JP3747165B2 - Cylinder type valve device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a cylinder type valve device, and more particularly to a valve device suitable for application to a switching valve in a water purifier.
[0002]
BACKGROUND OF THE INVENTION
  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. .
[0003]
  On the other hand, as shown in FIG. 14, 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.
[0004]
  Although this type of water purifier 202 is called a built-in type, 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 changed at all from that of a normal faucet. It is possible to maintain good aesthetics for the portion appearing in.
[0005]
  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.
[0006]
  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.
[0007]
  Under such circumstances, it has also been proposed to incorporate a mechanism for purifying raw water composed of this type of water purification function, that is, tap water (Japanese Patent Laid-Open No. 2001-17342).
  This water faucet with a water purifying function (a water faucet with a built-in water purifier) accommodates a purification cartridge 208 inside a water discharge head 206 that can be pulled out together with a flexible hose as shown in FIGS. In addition, a switching valve device 210 that switches between purified water and raw water (tap water) and a switching operation unit (push button type operation unit) 212 are provided in the downstream portion, and further, straight water discharge and shower water discharge are switched in the downstream portion. A switching valve device 214 and a switching operation unit (lever type operation unit) 216 are provided.
[0008]
  In the faucet with the water purification function, as shown in FIG. 17, first, the push button type switching operation unit 212 is operated to switch the water discharge from the raw water discharge to the purified water discharge or vice versa by the switching valve device 210. Further, the lever-type switching operation unit 216 is operated to switch the water discharge from the straight water discharge to the shower water discharge or vice versa by the switching valve device 214 located in the downstream portion thereof.
[0009]
  However, in this faucet with water purification function, as shown in FIG. 18, since the outlets of the raw water and the purified water are the same, it is difficult for the user to understand whether the raw water or the purified water is present. In addition, the switching valve device 210 that switches between raw water and purified water and the switching valve device 214 that switches between straight water discharge and shower water discharge are configured as separate valve devices, and each switching Since the operation units 212 and 216 are separate operation units, the internal structure of the tip of the water discharge head 206 is complicated, and the operation has to be performed twice.
[0010]
  Therefore, the inventors provide a raw water straight water outlet, a raw water shower water outlet and a purified water straight water outlet separately, and a switching valve device capable of switching the water discharged from each water outlet with a single valve device. Devised.
  19 to 23 show specific examples.
[0011]
  In the figure, reference numeral 218 denotes a cylinder type switching valve device, which is provided inside the water discharge head 206 on the downstream side of the purification cartridge 208.
  The cylinder-type switching valve device 218 includes a valve body 220 having a stepped shape and a cylindrical shape as a whole, and a valve casing 222 that is water-tightly fitted to the valve body 220.
[0012]
  The valve body 220 has a shaft portion 224 protruding in the axial direction, and a base portion 228 and a spacer ring 230 of a lever-type and rotary switching operation portion 226 are coupled to the shaft portion 224 in an integrally rotated state.
[0013]
  A large-diameter portion and a small-diameter portion are formed in the valve body 220 at different positions in the axial direction. The large-diameter portion forms the raw water valve portion 232 and the small-diameter portion forms the water purification valve portion 234, respectively. .
  The internal space of the raw water valve portion 232 and the internal space of the water purification valve portion 234 are respectively formed as a raw water chamber 236 and a water purification chamber 238 forming a passage for raw water and purified water, and these are partitioned in a watertight manner in the axial direction by a partition member 240. ing.
[0014]
  In addition, the open part at the end on the raw water valve part 232 side is closed by a closing member 242.
  A partition presser 244 having a triangular cross section is formed on the closing member 242, and the partition member 240 is pressed in the axial direction by the partition presser 244.
[0015]
  19 and 20, the valve casing 222 has a water passage opening (inlet) through which raw water from the raw water passage 246 flows into the raw water chamber 236 inside the raw water valve portion 232. 248 and a water passage opening (inlet) 252 for allowing the purified water from the purified water passage 250 to flow into the purified water chamber 238 inside the purified water valve portion 234 are formed.
[0016]
  Further, the valve casing 222 includes a raw water straight water discharge opening (outlet) 256 for communicating the raw water chamber 236 inside the raw water valve portion 232 in the valve body 220 with the raw water straight water discharge port 254 shown in FIG. A raw water shower outlet (outlet) 260 for communicating with the water port 258 is provided in a state of penetrating in the radial direction.
  On the other hand, on the water purification valve portion 234 side, a water purification opening (outlet) 264 for communicating the water purification chamber 238 with the water purification straight water outlet 262 is provided in a state penetrating in the radial direction.
