JP2008081989A - Water faucet device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water faucet device capable of reducing the weight of a water faucet in an upper part of a counter by providing a valve for draining and cutting off water mechanically in a lower part of the counter, keeping the water faucet clean always, and improving the degree of freedom in design when designing the water faucet and allowing all users to operate the water faucet easily. <P>SOLUTION: This water faucet device 1 is constituted by arranging the water faucet 12 in the upper part of the counter 11 to let water flow into a water tank from a drain part 13 of the water faucet. This water faucet device is provided with an operation part 20 in the vicinity of the tip of the water faucet, and the valve 21 for draining and cutting off water mechanically in the lower part of the counter to transmit mechanical operation to the valve through a transmission means 22 by operating the operation part and let the valve drain and cut off water. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a faucet device provided in a kitchen or a vanity.

A faucet device provided in a kitchen or a bathroom vanity has a faucet disposed above a counter of the kitchen or the like, and allows water to flow from a discharge part of the faucet to a water tank. In the faucet device as an example, a lever cartridge in which an operation lever and a valve are incorporated is mounted on the faucet, and when the operation lever is operated, the valve opens and closes to discharge and stop water.
This lever cartridge has an operation portion having an operation lever and the like, and a mechanism portion such as a valve for performing water discharge, water stoppage, flow rate adjustment, etc., and the operation portion and the mechanism portion are laterally and obliquely directed from the faucet body. Often overhangs.
There is also known a faucet device in which the operation unit and the mechanism unit are separated, the mechanism unit is disposed at the base of the faucet, and the operation unit is disposed at the tip of the faucet.

Patent Document 1 (Japanese Patent Laid-Open No. 2005-121222) describes a hot water / water mixing faucet (a faucet device) in which a valve cartridge (corresponding to the lever cartridge) is provided at the base of a discharge body (a faucet). Yes.
There are two types of faucet devices that have an operation lever at the base of the faucet, with the operation lever facing sideways and the one facing diagonally, but the operation lever is located at the base of the faucet. As a result, the water collected at the lever cartridge is inevitably contaminated and the faucet is likely to become dirty.
Further, since the operation lever is located far from the user, it may be difficult for the user who works in front of the kitchen to operate the faucet even when reaching out. In particular, when the user is a child or an elderly person, it may be difficult to reach the operation lever.

Accordingly, the following A, which is a tip operation method in which all or part of the lever cartridge is provided at or near the tip of the faucet, and the operation is performed at the tip of the faucet to discharge or stop water electrically or mechanically. B and C type faucet devices have been proposed.
For example, the A type faucet device is a faucet device having a mechanical structure in which a lever cartridge, which has been conventionally mounted at the base of the faucet, is mounted at the tip of the faucet.
The B type faucet device is an electrical device. An infrared sensor is installed in the vicinity of the water discharge part. When the user shields the infrared by holding his hand over the sensor, a signal is sent from the infrared sensor to open and close the solenoid valve. The water is discharged and stopped. Patent Document 2 (Act No. 8-9246) discloses a manual operation mechanism for a B-type automatic faucet.
Furthermore, the C-type water faucet device is a device having a mechanical configuration in which a lever cartridge is provided at the tip of the water faucet and the valve is a ball valve.

JP-A-2005-121222 No. 8-9246

Since the user often touches the control lever with wet hands during cooking, the conventional lever cartridge tends to get wet and cause water stains. Even when cleaning, it was difficult for the user to reach.
In the faucet device described in Patent Document 1 and the like, the faucet at the top of a counter such as a kitchen tends to be heavy, and water has adhered to the lever cartridge and becomes dirty, so that frequent cleaning has to be performed.

