that cause turbidity such as fine sand and red rust, and components that cause odors such as odors of wood and odor caused by chlorine for sterilization.
Therefore, conventionally, tap water (raw water) is introduced into the inside, passed through a purification cartridge, and purified water, and then has a function of discharging water from the purified water spout as a single unit separate from the faucet. Then, this is attached later to the faucet of the faucet, that is, the tip of the water discharge pipe.
However, in the case of this single and retrofitted water purifier, there is a problem that if this is attached to the tip of the water discharge pipe of the faucet, the tip of the water discharge pipe will be unnaturally enlarged and the beauty will be impaired. .

On the other hand, as shown in FIG. 15, a water purifier 202 configured independently of the faucet 200 is installed inside a cabinet such as a kitchen, and tap water from the faucet 200 is guided to the water purifier 202 here. It is also practiced to purify the water and return it to the faucet 200 to discharge water from the tip (faucet) of the water discharge pipe 204.
This type of water purifier 202 is called a built-in type, but when this water purifier 202 is used, the shape of the tip of the faucet 200, in particular, the water discharge pipe 204 is not different from that of a normal faucet. It is possible to maintain good aesthetics for the portion appearing in.

On the other hand, in the case of this type of water purifier 202, if it is installed in the cabinet, the inside of the cabinet becomes complicated, and the storage space inside the cabinet is narrowed by the installation of the water purifier 202.
In recent years, there is a tendency to use the storage space in the cabinet as widely as possible, and there are cases where it is difficult to install this kind of built-in type water purifier 202 in such a situation.

On the other hand, a water faucet (water faucet with a water purifier) dedicated to water purification is installed on a counter of a kitchen or the like together with a normal water faucet.
However, in this case, there are two faucets, that is, a normal faucet and a faucet dedicated to water purification, and there is a problem that the space on the counter is widely occupied by the faucets and the cost is increased.

Under such circumstances, it has also been proposed to incorporate a water purifying function of this type, that is, a mechanism for purifying raw water composed of tap water in a faucet (Patent Document 1 below).
The faucet with a water purifying function disclosed in Patent Document 1 (a faucet with a built-in water purifier) has a purifying cartridge 206 disposed inside a water discharge head 205 that can be pulled out together with a flexible hose as shown in FIG. A raw water straight water outlet 212 for straight discharge of raw water consisting of tap water as a rectifying bundle, a raw water shower outlet 214 for discharging raw water as a rectifying bundle, and a water purification straight for straight water discharging using purified water as a rectifying bundle A water discharge port 216, a switching valve device (cylinder valve device) 218 switches between raw water and purified water, and further, raw water straight water discharge from the raw water straight water discharge port 212, and raw water shower water discharge from the raw water shower water discharge port 214. To switch to.
In FIG. 16, 208 represents a raw water passage, and 210 represents a water purification passage.

17 and 18 show a switching valve device 218 comprising this cylinder type valve device.
In these drawings, 220 indicates a valve body, and 221 indicates a valve casing. Here, the valve body 220 is rotatably fitted in the valve casing 221.
The valve body 220 has a cylindrical portion 222 in which a main passage (internal passage) 224 is formed.
In addition, a large circular opening 228 and a crescent-shaped opening 226 are provided at each end of the cylindrical portion 222.

The raw water from the raw water passage 208 in the valve casing 221 in FIG. 17A flows into the main passage 224 through these openings 228 and 226.
The cylindrical portion 222 is also provided with an opening 230 through which the raw water flows out from the main passage 224 through the peripheral wall portion.

On the other hand, the valve casing 221 is provided with a first raw water outflow portion 232 having an opening and a second raw water outflow portion 234 having an opening.
In the switching valve device 218, when the opening 230 of the valve body 220 is aligned with the first raw water outflow portion 232 of the valve casing 221, the raw water from the raw water passage 208 flows from the raw water inflow portion 244 to the main passage 224 of the valve body 220. , Further flows out to the first raw water outflow portion 232, reaches the raw water straight water discharge port 212, and is discharged from there to the raw water straight (see FIG. 19A).
On the other hand, when the opening 230 is positioned at the second raw water outflow portion 234 of the valve casing 221 by the rotation of the valve body 220, the raw water flows out into the second raw water outflow portion 234 and reaches the raw water shower outlet 214. From there, the raw water shower is discharged outside (see FIG. 19B).