[0017]
  The raw water valve portion 232 in the valve body 220 switches between raw water straight water discharge and raw water shower water discharge, and flows the raw water from the opening 248 in the valve casing 222 into the raw water chamber 236 as shown in FIG. The raw water straight water outlet 254 or the raw water shower water outlet 258 passes through the raw water straight water outlet opening 256 or the raw water shower water outlet opening 260 in the valve casing 222. A water passage opening (outlet) 268 for communicating with the water is provided in a state of penetrating in the radial direction.
  Here, the opening 266 has a long hole shape that is long in the rotation direction.
[0018]
  On the other hand, the water purification valve section 234 opens and closes the flow path of the purified water with the rotation of the valve body 220 to switch the water discharge from the raw water discharge to the purified water discharge. The purified water from the opening 252 in the valve casing 222 A water flow opening (inlet) 270 for flowing into the water and a water flow opening (outlet) for allowing the water purification chamber 238 to communicate with the water purification straight outlet 262 via the water purification opening 264 in the valve casing 222. 272 in a state of penetrating in the radial direction.
[0019]
  The switching valve device 218 works as follows.
  FIG. 23 (I) shows a straight water discharge state of the raw water.
  At this time, the lever-type and rotary-type switching operation unit 226 is in a state where it is lifted up most, and the switching valve device 218 is a long hole of the raw water valve unit 232 in the valve body 220 based on the operation of the switching operation unit 226. The shape-shaped opening 266 communicates with the opening 248 of the valve casing 222, and the opening 268 of the valve body 220 communicates with the raw water straight water discharge opening 256 of the valve casing 222.
  Further, the water purification valve portion 234 is in a state where the opening 252 of the valve casing 222 is closed.
[0020]
  Therefore, under this state, the raw water from the raw water passage 246 formed on the outer peripheral side of the purification cartridge 208 reaches the raw water straight water discharge port 254 via the switching valve device 218, and is discharged straight from there as a rectifying bundle downward. The
  Naturally, at this time, the purified water is not discharged from the purified water straight outlet 262.
[0021]
  Next, when the switching operation unit 226 is rotated downward from this state to the intermediate position in FIG. 23 (II), the communication between the opening 266 in the valve body 220 and the opening 248 in the valve casing 222 is performed as shown in FIG. In this state, the opening 268 in the valve body 220 is in a state where it matches the raw water shower spout opening 260 of the valve casing 222, where the raw water from the raw water passage 246 is led to the raw water shower spout 258, It is discharged from there as shower water downward.
  As shown in the figure, the water purification valve portion 234 of the valve body 220 in the switching valve device 218 is in a state where the flow path of the purified water is shut off at this time, so that the water discharged from the purified water straight outlet 262 is discharged. Is not done.
[0022]
  If the switching operation unit 226 is further rotated downward from this state as shown in FIG. 23 (III), the passage of raw water is blocked by the switching valve device 218 as shown in these figures. The flow path of purified water is opened.
[0023]
  At this time, since the raw water passage in the raw water passage 246 is in a state where the raw water passage is blocked by the switching valve device 218, the raw water penetrates the purification cartridge 208 in the radial direction by the feed water pressure, and goes to the water purification passage 250 formed at the center thereof. It arrives.
  The raw water is purified by passing through the purification cartridge 208.
[0024]
  Thus, the purified water that has been purified by passing through the purification cartridge 208 flows into the purified water chamber 238 from the purified water passage 250 inside the purification cartridge 208 through the opening 252 of the valve casing 222 and the opening 270 in the valve body 220. From the water purification chamber 238, straight water is discharged as a rectifying bundle downward from the water purification straight water outlet 262 through the opening 272 of the valve body 220 and the water purification opening 264 of the valve casing 222.
[0025]
  In the case of this cylinder type switching valve device 218, the raw water straight water discharge, the raw water shower water discharge, and the purified water straight water discharge can be switched by a single switching valve device 218 and its switching operation unit 226. Since the structure of the part can be simplified and reduced in size, and the required switching operation can be performed with the single switching valve device 218 and its switching operation unit 226, the number of necessary members is not troublesome. It is possible to obtain various advantages such as a small amount and a low cost.
[0026]
[Problems to be solved by the invention]
  The switching valve device 218 is an example of a cylinder type valve device. In the case of this type of cylinder type valve device, a passage (main passage) is usually surrounded by a peripheral wall portion of a cylindrical valve body. In addition, there are a plurality of, in particular, a plurality of, in particular, a structure in which a through-opening is provided in the peripheral wall portion of the valve body and the valve casing, and the flow path through the main passage is switched by matching or mismatching of the openings. When switching between three or more flow paths, it is necessary to provide through openings at different positions in the axial direction, and the valve body and the valve device inevitably become long in the axial direction. It contains the problem of itself becoming larger.