In the B type faucet device of the tip operation method described in Patent Document 2 and the like, since the whole or a part of the lever cartridge is provided at the tip of the faucet, the degree of freedom in designing the design of the faucet is limited. Cleaning the faucet at all times was troublesome.
In addition, in the B type faucet device, since the infrared sensor and solenoid valve are mounted on the faucet, if the sensitivity of the infrared sensor is slow, the operation of water discharge and water stoppage tends to be delayed, and the initial cost is low. On the other hand, the cost performance was low due to the cost of electricity as the running cost only for water stoppage (water discharge and water stoppage). Moreover, in this B type faucet device, although it was able to stop water, it was not possible to switch hot water.
In each of the A type and C type faucet devices, it is structurally impossible to incorporate a hose and pull out the head part to which this hose is connected, and there is a restriction on the design of the faucet function. .

  The present invention has been made to solve such problems. A valve for mechanically discharging and stopping water is provided at the lower part of the counter to reduce the weight of the faucet at the upper part of the counter and keep it always clean. At the same time, it is an object to provide a faucet device that can improve the degree of freedom in designing the design of the faucet and that is easy for all users to operate the faucet.

In order to achieve the above-described object, a faucet device according to the present invention is a faucet device in which a faucet is disposed on an upper part of a counter, and water flows from a discharge part of the faucet to a water tank. An operating portion is provided near the tip of the stopper, a valve for mechanically discharging and stopping water is provided at the lower portion of the counter, and mechanical operation by operating the operating portion is transmitted via a transmission means. This is transmitted to the valve so that the valve performs at least water discharge and water stop operations.
As a preferred embodiment, it is possible to perform a spouting operation for performing water spouting and water stopping and a hot water switching operation for switching between water and hot water with respect to the operation unit, and the valve includes the water discharging and the water A water stopping operation for stopping water and a hot water switching operation for switching between water supply and hot water supply are possible, and the transmission means includes a flexible first wire and a flexible second wire. The discharge water operation for the operation portion is transmitted to the valve by the first wire, the valve performs the discharge water operation, and the hot water switching operation for the operation portion is performed by the second operation. This wire is transmitted to the valve by the wire so that the valve performs the hot water / water switching operation.
The operation unit includes a water stop operation cam mechanism and a hot water switching operation cam mechanism, and the first wire is moved by the water stop operation cam mechanism by using the first water movement operation. It is preferable to convert the second rotational motion by the hot water / water switching operation into the forward / backward motion of the second wire in the central axial direction by the hot water / switching operation cam mechanism.
The transmission means includes a valve drive unit disposed at a lower portion of the counter and connected to the valve. The valve drive unit moves the forward / backward movement of the first wire in the direction of the forward / backward movement. A first valve driving cam mechanism that converts the linear motion in a direction orthogonal to the valve and transmits it to the valve; and a second mechanism that converts the forward / backward motion of the second wire into a rotary motion and transmits the rotary motion to the valve. The valve drive cam mechanism, and the valve performs the water discharge operation when the linear motion is transmitted by the first valve drive cam mechanism, and the second valve drive cam mechanism. It is preferable to perform the hot and cold water switching operation when the rotational motion is transmitted by the above.
It is preferable that the first wire and the second wire only advance and retreat in the direction of each central axis while being surrounded and restrained by guide means.
The water faucet includes a hollow case part attached to the counter, a head part disposed at a tip of the case part and having the discharge part, the operation part attached to the case part, and the head part And a bendable hose that is disposed inward of the operation unit and allows the head unit and the valve to communicate with each other. The head unit to which the hose is connected is pulled out and moved to an arbitrary position and direction. Preferably it is possible.

  Since the faucet device of the present invention is configured as described above, a valve for performing at least water discharge and water stop is provided at the lower part of the counter to reduce the weight of the faucet at the upper part of the counter and keep it clean, The degree of freedom in designing the design can be improved, and the faucet can be easily operated for all users.