The cylindrical portion 222 of the valve body 220 is also provided with openings 236 and 238 at positions spaced apart by 180 ° in the circumferential direction, and inside the cylindrical portion 222, the openings 236 cross the main passage 224. , 238 are provided independently of the main passage 224.
This sub-passage 246 is intended as a water purification passage, and by rotation of the valve body 220, the opening 236 communicates with the water purification passage 210 of the valve casing 221 in FIG. Similarly, the purified water from the purified water passage 210 flows into the purified water outlet 242 of the valve casing 221 through the auxiliary passage 246 under the condition that the opening 238 coincides with the purified water outlet 242 comprising the opening of the valve casing 221. 16 water purification straight spout 216 is reached and water is spouted to the outside (see FIG. 19C).

  The switching valve device 218 comprising the cylinder type valve device simply switches the raw water straight water discharge from the raw water straight water discharge port 212, the raw water shower water discharge from the raw water shower water discharge port 214, and the purified water straight water discharge from the water purification straight water discharge port 216. The valve casing 221 has three outflow parts (first raw water outflow part 232, second raw water outflow part 234, purified water outflow part, although it can be performed by one switching valve device 218 and is compact as a valve device as such. 242) is required, and the valve body 220 requires a main passage 224 and a separate sub-passage 246, which is still complicated in structure, and there is room for improvement in the compactness of the valve device. There was something.

  As a result, when this is applied as a valve device for switching between raw water and purified water in a faucet as described above, it is difficult to sufficiently downsize the valve device built-in portion in the faucet.

JP 2001-17342 A

  The present invention has been made for the purpose of providing a cylinder type valve device that has a simpler structure and is more compact than the conventional one against the background described above.

  Thus, according to the first aspect of the present invention, there is provided a cylinder type having a valve casing and a valve body rotatably fitted to the valve casing, and switching a flow path based on the rotation of the valve body. In the valve device, the valve body includes a first opening and a second opening that are opened at different positions in the circumferential direction on the outer peripheral surface, and a bend that connects the first opening and the second opening inside the valve body. And the first opening is located at the first inflow portion and the second opening is located at the first outflow portion at a predetermined rotational angle position of the valve body, and the first inflow portion is Water is allowed to flow out to the first outflow portion through the internal passage, and the second opening is positioned at the second inflow portion and the first opening is positioned at the first outflow portion at another rotational angle position, Water from the second inflow portion is allowed to flow out to the first outflow portion through the internal passage. And wherein the door.

  According to a second aspect of the present invention, in the first aspect, the first opening is positioned at the first inflow portion at a rotation angle position different from the rotation angle position of the valve body, and the second opening is It is located in the 2nd outflow part, The water from this 1st inflow part is made to flow out to this 2nd outflow part through the said internal channel, It is characterized by the above-mentioned.

  According to a third aspect of the present invention, in the second aspect, the first inflow portion is provided over a large angular range in the circumferential direction with respect to the first opening.

  According to a fourth aspect of the present invention, in any one of the second and third aspects, the first inflow portion is an inflow portion of raw water made of tap water, the second inflow portion is an inflow portion of purified water, and the first outflow portion The part is an outflow part to a straight water outlet common to raw water and purified water, and the second outflow part is an outflow part to a shower water outlet of raw water.

Effects and effects of the invention

As described above, according to the present invention, the first opening and the second opening are provided on the outer peripheral surface of the valve body and at different positions in the circumferential direction, and the first opening and the second opening are bent inside the valve body. One internal passage is provided, the first opening is located at the first inflow portion and the second opening is located at the first outflow portion at a predetermined rotational angle position of the valve body, and water from the first inflow portion is passed through the internal passage. The first opening is positioned at the second inflow portion and the first opening is positioned at the first outflow portion at another rotational angle position, and the water from the second inflow portion is first passed through the internal passage. It was made to flow out to the outflow part.
In the cylinder type valve device of the present invention, water from the first inflow portion and water from the second inflow portion can be caused to flow out to the same first outflow portion by rotation of the valve body.
As a result, the two separate outflow portions that were conventionally required can be reduced to one outflow portion.