[0027]
  19 to 23, the valve portion 232 having different functions at different positions in the axial direction for switching between raw water spouting and purified water spouting and switching between raw water straight water discharging and raw water shower water discharging, 234, and through-openings 266, 268 and 270, 272 for achieving a necessary function in the respective valve portions 232 and 234 are formed in the peripheral wall portion.
[0028]
  Thus, if the valve body and the valve device are enlarged in the axial direction as described above, the valve device built-in portion of the water faucet is enlarged as a result.
  19 to FIG. 23, the tip of the water discharge head 206 is enlarged, and this causes a disadvantage that the aesthetic appearance of the faucet is impaired.
[0029]
  Switching valve device for switching between raw water discharge and purified water discharge, further switching between raw water straight water discharge and raw water shower water discharge, and a cylinder type valve device as a switching valve device for a water purification device built in a faucet As described above, this type of problem is caused when a cylinder type valve device is used in the above-described water purifier or other water purifier provided separately from a normal faucet, or in various other applications. This is a problem that can occur in common when cylinder type valve devices are used at various locations.
[0030]
[Means for Solving the Problems]
  The cylinder type valve device of the present invention has been devised to solve such problems.
  Thus, according to the first aspect of the present invention, (a) having a cylindrical portion, forming a main passage on the inner side surrounded by the peripheral wall portion of the cylindrical portion, and allowing fluid to enter and exit from the main passage A valve body having a main flow inlet and a main flow outlet; and (b) a valve casing fitted around the valve body, and opening or closing of a flow path through the main passage by relative rotation of the valve body with respect to the valve casing. In the cylinder type valve device designed to perform flow rate control or flow path switching,One end portion or both end portions of the cylindrical portion of the valve body in the axial direction have an open shape, and the open shape portion serves as the main inflow port, while a through-hole is formed in each of the valve body and the peripheral wall portion of the valve casing. And the main flow outlet in the valve body and the valve casing.A secondary inlet and a secondary outlet are provided in the peripheral wall of the valve body, and a pipe portion extending between the secondary inlet and the secondary outlet is provided so as to cross the inside of the peripheral wall portion of the valve body. A sub-passage independent from the main passage is formed on the inner side of the fluid from the sub-inlet to the sub-outlet, and sub-portions corresponding to the sub-inlet and the sub-outlet are formed in the peripheral wall portion of the valve casing. An inflow port and a sub outflow port are provided, and the flow path through the sub passage is opened / closed or the flow rate is controlled or the flow path is switched by the relative rotation of the valve element.
[0031]
  Claim 2 claims claim1The valve casing is provided with two or more main flow outlets at different positions in the rotation direction with respect to one main flow outlet of the valve body, and the main flow outlet of the valve body by relative rotation of the valve body Is made to coincide with any one of the main flow outlets of the valve casing to switch the flow path.
[0032]
  Claim 3 claims claim2In the rotation position where the main outlet in the valve body does not coincide with any main outlet in the valve casing, the auxiliary inlet and the auxiliary outlet of the peripheral wall portion of the valve body are the peripheral walls in the valve casing, respectively. It is characterized in that it corresponds to the sub-inlet and sub-outlet of the part.
[0033]
  Claim 4 claims claim3In the above, the cylinder type valve device is a switching valve device for switching between water discharge of raw water made of tap water and water discharge of purified water after passing through a purification cartridge, and the main passage in the valve body is for passing the raw water It forms a passage, and the raw water straight water discharge and the raw water shower water discharge are switched by matching the one main flow outlet of the valve body with one of the two main flow outlets of the valve casing by relative rotation of the valve body, The sub-passage forms a passage for the purified water to pass through, and the sub-inlet and the sub-outlet of the valve body are matched with the sub-inlet and the sub-outlet of the valve casing, thereby purifying the water from the raw water discharge water. It is characterized by switching to water discharge.
[0034]
[Operation and effect of the invention]
  As described above, the present invention provides a secondary inlet and a secondary outlet on each peripheral wall portion of the valve body and the valve casing fitted on the valve body in the cylinder type valve device, while crossing the inside of the valve body peripheral wall portion. In this way, the sub-inlet is connected to the sub-inlet and the sub-outlet of the valve body through a sub-passage that is independent of the main passage, and the sub-passage is connected by the relative rotation of the valve body. According to the present invention, the cylinder type valve device can be configured as a compact one having a short axial length.
[0035]
  In the conventional cylinder type valve device, since only the fluid in the main passage formed inside the peripheral wall portion of the valve body is allowed to flow out from the outlet provided in the peripheral wall portion or the like, a plurality of flow paths are provided. In such a case, it is necessary to provide an outlet for switching at different positions in the axial direction with respect to the valve body. As a result, the valve body and the valve device become longer in the axial direction. Will become larger.