The faucet device according to the following embodiment is a device for facilitating water flow from the faucet discharge section to a water tank, with a faucet disposed on the top of a counter such as a kitchen. This faucet device is provided with an operation part in the vicinity of the tip of the faucet, a valve for mechanically discharging and stopping water is provided at the lower part of the counter, and mechanical operation by operating the operation part is performed. It transmits to a valve via a transmission means, and this valve performs each operation | movement of water discharge and water stop at least.
The purpose of this is to make the faucet at the top of the counter lighter and always clean, to improve the freedom when designing the design of this faucet, and to facilitate the operation of the faucet for all users. Realized.

The faucet device in the present embodiment is provided in a kitchen (for example, a system kitchen or a sectional kitchen that is a kind of composite kitchen furniture) installed in the kitchen, and allows water to flow from a discharge part of the faucet to a sink as a water tank. The faucet device may be provided on a vanity. In this case, water is allowed to flow from a faucet discharge part to a wash bowl as a water tank.
In the water faucet device of the present embodiment, both water discharge and hot water switching can be performed, but only water discharge may be performed.

An embodiment according to the present invention will be described below with reference to FIGS.
FIG. 1 is a perspective view showing a part of a system kitchen provided with the faucet device of the present invention. FIG. 2 is a front view showing the whole faucet device, and a part thereof is shown in cross section. FIG. 3 is a perspective view showing the entirety of the faucet device, and a part thereof is shown in cross section.
4 is an exploded perspective view of the faucet device, FIG. 5 is an exploded perspective view showing a part of the faucet device, FIG. 6 is a perspective view showing the faucet, and FIG. 7 shows a spout water operation in the faucet. FIG. 8 is a perspective view showing a hot water / water switching operation in the faucet, FIG. 9 is a perspective view showing a state in which the head portion of the faucet is pulled out, and FIG. 10 is a perspective view showing an attachment structure of the faucet. .

As shown in FIG. 1, the faucet device 1 is provided in a system kitchen 2 which is a kind of kitchen installed in the kitchen. The system kitchen 2 has a cabinet 3 installed on the floor. The cabinet 3 is provided with a plurality of drawers (drawers 4, 10 and the like) of various shapes and structures so as to be freely housed in the drawer.
The cabinet 3 has a configuration in which a stove cabinet and other cooking table cabinets are sequentially arranged in addition to the sink cabinet 5 and the cooking table cabinet 6. The work top 7 is attached so as to cover the upper parts of the cabinets 5 and 6 and the like, and the work top 7 at the upper part of the cooking table cabinet 6 is a cooking table.
The sink cabinet 5 is provided with a faucet device 1, a sink 8 as a water tank, a plurality of drawers 4 and the like to constitute kitchen furniture as a single unit. Similarly, the kitchen table cabinet 6 is provided with a dishwasher 9 and a drawer 10. Thus, the system kitchen 2 constitutes composite kitchen furniture in which the kitchen furniture as a single unit is combined.

As shown in FIGS. 1 to 10, the faucet device 1 allows water (for example, cold water or hot water) to flow from the discharge portion 13 of the faucet 2 provided at the top of the counter 11 to the sink 8 as a water tank. It is a device.
The faucet device 1 may be provided on a bathroom vanity. In this case, the faucet 12 is arranged on the upper part of the counter, and water (for example, cold water or hot water) is allowed to flow from the discharge portion 13 of the faucet 12 to a wash bowl as a water tank.
In the present invention, the operations and operations of “water discharge” and “water discharge” include not only the case of flowing water from the discharge unit 13, the case of shutting off the water but also the case of adjusting the flow rate. Further, the operation and operation of “switching hot water” includes not only simply switching between water and hot water, but also when mixing water and hot water to make hot water (temperature adjustment).

The upper surface of the sink 8 or the surface of the work top 7 (in this embodiment, the upper surface of the sink 8) is a counter 11. The faucet device 1 is attached to the counter 11, and the faucet 12 protrudes upward from the counter 11.
The faucet device 1 includes an upper case 25 as a hollow case portion that protrudes upward from the counter 11 and is bent into a predetermined shape, and a hollow case portion that is disposed below the counter 11 and faces upward and downward. And a lower case 26. A flange portion 27 is formed between the upper case 25 and the lower case 26, and the faucet device 1 is attached to the counter 11 by the flange portion 27.