Here, when the water from the first inflow portion flows out to the first outflow portion, the first opening of the valve body becomes the inlet side of the water from the first inflow portion, and the second opening becomes the outlet side.
On the other hand, when the water from the second inflow portion flows out to the first outflow portion, the second opening of the valve body becomes the inlet side of the water from the second inflow portion, and the first opening becomes the outlet side.
That is, in the cylinder type valve device of the present invention, when water from the first inflow portion flows out to the first outflow portion and when water from the second inflow portion flows out to the first outflow portion, The direction of the flow path in the bent internal passage inside the valve body is reversed.
This makes it possible to reduce the number of outflow portions that were conventionally required to one.

  In the cylinder type valve device of the present invention, it is possible to reduce the internal passage of the valve body, which is required in the cylinder type valve device shown in FIGS. 16 to 19, to one passage. Combined with the fact that one can be reduced, the structure of the cylinder type valve device can be simplified and made more compact than before.

In the present invention, the first opening is positioned at the second inflow portion while the first opening is positioned at the first inflow portion at a rotation angle position different from the rotation angle position of the valve body, and the first inflow portion is provided. The water from the water can be allowed to flow out to the second outflow portion through the internal passage (claim 2).
If it does in this way, the water from the 1st inflow part can be distributed to the 1st outflow part and the 2nd outflow part through the same internal passage in a valve element, and the flow of water from the 1st inflow part is switched. Can do.

In this case, the first inflow portion can be provided over a large angular range in the circumferential direction with respect to the first opening.
By doing so, the first opening is positioned at the first inflow portion, and the state where the second opening is positioned at the first outflow portion by the rotation of the valve body is easily changed to the state positioned at the second outflow portion. Can be changed.

The cylinder type valve device of the present invention is suitable for application to a switching valve device for switching between raw water and purified water. In this case, the first inflow portion is used as an inflow portion of raw water made of tap water, and the second inflow portion is used. And the first outflow part as the outflow part to the straight straight outlet of the raw water and the purified water, and the second outflow part as the outflow part to the shower outlet of the raw water. (Claim 4).
According to the fourth aspect, the switching valve device of the water purifier or the switching valve device built in the faucet can be effectively made compact, and further, the water purifier and the faucet can be further reduced compared to the conventional one. And the aesthetics thereof can be further improved.

Next, an embodiment when the present invention is applied to a switching valve device of a water purifier built in a kitchen faucet will be described in detail based on the drawings.
In FIG. 1, 1 is a cabinet installed in the kitchen, 2 is a sink, 3 is a counter, and a single lever type mixing faucet (hereinafter simply referred to as a faucet) 10 is installed on the counter 3 in an upright state. ing.
In the figure, 4 is a supply pipe for supplying water and hot water to the faucet 10, the lower end is connected to the original pipe via the stop cock 5, and the upper end is the faucet in the faucet 10. Each is connected to the main body 12.
A connecting pipe 6 extends downward from the faucet body 12, and an end of a flexible hose 22 is connected to the connecting pipe 6.

The faucet 10 includes a single lever type handle 14 at the top of the faucet body 12, and a water discharge pipe 16 extends from the faucet body 12 toward the upper side of the sink 2.
As shown in FIG. 3, a main valve 7 for adjusting the amount and temperature of water discharged and discharged water is incorporated in the faucet body 12, and the handle 14 operates on the main valve 7. Connected.
In this faucet 10, the temperature of water discharge is adjusted by rotating the handle 14 left and right, and the amount of water discharged and water discharged is adjusted by rotating the handle 14 up and down.

The water discharge pipe 16 has a water discharge pipe base 18 fixed to the faucet body 12 and a water discharge head 20 to which an end of the hose 22 is connected and fixed and can be pulled out together with the hose 22.
A lever-type and rotary-type switching operation unit 24 (see FIG. 2) for switching between raw water straight water discharge, raw water shower water discharge, and purified water straight water discharge, which will be described in detail later, protrudes to the tip of the water discharge head 20. It is provided in the state.

As shown also in FIG. 4, the water discharge head 20 has a water discharge head main body (grip portion) 26 and a head portion 28 on the tip side thereof.
Here, the head 28 is separated from the water discharge head main body 26 and is detachable from the water discharge head main body 26.
In the present embodiment, the later-described purification cartridge 42 housed in the head 28 can be replaced by detaching the head 28.