  Alternatively, if an outlet or inlet for switching the flow path is provided at the same position in the axial direction, the formation position of the opening is remarkably restricted, and the function for switching the flow path in the valve device, etc. Will be constrained.
[0036]
  However, in the present invention, in addition to the main passage inside the peripheral wall portion of the valve body, a sub-passage provided so as to cross the inside of the peripheral wall portion is provided. The axial length of the valve body and the valve device can be shortened by skillfully using the passage and the sub-passage.
  Alternatively, the valve device can be provided with more functions such as channel switching under the same axial length.
[0037]
  In the present invention, one end portion or both end portions in the axial direction of the cylindrical portion of the valve body are formed into an open shape, which is used as a main inflow port, while a through-hole is formed in each of the peripheral wall portions of the valve body and the valve casing. , The main flow outlet in the valve body and valve casingThe
  That is, the fluid flows into the main passage from the axial end of the cylindrical portion of the valve body, and flows out from the main outlet formed in the peripheral wall portion to the outside.The
[0038]
  In the present invention, two or more main flow outlets are provided in the valve casing at different positions in the rotation direction with respect to one main flow outlet of the valve body, and the main flow outlet of the valve body is obtained by relative rotation of the valve body. Can be matched to any main outlet of the valve casing to switch the flow path.2).
[0039]
  In this case, in the rotation position where the main outlet in the valve body does not coincide with any main outlet in the valve casing, the auxiliary inlet and auxiliary outlet of the valve body are respectively connected to the auxiliary inlet and auxiliary flow in the valve casing. Can be made to coincide with the exit (claims)3).
  In this case, the same kind or another kind of fluid is allowed to flow out from any one of at least three outflow ports by flowing through the main passage and the sub passage and by rotating the valve body relative to the valve casing. Can be made like that. That is, at least three flow paths can be switched.
[0040]
  In the present invention, the cylinder type valve device can be configured as a switching valve device for switching between discharging the raw water made of tap water and discharging the purified water after purification.The
[0041]
  The invention also includes claims.3In the above, the main passage is formed as a passage for passing the raw water, and the main flow outlet of the valve body is made to coincide with one of the two main flow outlets of the valve casing by relative rotation of the valve body, so that raw water straight water discharge, raw water shower water discharge In addition, the sub-passage is used as a passage for passing purified water, and the valve body's relative rotation causes the sub-inlet and sub-outlet of the valve body to coincide with the sub-inlet and sub-outlet of the valve casing. Therefore, it is possible to switch from raw water discharge to clean water discharge (claim).4).
[0042]
【Example】
  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 main 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.
[0043]
  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.
[0044]
  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.
[0045]
  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 this example, the purification cartridge 42 (described later) accommodated therein can be replaced by detaching the head 28.
[0046]
  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.
[0047]
  Here, as shown in FIG. 5, the hose 22 is slidable in the axial direction in the hose insertion hole 32 at the center of the cylindrical hose guide 31 attached and fixed to the tip of the water discharge pipe base 18. It is inserted.
  The hose guide 31 also has a function of holding the water discharge head 20 by inserting it here.
  The hose guide 31 and the water discharge pipe base 18 are respectively formed with drain holes 33 and 35 for discharging water that has entered from the gap between the hose 22 and the hose guide 31 to the outside.
[0048]
  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.
[0049]
  As shown in FIG. 6, 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 this is used as a support for diatomaceous earth on its outer surface. The layer of 46 is further laminated with the layer of activated carbon 48 on its outer surface, and the nonwoven fabric 50 is wound around its outer peripheral surface.
[0050]
  The purification cartridge 42 has non-water-permeable end caps 52 and 54 at the front and rear ends.
  These end caps 52 and 54 are each made of a translucent member, and through these end caps 52 and 54, end surfaces of the purification cartridge 42, specifically, a ceramic filter 44, a diatomaceous earth 46 layer, and an activated carbon 48 layer. The end face of the layer of the nonwoven fabric 50 can be visually observed from the outside.
  That is, the degree of contamination of each layer of the purification cartridge 42 can be visually observed through the end caps 52 and 54.
[0051]
  Ribs 56 are formed on the outer peripheral surfaces of the end caps 52 and 54 at predetermined intervals in the circumferential direction, and the outer peripheral ends of the ribs 56 abut against the inner peripheral surface of the inner cylinder 40 as shown in FIG. It is like that.
  That is, these ribs 56 form a raw water passage 58 </ b> A between the outer peripheral side of the purification cartridge 42, specifically between the outer peripheral surface of the purification cartridge 42 and the inner peripheral surface of the inner cylinder 40 in the water discharge head body 26.