In the faucet device 1, an operation unit 20 is provided in the vicinity of the tip of the faucet 12. A valve 21 is provided at the lower part of the counter 11 for at least water discharge and water stop mechanically.
The faucet device 1 transmits a mechanical operation by operating the operation unit 20 to the valve 21 via the transmission means 22 so that the valve 21 performs at least water discharge and water stop operations. As a result, a valve 21 for mechanically discharging and stopping water is provided at the lower part of the counter 11 so that the faucet 12 at the upper part of the counter is lightened and always clean, and the design of the faucet 12 is designed. The degree of freedom can be improved, and the operation of the faucet 12 becomes easy for all users.

The upper case 25 is formed to be curved in a predetermined shape, and the operation unit 20 is provided at the tip of the upper case 25, and the user operates the operation lever 28 of the operation unit 20. A head portion 29 is provided at the tip of the faucet 12, and the operation portion 20 is located between the upper case 25 and the head portion 29.
The head portion 29 is normally positioned and held on the distal end side of the operation portion 20, but a hose 30 is connected to the head portion 29 so that the head portion 29 can be pulled out in any direction and position. (FIGS. 3 and 9).
As described above, the faucet 12 includes the hollow upper case 25 attached to the counter 11, the head portion 29 having the discharge portion 13 disposed at the tip of the upper case 25, and the operation portion attached to the upper case 25. 20, and a bendable hose 30 in which the head portion 29 and the valve 21 communicate with each other and water flows inside.
Then, the head portion 29 connected to the hose 30 is pulled out, and the head portion 29 can be moved in any direction and position (FIGS. 3 and 9). By moving the head portion 29 to an arbitrary position in the sink 8 and flowing water, washing and cooking can be performed freely.

The hose 30 is a tubular body that can be bent into an arbitrary shape, and has one end connected to the head portion 29 and the other end connected to the valve 21.
The hose 30 whose end is connected to the valve 21 passes through the lower case 26 through a through hole 42 formed in the middle of the lower case 26, passes through the inside of the upper case 25 and the operation unit 20, and the head. Connected to the unit 29.
One or a plurality of O-rings 49 are provided in the through hole 42, and the O-ring 49 seals the inside and the outside of the faucet device 1. Thereby, for example, even if water leaks in the valve 21 and accumulates inside the faucet 12 or the like, there is no possibility that this water flows out through the through hole 42. Further, since the O-ring 49 is provided, the hose 30 can move smoothly in the through hole 42.

A water pipe 40 and a hot water pipe 41 are connected to the valve 21. In the middle of the water pipe 40 and the hot water pipe 41, a supply valve (not shown) for manual operation by the user is provided so that the supply of water and hot water to the valve 21 can be turned on and off. However, the supply valve is normally open.
The valve 21 is capable of a water discharge operation for stopping water and water supplied from the pipes 40 and 41, including hot water discharge (including flow rate adjustment). The valve 21 can also switch between hot water supply and water supply (including mixing of water and hot water) to switch between water supply through the pipe 40 and hot water supply through the pipe 41.
Water and hot water (or hot water in which water and hot water are mixed) that have passed through the valve 21 flow in the hose 30, flow out from the discharge portion 13 to the sink 8 through the head portion 29.