Here, the head portion 28 also functions as a cartridge presser that presses the purification cartridge 42 in the axial direction, more specifically in the leftward direction in FIG. 4, while being attached to the water discharge head main body 26.
The water discharge head main body 26 is connected and fixed to the base end portion of the hose 22 in a watertight manner under a seal by the seal member 30.

Here, the hose 22 is slidably inserted in the axial direction through a hose insertion hole 32 at the center of a cylindrical hose guide 31 attached and fixed to the distal end of the water discharge pipe base 18.
The hose guide 31 also has a function of holding the water discharge head 20 by inserting it here.

The water discharge head main body 26 has a double cylinder structure of a cylindrical decorative cover (outer cylinder) 38 and an inner cylinder 40, and the raw water (tap water) passes through the inside in a radial direction. A purification cartridge 42 to be purified is accommodated.
The purification cartridge 42 is a member having a cylindrical shape as a whole, and has a cylindrical porous ceramic filter 44 in the center, and a diatomaceous earth 46 layer is further provided on the outer surface of the purification filter 42 as a support. A layer of activated carbon 48 is laminated and a non-woven fabric 50 is wound around the outer peripheral surface thereof.

The hose 22 is provided with an emergency shut-off valve 51 that urgently shuts off the water channel when the purification cartridge 42 is detached. The hose 22 is connected to the water discharge head by the fixing ring 57 via the emergency shut-off valve 51. It is connected and fixed to the main body 26.
Specifically, one end portion (left end portion in the drawing) of the valve casing of the emergency shut-off valve 51 is fixed to the hose 22, and the other end portion is fixed to the inner cylinder 40 of the water discharge head body 26 by the fixing ring 57. ing.
Here, the fixing ring 57 is screwed to the inner cylinder 40 of the water discharge head 20. That is, by screwing the fixing ring 57 into the inner cylinder 40, the valve casing of the emergency shut-off valve 51 is connected and fixed to the inner cylinder 40 of the water discharge head 20.

As shown in FIG. 5, a common straight water discharge port 62 that discharges straight water using raw water and purified water as a rectifying bundle is provided at the center of the lower surface of the head 28, and the raw water is placed at a position surrounding it. A raw water shower spout 64 for discharging the shower is provided.
The straight water outlet 62 and the raw water shower water outlet 64 communicate with each other, and a straight passage 68 and a raw water shower passage 70 are formed inside the head 28.

On the downstream side of the purification cartridge 42 and inside the head 28, a switching valve device 74 comprising a cylinder type valve device for switching between raw water straight water discharge, purified water straight water discharge, and raw water shower water discharge is disposed. .
The specific configuration of the switching valve device 74 is shown in detail in FIGS. 5 and 6 to 10.

As shown in FIGS. 5 to 7, the switching valve device 74 includes a valve casing 78 and a valve body 76 that is rotatably fitted to the valve casing 78.
As shown in FIG. 6, the valve casing 78 is integrally formed with an outer cylinder connecting portion 80 and an inner cylinder connecting portion 82, and the outer cylinder connecting portion 80 is located inside the end of the water discharge head body 26. Are connected in a watertight manner through an O-ring.
On the other hand, the inner cylinder connecting portion 82 is watertightly connected to the outside of the cylindrical fitting projection 122 formed at the axial end of the purification cartridge 42 via an O-ring.

In this state, a purified water passage 60B following the purified water passage 60A at the center of the purification cartridge 42 is formed inside the inner cylinder connection portion 82, and an outer peripheral side of the purification cartridge 42 is formed inside the outer cylinder connection portion 80. A raw water passage 58B is formed following the raw water passage 58A.
A ring-shaped strainer 100 is installed at the end of the raw water passage 58B to prevent foreign substances such as dust from entering the raw water passage 58B.

As shown in FIGS. 9 and 10, the valve body 76 has a large-diameter main body portion 84 and a shaft portion 86 that form a substantially circular shape.
The shaft portion 86 further includes a circular portion 88 and a square portion 90 on the proximal end side. As shown in FIGS. 6 and 7, the spacer ring 94 and the switching operation portion 24 of the square portion 90 are provided. The base 92 and the base 92 are externally fitted in an integrally rotated state, and they are fixed in an axially secured state by fastening screws 96.