  Further, a purified water passage 60 </ b> A is formed inside the ceramic filter 44 in the purification cartridge 42.
[0052]
  As shown in FIGS. 3 to 5, an emergency shutoff valve 51 is provided at the proximal end portion of the water discharge head 20. Specifically, an emergency shut-off valve 51 is provided at the proximal end portion of the water discharge head 20 and the connection fixing portion of the hose 22.
[0053]
  Here, the emergency shut-off valve 51 automatically closes and shuts off the flow path when the purification cartridge 42 is removed from the mounting position, and has a cylindrical valve casing 53 and a valve body 55. Yes.
  One end side (left end side in the figure) of the valve casing 53 is fixed to the hose 22, and the other end side (right end side in the figure) is fixed to the water discharge head 20 by a fixing ring 57.
[0054]
  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 53 is connected and fixed to the inner cylinder 40 of the water discharge head 20.
[0055]
  The valve body 55 is provided with a shaft portion 59, and a baffle plate 61 is provided at an end portion (right end side in the drawing) of the shaft portion 59.
  The urging force of the spring 63 acts on the baffle plate 61 in the right direction in the figure. When the purification cartridge 42 is removed as shown in FIG. 5B, the valve body 55 is urged by the urging force of the spring 63. Based on this, the emergency shut-off valve 51 is closed by seating on the valve seat 65 of the valve casing 53.
  That is, the flow path is blocked by the seating of the valve body 55 on the valve seat 65.
  However, normally, as shown in FIG. 5A, the purification cartridge 42 pushes the valve body 55 leftward against the urging force of the spring 63 via the baffle plate 61, so that the emergency shut-off valve 51 is normally maintained in the valve open state by the purification cartridge 42.
[0056]
  The purification cartridge 42 is provided with a convex portion 67 as a valve presser for pressing the valve body 55 at an axial end portion (left end portion in the figure). The convex shape portion 67 is an obstacle to the valve body 55. In contact with the plate 61, the valve element 55 is pushed leftward in the figure against the urging force of the spring 63.
[0057]
  The convex portion 67 is formed with a female tapered holding portion 69 corresponding to the baffle plate 61 in the valve body 55. The holding portion 69 is fitted to the male tapered shape portion of the baffle plate 61 so as to be perpendicular to the axis. The valve body 55 is held in the direction.
  That is, the action of the holding portion 69 prevents the valve body 55 from shaking or rattling in the direction perpendicular to the axis when hot water flows through the flow path.
[0058]
  A notch portion 71 is provided in a contact portion with the valve body 55, specifically, the valve seat 65. The notch 71 constitutes a leak mechanism for leaking the pressure upstream of the emergency shutoff valve 51 in the flow path to the downstream side. As shown in FIG. Under the state of being seated on the valve seat 65, a slight gap is formed between them by the notch portion 71, and the pressure upstream of the emergency shut-off valve 51 leaks to the downstream side through the same portion.
[0059]
  3, 4, 6, and 7, the head 28 has a raw water straight spout 62 that discharges raw water straight as a rectifying bundle, and a shower spout using raw water as shower water. A raw water shower water outlet 64 and a purified water straight water outlet 66 that discharges straight water as a rectifying bundle are provided separately.
  Further, a raw water straight passage 68, a raw water shower passage 70, and a purified water straight passage 72 are formed in communication with the water discharge ports 62, 64, 66, respectively.
[0060]
  A switching valve device 74 (see FIG. 7) for switching between raw water straight water discharge, raw water shower water discharge, and purified water straight water discharge is disposed downstream of the purification cartridge 42 and inside the head 28.
  The switching valve device 74 is a cylinder type valve device, and its specific configuration is shown in detail in FIGS.
[0061]
  As shown in these drawings, the switching valve device 74 includes a valve body 76 and a valve casing 78 that is water-tightly fitted to the valve body 76.
  As shown in FIG. 8, the valve casing 78 is integrally formed with an outer cylinder portion 80 and an inner cylinder portion 82, and the outer cylinder portion 80 is formed on the inner side of the end of the water discharge head body 26 with an O-ring 114. It is fitted and connected in a watertight manner.
  On the other hand, the inner cylinder part 82 is watertightly connected to the outside of a cylindrical fitting convex part 122 formed at the axial end of the purification cartridge 42 via an O-ring 114.
[0062]
  In this state, the inner space of the inner cylindrical portion 82 forms a purified water passage 60B following the purified water passage 60A in the center of the purification cartridge 42, and an annular space between the outer cylindrical portion 80 and the inner cylindrical portion 82 is formed. A raw water passage 58B is formed following the raw water passage 58A.