The operation unit 20 can be operated to discharge and stop water (operation indicated by an arrow B1) and hot water / water switching operation (operation indicated by an arrow B2) for switching between water and hot water. . The transmission means 22 includes a flexible first wire 23 and a flexible second wire 24.
The water discharge operation (arrow B1) for the operation unit 20 is transmitted to the valve 21 through the first wire 23, and the valve 21 performs the water discharge operation. Further, the hot water / water switching operation (arrow B2) for the operation unit 20 is transmitted to the valve 21 by the second wire, and the valve 21 performs the hot water / water switching operation. In this way, the water faucet device 1 can discharge water from the discharge unit 13 and stop the water, and switch hot water and flow water at an arbitrary amount and at an arbitrary temperature.
In addition, since the flexible first wire 23 and the second wire 24 are used as the transmission unit 22, if the user operates the operation unit 20, the operation of the operation unit 20 is performed with the first wire 23. It is immediately mechanically transmitted to the valve 21 via the second wire 24, and the valve 21 immediately switches water discharge, water stop, and hot water without causing a delay in operation.

The transmission means 22 is disposed at the lower part of the counter 11, is connected to the valve 21, and has a valve drive unit 31 for driving the valve 21. A bottomed cylindrical lower case 26 extends downward from the flange portion 27, and a valve drive unit 31 is accommodated in the lower case 26. A valve 21 is accommodated in the lowermost inner part of the lower case 26, and a valve drive unit 31 is disposed immediately above the valve 21.
The lower case 26 is disposed through the attachment hole 43 formed in the counter 11 and is attached to the counter 11. By screwing a nut 45 into a screw 44 formed in the lower case 26, the faucet device 1 is positioned and fixed to the counter 11 with the counter 11 sandwiched from above and below by the flange 46 and the nut 45 of the flange portion 27. .

The first wire 23 and the second wire 24 only advance and retreat in the direction of each central axis while being surrounded and restrained by the guide means 47. Thereby, the mechanical operation by operating the operation unit 20 can be reliably and immediately transmitted to the valve drive unit 31 via the first wire 23 and the second wire 24.
A guide member 48 is housed inside the upper case 25 and the lower case 26. The guide member 48 includes a first hole 50 that guides the first wire 23 to be movable in the axial direction, and a second hole 51 that guides the second wire 24 to be movable in the axial direction. Is formed.
The guide member 48 is fitted and fixed inside a cylindrical member 53 having a flange 52 at the top. In addition, although the case where the guide member 48 and the cylindrical member 53 are formed separately is shown, the case where the guide member 48 and the cylindrical member 53 are integrally formed may be used.
The valve drive unit 31 is fixed to the inner lower part of the cylindrical member 53. The flange 52 of the cylindrical member 53 constitutes the flange portion 27 and is attached to the counter 11. The entire outer periphery of the cylindrical member 53 is covered with the lower case 26.

The first wire 23 and the second wire 24 protruding upward from the holes 50 and 51 of the guide member 48 are restrained by being surrounded by a first wire restraining tube 54 and a second wire restraining tube 55, respectively. In such a state, only forward and backward movement is performed in the direction of each central axis.
The first wire restraint tube 54 and the second wire restraint tube 55 are housed inside the upper case 25 and are formed in a predetermined shape along the shape of the upper case 25, from the guide member 48 to the operation unit 20. It extends.
The mechanical operation by operating the operation unit 20 moves the first wire 23 and the second wire 24 forward and backward in the direction of the central axis. This forward / backward movement is transmitted to the valve drive unit 31, and the valve 21 driven by the valve drive unit 31 performs a spouting water operation and a hot water switching operation.
As described above, the transmission unit 22 includes the first wire 23, the second wire 24, the guide unit 47, and the valve drive unit 31. The guide means 47 includes a guide member 48, a cylindrical member 53, a first wire restraint tube 54 and a second wire restraint tube 55.

Next, the structure of the operation part 20 and the valve drive part 31 is demonstrated.
11 is an exploded perspective view of the operation unit 20, FIG. 12 is an exploded perspective view of the operation unit 20 when viewed from the other direction, and FIG. 13 is an exploded perspective view showing a state in which the operation unit 20 is being assembled. 14 is an exploded perspective view showing a state in which the operation unit 20 is being assembled following the assembly shown in FIG. 13, and FIG. 15 is a perspective view showing a state in which the operation unit 20 has been assembled.
16 is a partially enlarged cross-sectional view showing the valve drive unit 31 and the like, FIG. 17 is a perspective view of the valve drive unit 31, and FIG. 18 is a cross-sectional perspective view showing the internal structure of the valve drive unit 31.