On the other hand, the circular portion 88 of the shaft portion 86 is fitted in a watertight manner through an O-ring 114 inside a cylindrical portion 129 formed in the valve casing 78.
Reference numeral 98 denotes a cap for concealing the fastening screw 96.
Reference numeral 102 denotes a corresponding circular closing member that closes the circular opening at the lower end of the valve casing 78 in the figure, and is fitted and fixed in a watertight manner via an O-ring 104.

As shown in FIGS. 9 and 10, the main body 84 of the valve body 76 has an opening (first opening) 106 that opens on the outer peripheral surface and at a different position in the circumferential direction, and an opening (second opening). 108) and a single internal passage 110 bent in a dogleg shape for connecting them inside the valve body 76.
Here, the openings 106 and 108 are provided at positions separated by 90 ° in the circumferential direction.

The main body 84 has a substantially circular outer peripheral surface, and a part thereof is cut out over a predetermined peripheral length. In FIG. 9, reference numeral 112 denotes the notch.
Both ends in the circumferential direction of the notch 112 are contact surfaces 112A and 112B that contact a stopper protrusion 132 (see FIG. 11) described later.
The main body portion 84 is provided with a window 116 penetrating in the axial direction.
The main body 84 is also provided with a window 118 that penetrates the main body 84 in the radial direction, and the inner space on the flange 123 side of the main body 84 is communicated with the outer space of the main body 84 through the windows 116 and 118. ing.
As shown in FIG. 9B, the main body portion 84 is provided with reinforcing ribs 120 radially.

On the other hand, as shown in FIG. 8, the valve casing 78 includes a straight outflow portion (first outflow portion) 124, which includes a circular opening that penetrates, and communicates with the straight water outlet 62 common to the raw water and the purified water, and a raw water shower. Shower outflow portions (second outflow portions) 126 each having a circular opening and communicating with the water discharge port 64 are provided side by side in the circumferential direction.
Further, along the shower outflow portion 126, a purified water inflow portion (second inflow portion) 128 including an opening through which purified water from the purified water passage 60B flows into the valve casing 78 is arranged at the upper position in FIG. 8C. The water purification passage 60B is provided in communication.

Reference numeral 130 denotes a sheet-like sealing member made of an elastic material that seals around the openings (the straight outflow portion 124, the shower outflow portion 126, and the purified water inflow portion 128) between the valve casing 78 and the valve body 76.
The seal member 130 has circular through holes at positions corresponding to the openings of the straight outflow portion 124, the shower outflow portion 126, and the purified water inflow portion 128.

As shown in FIG. 6, a gap is formed between the valve casing 78 and the valve body 76 in a substantially semi-annular shape, and this gap is a raw water flow chamber (first chamber) communicating with the raw water passage 58 </ b> B. Inflow portion) 131.
Here, the water flow chamber 131 is formed over an angular range of about 180 ° as shown in FIG.

The raw water flowing through the raw water passage 58 </ b> A around the purification cartridge 42 in FIG. 6 flows into the water flow chamber 131 through the raw water passage 58 </ b> B in the valve casing 78.
In the water flow chamber 131, the outer peripheral surface of the valve body 76 (specifically, the main body portion 84) is directly exposed to the water flow chamber 131 without using a seal member, and between the valve casing 78 and the valve body 76. Is not sealed with a seal member.
Here, the water flow chamber 131 is sealed watertight to the outside by an O-ring 114 attached to the circular portion 88 of the valve body 76 and an O-ring 104 attached to the closing member 102.

FIG. 11 shows the operation of the switching valve device 74 comprising this cylinder type valve device.
FIG. 5A shows a state in which the opening 106 in the valve body 76 is located in the water flow chamber 131 and the opening 108 is located in the straight outflow portion 124.
In this state, the water flow chamber 131 and the straight outflow portion 124 are in communication with each other via the internal passage 110 of the valve body 76, and raw water from the water flow chamber 131 flows out to the straight outflow portion 124 through the internal passage 110.