  A ring-shaped strainer 100 for preventing foreign matters such as dust from entering the raw water passage 58B is attached to the end of the raw water passage 58B.
[0063]
  The valve body 76 has a large-diameter cylindrical portion 84 and a shaft portion 86 as main components.
  The shaft portion 86 further includes a circular portion 88 and a square portion 90 on the proximal end side, and the spacer ring 94 and the base portion 92 of the switching operation portion 24 are externally fitted to the square portion 90 in an integrally rotated state. In addition, they are fixed in the 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 via an O-ring 114 inside a cylindrical portion 128 formed in the valve casing 78.
  Reference numeral 98 denotes a cap for concealing the fastening screw 96.
[0064]
  As shown in FIG. 11, the large-diameter cylindrical portion 84 of the valve body 76 forms a main passage 102 through which the inner space of the peripheral wall portion passes raw water.
  One end in the axial direction of the cylindrical portion 84 is a circular open shape portion and the other end is a half-moon-shaped open shape portion, each of which forms a main inlet 104 for allowing raw water to flow into the main passage 102. ing.
  That is, the raw water that has flowed from the raw water passage 58 </ b> A inside the water discharge head body 26 into the subsequent raw water passage 58 </ b> B flows into the main passage 102 from these main inlets 104.
[0065]
  The cylindrical wall 84 is provided with a main outlet 106 at a predetermined position in the rotational direction, and the raw water flowing into the main passage 102 flows out of the main outlet 106 to the outside. .
  Correspondingly, on the peripheral wall portion of the valve casing 78, a first main outlet 108 that guides raw water to the raw water straight outlet 62 through the raw water straight passage 68, and raw water to the raw water shower outlet 64 through the raw water shower passage 70. The second main outlet 110 for guiding is provided at a position substantially aligned in the rotation direction.
[0066]
  In the cylinder type switching valve device 74, the raw water in the main passage 102 is not valved under a state in which the main outlet 106 of the valve body 76 coincides with the first main outlet 108 of the valve casing 78 by the rotation of the valve body 76. It flows out to the raw water straight outlet 62 through the main outlet 106 of the body 76 and the first main outlet 108 of the valve casing 78.
  On the other hand, when the main outlet 106 of the valve body 76 coincides with the second main outlet 110 of the valve casing 78, the raw water in the main passage 102 passes through the main outlet 106 and the second main outlet 110, and the raw water shower outlet. To 64.
[0067]
  The cylindrical portion 84 of the valve body 76 is provided with a sub-inflow port 112 and a sub-outflow port 116 at a position that is 180 ° apart from the peripheral wall portion in the rotation direction.
  Further, in the inner space of the peripheral wall portion, a pipe portion 118 is provided in a direction perpendicular to the axis so as to cross the space.
  An inner space of the pipe portion 118 forms a sub-passage 120 for passing purified water, and the sub-inlet 112 and the sub-outlet 116 are communicated with each other through the sub-passage 120.
  Here, the secondary passage 120 forms a passage independent of the main passage 102 on the inner side surrounded by the peripheral wall portion of the cylindrical portion 84.
[0068]
  In the other valve casing 78, corresponding to the secondary inlet 112 and the secondary outlet 116, a secondary inlet 124 and a secondary outlet 126 penetrating the peripheral wall portion are formed at positions separated by 180 ° in the rotation direction. Yes.
  Here, the auxiliary inlet 124 is provided in communication with the purified water passage 60 </ b> B, and the auxiliary outlet 126 is provided in communication with the purified water straight passage 72.
[0069]
  In this cylinder type switching valve device 74, the valve body 76 matches the secondary inlet 112 with the secondary inlet 124 of the valve casing 78, and the secondary outlet 116 matches the secondary outlet 126 of the valve casing 78. In this state, the purified water sent through the purified water passage 60B flows through the auxiliary passage 120 of the valve body 76, then flows out to the purified water straight passage 72 through the auxiliary outlet 126 of the valve casing 78, and the purified water at the tip thereof. Straight water is discharged from the straight water outlet 66 to the outside.
[0070]
  At this time, the main outlet 106 of the valve body 76 is inconsistent with both the first and second main outlets 108 and 110 of the valve casing 78, and the raw water flows out from these main outlets 108 and 110. Is blocked.
  In FIG. 8, 130 is a closing member for closing the opening 132 of the valve casing 78.
[0071]
  12 and 13 show the operation of this cylinder type switching valve device 74. Hereinafter, the operation of the switching valve device 74 will be described with reference to these drawings.
  First, FIG. 12 (A) and FIG. 13 (A) show a straight water discharge state of raw water.