As shown in FIGS. 11 to 18, the operation section 20 includes a spouting water operation cam mechanism 60 and a hot / cold water switching operation cam mechanism 61.
The first rotational motion by the water stop operation B1 using the operation lever 28 is converted into the forward / backward motion of the first wire in the central axis direction by the water stop operation cam mechanism 60. Further, the second rotary motion by the hot / cold water switching operation B2 using the operation lever 28 is converted into the forward / backward motion of the second wire 24 in the central axis direction by the hot / cold water switching operation cam mechanism 61.
As described above, since the spout water operation cam mechanism 60 and the hot water switching operation cam mechanism 61 are provided in the operation unit 20, if the operation lever 28 is operated, the first wire 23 and the second wire 24 are respectively connected. The valve drive unit 31 can be driven by each advance and retreat movement.

The valve drive unit 31 converts the forward / backward movement of the first wire 23 into a linear movement in a direction (arrow E1 direction) orthogonal to the direction of the forward / backward movement (arrow D1 direction) and transmits the linear movement to the valve 21. A first valve drive cam mechanism 62 and a second valve drive cam mechanism 63 that converts the forward / backward movement (arrow D2) of the second wire 24 into a rotational movement (arrow E2) and transmits it to the valve 21. Have.
The valve 21 performs a spout water operation when a linear motion is transmitted by the first valve drive cam mechanism 62, and performs a hot water switching operation when a rotational motion is transmitted by the second valve drive cam mechanism 63. . Since the valve 21 performs the spout water operation and the hot water switching operation, the water and hot water supplied to the valve 21 through the water pipe 40 and the hot water pipe 41 respectively exit from the valve 21 and pass through the hose 30 to the head portion 29. And flows out from the discharge unit 13.

The operation unit 20 covers a cylindrical casing 64 fixed to the distal end portion of the upper case 25, a cylindrical cam 65 that can rotate by engaging with the cylindrical casing 64, the cylindrical casing 64, the cylindrical cam 65, and the like. A cylindrical cover 66 and an operation lever 28 attached to the cylindrical cover 66 are provided.
A through hole 69 is formed in the central portion of the operation portion 20 in the axial direction, and the hose 30 is inserted into the through hole 69 so as to be movable in the axial direction.
The cylindrical casing 64 is attached to the upper case 25 in a non-rotating state. The operation lever 28 is attached to the cylindrical cover 66 and is rotatable about the axis CL1 as indicated by an arrow B1.
Since the cylindrical cover 66 is fixed to the large-diameter portion 67 of the cylindrical cam 65, the cylindrical cam 65, the cylindrical cover 66, and the operation lever 28 are in the direction of the arrow B2 with respect to the cylindrical casing 64 about the central axis CL2. As shown, it is pivotable. That is, when the operation lever 28 is operated as indicated by the arrow B2, the cylindrical cover 66 and the cylindrical cam 65 rotate around the central axis CL2.

The cylindrical casing 64 has a large diameter portion 70 and a small diameter portion 71. The large-diameter portion 70 and the small-diameter portion 71 are both cylindrical and a through hole 69 is formed at the center. A notch 72 is formed on the peripheral surface of the small diameter portion 71.
A plurality of (here, two) guide shafts 73 are attached to the notch 72 in parallel with the central axis CL2. A slide member 74 having a partially cylindrical outer peripheral surface is engaged with the guide shaft 73.
The slide member 74 is movable as shown by an arrow G in a direction parallel to the central axis CL2. A long hole 75 extending in the circumferential direction is formed on the outer peripheral surface of the slide member 74. The outer peripheral surface of the slide member 74 and the outer peripheral surface of the small diameter portion 71 are flush with each other to form a cylindrical surface as a whole.
The end portion of the first wire 23 is connected to the end surface of the slide member 74 (end surface 76 on the large diameter portion 70 side). Therefore, if the slide member 74 moves as indicated by the arrow G, the first wire 23 also moves in the axial direction thereof. The first wire 23 connected to the slide member 74 extends into the upper case 25 after passing through a through hole 77 formed in the large diameter portion 70.