(B) represents the state which rotated the valve body 76 only angle (theta) ₁ from the state shown to (A).
At this time, the opening 106 is still located in the water flow chamber 131, and the water flow chamber 131 is in communication with the shower outflow portion 126 via the internal passage 110 with the opening 108 positioned in the shower outflow portion 126. It will be in the state.
In this state, the raw water from the water flow chamber 131 flows out to the shower outflow portion 126 through the internal passage 110.

When the valve body 76 is further rotated by an angle θ ₂ (θ ₂ = 90 °) from the initial position (position shown in (A)) from the state shown in (B), at this time, the opening 108 enters the purified water inflow portion 128. And the opening 106 is positioned at the straight outflow portion 124.
Accordingly, in this state, the purified water inflow portion 128 and the straight outflow portion 124 communicate with each other via the internal passage 110, and the purified water from the purified water inflow portion 128 flows out to the straight outflow portion 124 through the internal passage 110.

As is clear from the above description, in this embodiment, in the state shown in FIG. 11A, the opening 106 in the valve body 76 is the inlet side of the raw water from the water flow chamber 131 and the opening 108 is the outlet side of the raw water. .
On the other hand, in the state shown in FIG. 11 (C), the opening 108 becomes the purified water inlet side from the purified water inflow portion 128 and the opening 106 becomes the purified water outlet side.
That is, the direction of the flow path of the internal passage 110 of the valve body 76 is reversed between the state shown in FIG. 11A and the state shown in FIG.

As shown in FIG. 11 and FIGS. 8A and 8B, a stopper projection 132 that protrudes toward the water flow chamber 131 is integrally provided on the inner surface of the valve casing 78.
The rotation angle of the valve body 76 is regulated by the contact of the contact surfaces 112A and 112B with the stopper protrusion 132.
Specifically, the rotational angle position of the valve body 76 is positioned by the contact between the stopper protrusion 132 and the contact surfaces 112A and 112B.

12 and 13 show the operation of switching the raw water straight water discharge, purified water straight water discharge, and raw water shower water discharge by the switching valve device 74. FIG.
FIGS. 12 (A) and 13 (A) show a state in which the switching valve device 74 is switched to the raw water straight water discharge. At this time, the valve body 76 includes the raw water flow chamber 131 and the straight outflow portion 124 inside. The raw water that is in communication with the passage 110 and thus flows into the water passage chamber 131 flows out to the straight outflow portion 124 through the internal passage 110 of the valve body 76, and further reaches the straight water outlet 62. From there, the raw water is discharged straight.
At this time, the purified water inflow portion 128 is in a state of being blocked by the valve body 76, and naturally the discharged water is not discharged.

On the other hand, when the switching operation unit 24 is rotated downward to the intermediate position from the state shown in (A) (state shown in FIG. 13B), the raw water passage chamber 131 and the shower outflow portion 126 are connected to the internal passage at this time. 110, the raw water from the water flow chamber 131 flows into the shower outflow portion 126 and reaches the raw water shower spout 64, from which the raw water shower is discharged (see FIG. 12B). .
Even under the state shown in FIG. 12B, the purified water inflow portion 128 is in a blocked state, and naturally the purified water is not discharged.

Further, when the switching operation unit 24 is further rotated downward from the state shown in (B) to the lowermost position (state shown in FIG. 13C), at this time, the purified water inflow portion 128 and the straight outflow portion 124 Are connected through the internal passage 110, and the purified water from the purified water passage 60B flows out through the purified water inflow portion 128 to the straight outflow portion 124 through the internal passage 110, and is then discharged from the straight water outlet 62 into the purified water straight water. .
In the state shown in FIG. 12C, the raw water passage chamber 131 is blocked by the valve body 76, so that the raw water is naturally not discharged and only the purified water is discharged.

According to the present embodiment as described above, the raw water from the water flow chamber 131 and the purified water from the purified water inflow portion 128 can flow out to the same straight outflow portion 124 by the rotation of the valve body 76.
And thereby, the outflow part which was conventionally required two separately can be reduced to one outflow part.
Further, since only one internal passage is required for the valve body 76, the structure of the cylinder type valve device can be made simpler and more compact than before, and thus the faucet can be made more compact than before. It is possible to make the aesthetic appearance good.