  At this time, the switching operation part 24 is in a state where it is lifted up most, and the switching valve device 74 changes the main outlet 106 in the valve body 76 based on the operation of the switching operation part 24 to the first main outlet of the valve casing 78. It is in a state matched with 108.
[0072]
  Under this state, the raw water that has flowed through the raw water passages 58A and 58B flows from the main inlets 104 at both axial ends of the cylindrical portion 84 of the valve body 76 into the main passage 102 inside the peripheral wall portion, and then the valve body. The main water outlet 106 in 76 and the first main outlet 108 in the valve casing 78 flow out into the raw water straight passage 68, and thereafter, straight water is discharged downward from the raw water straight water outlet 62 at the lower end.
  At this time, as shown in FIG. 12 (A), the sub passage 120 in the valve body 76 is in a state of being blocked from the upstream water purification passage 60B. It is in the state.
[0073]
  Next, when the switching operation unit 24 is rotated downward from this state to the intermediate position in FIGS. 12 and 13, the main body is rotated by the rotation of the valve body 76 as shown in FIGS. 12 (B) and 13 (B). The outlet 106 coincides with the second main outlet 110 in the valve casing 78, where raw water flows into the raw water shower passage 70 through the main outlet 106 and the second main outlet 110, and then from the raw water shower outlet 64 at the lower end. The shower is discharged downward.
[0074]
  From this state, when the switching operation unit 24 is rotated downward to the lowest end as shown in FIGS. 12C and 13C, the valve body 76 is further updated as shown in these drawings. This rotation causes the main outlet 106 to be inconsistent with both the first main outlet 108 and the second main outlet 110 in the valve casing 78, and the auxiliary inlet 112 and the auxiliary outlet 116 in the valve body 76. In the valve casing 78 and the sub-outlet 126 respectively coincide with each other, and the sub-passage 120 provided in the valve body 76 is in communication with the upstream water purification passage 60B.
[0075]
  Under this state, since the flow path of the raw water is blocked by the switching valve device 74, the raw water passage 58A passes through the purification cartridge 42 in the radial direction and reaches the central water purification passage 60A ( At this time, the raw water is purified by passing through the purification cartridge 42), and the purified water in the purified water passage 60A flows into the sub passage 120 of the valve body 76 through the purified water passage 60B on the head 28 side.
[0076]
  The purified water that has flowed into the auxiliary passage 120 then flows into the purified water straight passage 72 via the auxiliary outlet 116 in the valve body 76 and the auxiliary outlet 126 in the valve casing 78, and then downwards from the purified water straight outlet 66 at the lower end. Straight water is discharged.
[0077]
  In the switching valve device 74 of the present example as described above, since the auxiliary passage 120 independent of this is provided in addition to the main passage 102, the axial length of the conventional cylinder type valve device is increased. Therefore, the switching valve device 74 can be made compact.
  Further, since the switching valve device 74 can be made compact with a short axial length, the portion of the faucet with a built-in switching valve device 74, more specifically, the portion with a built-in switching valve device 74 in a water purifier built into the faucet can be made compact. It can be configured and its aesthetics can be made good.
[0078]
  Although the embodiment of the present invention has been described in detail above, this is merely an example.
  For example, the above example is an example in which the cylinder type valve device of the present invention is applied to a switching valve device 74 of a water purification device built in a water faucet, but the cylinder type valve device of the present invention is a water purification device of various other forms. Alternatively, it can be applied as a valve device for various uses other than water purification devices..
[0079]
  FurtherIn addition, the pipe portion 118 of the valve body 76 is branched into two or more branches inside the peripheral wall portion, and the fluid flowing in from the auxiliary inlet is provided from any of the auxiliary outlets provided corresponding to the respective branches. It is also possible to make it flow out.
  In addition, in the present invention, the cylinder type valve device can be configured in various other forms, and the present invention can be configured in various modifications without departing from the gist of the present invention.
[Brief description of the drawings]
FIG. 1 is a diagram showing an installed state of a faucet incorporating a water purifier including a switching valve device according to an embodiment of the present invention.
FIG. 2 is an enlarged view of a main part showing a switching operation part and its peripheral part in FIG. 1;
3 is a view showing an internal structure of the water faucet of FIG.
4 is an enlarged view showing an internal structure of a distal end portion of the water discharge pipe of FIG. 3;
FIG. 5 is an enlarged view showing the emergency shut-off valve and its peripheral part in FIGS. 3 and 4;
6 is an exploded view of the water discharge pipe of FIG. 3 into each member.
FIG. 7 is an enlarged view of the switching valve device built in the tip of the water discharge pipe and its peripheral part.
FIG. 8 is a diagram illustrating the switching valve device of FIG.