A link 79 protrudes radially outward from the base 78 of the operation lever 28 and is fixed, and a pin 80 is fixed to the tip of the link 79. A cam member 82 having a cylindrical inner peripheral surface 81 engages with the link 79 and engages with the elongated hole 75 of the slide member 74. A cam groove 83 is formed obliquely in the cam member 82, and the pin 80 of the link 79 is engaged with the cam groove 83.
A locking piece 84 projects from the inner peripheral surface 81 of the cam member 82, and the locking piece 84 engages with the long hole 75. The inner peripheral surface 81 of the cam member 82 is slidably in sliding contact with the outer peripheral surfaces of the slide member 74 and the small diameter portion 71.
Since the locking piece 84 is engaged with the long hole 75, the cam member 82 is movable together with the slide member 74 in parallel with the central axis CL2 as indicated by an arrow G. The cam member 82 slides on the outer peripheral surfaces of the slide member 74 and the small-diameter portion 71 and can rotate in the circumferential direction as indicated by an arrow H about the central axis CL2.
The cylindrical casing 64, the slide member 74, the cam member 84, the link 79, and the like constitute a spout water operation cam mechanism 60.

The cam groove 83 is formed in the cam member 82 at an angle. Therefore, when the operation lever 28 is operated in the direction of the arrow B1 to rotate the link 79, the pin 80 slides in the cam groove 83, so that the cam member 82 is indicated by the arrow G (direction parallel to the central axis CL2). Move to.
The cam member 82 slides in the circumferential direction along the outer peripheral surfaces of the slide member 74 and the small-diameter portion 71, but the locking piece 84 of the cam member 82 can move in the long hole 75 of the slide member 74, so the cam member 82 smoothly slides on the outer peripheral surfaces of the slide member 74 and the small diameter portion 71.
At this time, the slide member 74 also moves in the direction of the arrow G together with the cam member 82, so that the first wire 23 connected to the slide member 74 moves forward and backward in the axial direction thereof.

The cylindrical cam 65 is fitted inside the cylindrical casing 64 and is rotatable about the central axis CL2. A spiral cam groove 85 is formed on the outer peripheral surface of the cylindrical cam 65. A cam follower 86 is engaged with the spiral cam groove 85, and the end of the second wire 24 is connected to the cam follower 86. The second wire 24 is movable in the axial direction through a through hole 87 formed in the cylindrical casing 64.
The cylindrical cam 65 and the cam follower 86 constitute a hot water switching operation cam mechanism 61. In a state where the cylindrical cam 65 is fitted inside the cylindrical casing 64, the cam follower 86 is restricted so as not to move in the circumferential direction but only in a direction parallel to the central axis CL2 (arrow J). Has been.
When the operating lever 28 is operated in the direction of the arrow B2 to rotate the cylindrical cover 66 and the cylindrical cam 65 about the central axis CL2, the helical cam groove 85 also rotates, so that the cam follower 86 is indicated by the arrow J. Move in the direction. As a result, the second wire 24 connected to the cam follower 86 moves in the axial direction thereof.

The valve drive unit 31 is positioned and held inside the cylindrical member 53 in a state of being directly placed on the valve 21. A cylindrical outer casing 100 is fixed to the cylindrical member 53 in a non-rotating state.
A rotational driving cam 101 having a cylindrical outer peripheral surface is disposed inside the outer peripheral casing 100 so as to be concentric with the outer peripheral casing 100 and rotatable.
The rotational drive cam 101 is held in a restricted state so as to perform only a rotational motion in the forward and reverse directions and not to move in the axial direction. When the rotational drive cam 101 rotates, the rotational motion is directly transmitted to the valve 21.