  In this embodiment, since the water flow chamber 131 is provided over a large angular range in the circumferential direction (an angle range of slightly over 180 °), the valve body 76 rotates while the opening 106 is positioned in the water flow chamber 131. Thus, the opening 108 can be easily changed from the state where the opening 108 is located at the straight outflow portion 124 to the state where it is located at the shower outflow portion 126.

FIG. 14 shows another embodiment of the present invention.
In this example, a fitting projection 134 is provided on the inner surface of the valve casing 78, and the tip end portion of the fitting projection 134 is brought into sliding contact with the outer peripheral surface of the valve body 76.
By providing the fitting protrusion 134 on the valve casing 78, the valve body 76 can be smoothly rotated in a stable posture.

  Although the embodiments of the present invention have been described in detail above, these are merely examples, and the present invention can be configured in various modifications without departing from the spirit of the present invention.

It is a general view at the time of applying this invention to the switching valve apparatus of the water purifier incorporated in the kitchen faucet. It is a figure which expands and shows the switching operation part provided in the head of the water discharge pipe of FIG. It is sectional drawing which shows the internal structure of the mixing faucet of FIG. It is sectional drawing which shows the internal structure of the water discharging pipe of FIG. It is a principal part enlarged view of the head of FIG. Similarly, it is a principal part enlarged view of the head of FIG. It is sectional drawing which decomposes | disassembles and shows the head of FIG. It is a perspective view which shows the valve casing in the same embodiment. It is a perspective view which shows the valve body in the embodiment. It is (A) front view of the valve body shown in FIG. 9, (B) side view, (C) sectional drawing, and (D) back view. It is a figure which shows the effect | action of the switching valve apparatus of the embodiment. It is a figure which shows the effect | action at the time of switching of the raw water straight water discharge in FIG. 11, purified water straight water discharge, and raw water shower water discharge. It is a figure which shows the state of the switching operation part at the time of each effect | action of FIG. It is a figure which shows other embodiment of this invention. It is a figure shown in the state which installed the conventional built-in type water purifier in the cabinet. It is a figure which shows the principal part of the water tap with the conventional water purification function. It is a perspective view which decomposes | disassembles and shows the switching valve apparatus of FIG. It is a figure which shows the switching function by the switching valve apparatus of FIG. It is a figure which shows the water discharging state of the faucet with a water purifying function of FIGS.

Explanation of symbols

62 Straight water outlet 64 Raw water shower water outlet 74 Switching valve device (cylinder type valve device)
76 Valve body 78 Valve casing 106 Opening (first opening)
108 opening (second opening)
110 Internal passage 124 Straight outflow part (first outflow part)
126 Shower outflow part (second outflow part)
128 Purified water inlet (second inlet)
131 Water flow chamber (first inlet)

Claims (4)

In a cylinder type valve device having a valve casing and a valve body rotatably fitted to the valve casing, and switching a flow path based on the rotation of the valve body,
The valve body includes a first opening and a second opening that are opened at different positions in the circumferential direction on the outer peripheral surface, and one bent interior that connects the first opening and the second opening inside the valve body. A passage,
The first opening is positioned at the first inflow portion and the second opening is positioned at the first outflow portion at a predetermined rotational angle position of the valve body, and the water from the first inflow portion passes through the internal passage to the first 1 let it flow out to the outflow part
At another rotational angle position, the second opening is positioned at the second inflow portion, the first opening is positioned at the first outflow portion, and water from the second inflow portion is passed through the internal passage to the first outflow portion. Cylinder type valve device characterized in that it is made to flow out to the part.   2. The valve according to claim 1, wherein the second opening is positioned at the second outflow portion while the first opening is positioned at the first inflow portion at a rotation angle position different from the rotation angle position of the valve body. The cylinder type valve device is characterized in that water from the first inflow portion flows out to the second outflow portion through the internal passage.   3. The cylinder type valve device according to claim 2, wherein the first inflow portion is provided over a large angular range in the circumferential direction with respect to the first opening.   4. The method according to claim 2, wherein the first inflow part is an inflow part of raw water made of tap water, the second inflow part is an inflow part of purified water, and the first outflow part is common to the raw water and purified water. A cylinder type valve device, wherein the second outflow part is an outflow part to a raw water shower spout.

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