FIG. 9 is a diagram independently showing the valve body and the valve casing in FIG. 8;
10 is a view showing a state in which the valve body and the valve casing of FIG. 9 are assembled. FIG.
11 is a view showing in detail the configuration of the valve body of FIGS. 7 to 10; FIG.
12 is an operation explanatory view of the switching valve device of FIGS. 7 to 11. FIG.
FIG. 13 is an operation explanatory diagram illustrating an operation state and a water discharge state of the switching operation unit.
FIG. 14 is a view showing a state in which a conventional built-in type water purifier is installed in a cabinet.
FIG. 15 is a view in which a main part of a conventionally known faucet with a water purification function is partially cut away.
16 is a view showing a main part of the water faucet with a water purifying function of FIG. 15;
FIG. 17 is a diagram schematically showing a switching function by the switching valve device of the faucet with a water purifying function shown in FIGS. 15 and 16;
FIG. 18 is a view showing a water discharge state of the water faucet with a water purifying function shown in FIGS.
FIG. 19 is a comparative example showing a cylinder type switching valve device devised by the present inventors and the peripheral portion thereof.
20 is an exploded view of the switching valve device of FIG.
FIG. 21 is a view showing a main part of a water faucet incorporating a water purifier including the switching valve device of FIGS. 19 and 20;
22 is an operation explanatory diagram of the switching valve device of FIGS. 19 and 20. FIG.
23 is an operation explanatory diagram showing an operation state and a water discharge state of the switching operation unit in the switching valve device of FIGS. 19 and 20 in relation to the state of the switching valve device.
[Explanation of symbols]
        42 Purification cartridge
        74 Switching valve device (cylinder type valve device)
        76 Disc
        78 Valve casing
        84 Cylindrical part
        102 Main passage
        104 Main entrance
        106 Main outlet
        108 1st mainstream exit
        110 Second main outlet
        112,124 Side inlet
        116, 126 Side outlet
        118 Pipe
        120 Auxiliary passage

Claims (4)

(A) A valve body having a cylindrical portion, forming a main passage on the inner side surrounded by the peripheral wall portion of the cylindrical portion, and having a main flow inlet and a main flow outlet for allowing fluid to flow in and out of the main passage And (b) a valve casing fitted on the valve body, and the flow of the valve body through the main passage is controlled by the relative rotation of the valve body with respect to the valve casing, the flow rate is controlled, or the flow path is switched. In the cylinder type valve device,
One end portion or both end portions of the cylindrical portion of the valve body in the axial direction have an open shape, and the open shape portion serves as the main inflow port, while a through-hole is formed in each of the valve body and the peripheral wall portion of the valve casing. And the main flow outlet in the valve body and the valve casing,
Further provided with a secondary inlet and the secondary outlet in the peripheral wall of said valve body, is provided a tube portion that spans and their secondary inlet and the secondary outlet and across the inner circumferential wall of the valve body tube A sub-passage independent of the main passage is formed inside the portion to guide the fluid from the sub-inlet to the sub-outlet, and corresponds to the sub-inlet and the sub-outlet on the peripheral wall portion of the valve casing. A cylinder type valve device characterized in that a secondary flow inlet and a secondary flow outlet are provided, and a flow path through the secondary passage is opened / closed or a flow rate is controlled or a flow path is switched by relative rotation of the valve body. 2. The valve body according to claim 1 , wherein two or more main flow outlets are provided in the valve casing at different positions in the rotation direction with respect to one main flow outlet of the valve body, and the valve body is caused by relative rotation of the valve body. The cylinder-type valve device is characterized in that the flow path is switched by matching the main flow outlet of any one of the valve casings with any of the main flow outlets of the valve casing. In Claim 2 , in the rotation position where the main flow outlet in the valve body does not coincide with any main flow outlet of the valve casing, the auxiliary inlet and the auxiliary outlet of the peripheral wall portion of the valve body are the valve. A cylinder type valve device, characterized in that it coincides with a sub-inlet and a sub-outlet of a peripheral wall portion in a casing. In Claim 3 , The said cylinder type valve apparatus is a switching valve apparatus which switches the water discharge of the raw water which consists of tap water, and the water discharge of the purified water after passing a purification cartridge, The said main channel | path in the said valve body is the said raw water. A straight passage water discharge and a raw water shower water discharge are made by forming a passage for passing through and causing the one main flow outlet of the valve body to coincide with one of the two main flow outlets of the valve casing by relative rotation of the valve body. And the sub-passage forms a passage through which the purified water passes, and the sub-inlet and sub-outlet of the valve body are made to coincide with the sub-inlet and sub-outlet of the valve casing. A cylinder type valve device that is switched from water discharge to clean water discharge.

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