A cam groove 102 is formed obliquely on the outer peripheral surface of the rotation driving cam 101, and a cam follower 103 is engaged with the cam groove 102. The cam follower 103 is connected to the end of the second wire 24. The cam follower 103 is held by the outer casing 100 in a state of being restricted so as to be movable only in the axial direction of the second wire 24 as indicated by an arrow D2.
Therefore, when the second wire 24 moves back and forth in the axial direction, the cam follower 103 connected to the second wire 24 pushes the inner surface of the cam groove 102, so that the rotary drive cam 101 is indicated by an arrow K. Rotating motion.
Since the rotational motion of the rotational drive cam 101 is directly transmitted to the valve 21 below, the valve 21 performs hot water / water switching operation. That is, the rotational motion of the rotational drive cam 101 is transmitted to the rotating member 114 which is a component of the valve 21 to rotate the rotating member 114. As a result, the valve 21 can switch between water and hot water.
A second valve drive cam mechanism 63 is configured by the rotation drive cam 101, the cam follower 103, the outer casing 100, and the like.

A first valve drive cam mechanism 62 is disposed inside the rotation drive cam 101. An engagement hole 105 having a predetermined shape (here, rectangular shape) is formed in the rotation driving cam 101, and a rectangular plate cam 106 is fitted in the engagement hole 105.
The plate cam 106 can be moved only in the axial direction (in the direction of the arrow D1) with respect to the rotational drive cam 101, but is held by the rotational drive cam 101 in a state where it is regulated so as not to rotate relatively. .
When the rotation driving cam 101 rotates, the plate cam 106 and the lever 108 also rotate together with the rotation driving cam 101. However, since the rotation angle (rotation stroke) is limited, the twist due to the rotation is the first. It is absorbed by the wire 23.

A cam groove 107 is formed obliquely in the plate cam 106, and the end portion of the first wire 23 is connected to the upper end surface of the plate cam 106. A lever 108 is rotatably supported by a rotation driving cam 101 by a support shaft 109.
A pin 110 having a cam follower function is attached to the lever 108, and the pin 110 is engaged with the cam groove 107. The pin 110 is located above the support shaft 109, and an engaging portion 111 is formed below the support shaft 109. The lever 108 is rotatable as indicated by an arrow L about the support shaft 109.

The engaging portion 111 engages with the engaged portion 113 of the moving member 112 that is a component of the valve 21 so that the moving member 112 moves linearly as indicated by an arrow E1. The plate cam 106, the lever 108, the support shaft 109, the moving member 112, and the like constitute a first valve driving cam mechanism 62.
Therefore, when the first wire 23 moves in the axial direction, the plate cam 106 moves in the vertical direction relative to the rotational drive cam 101 as indicated by the arrow D1. Then, the pin 110 engaged with the cam groove 107 moves, and the lever 108 rotates as indicated by the arrow L around the support shaft 109.
As a result, the engaging portion 111 of the lever 108 pushes the engaged portion 113, so that the moving member 112 moves linearly as shown by the arrow E1, and the valve 21 performs a water discharge operation.

Next, the operation of the faucet device 1 will be described.
For example, a user who is cooking in front of the system kitchen 2 performs a spouting operation on the operation unit 20, and performs a hot water switching operation as necessary.
As shown by the arrow B1, the water can be stopped by pulling the operation lever 28 toward the front, and the water flows out from the discharge part 13 by pushing the lever to the opposite side. The amount of water is adjusted by adjusting the position of the operation lever 28 (angle in the direction of arrow B1).
In this case, the pin 80 of the link 79 slides in the cam groove 83 of the cam member 82 if the operating lever 28 is rotated in the direction of the arrow B1 about the axis CL1. Then, the cam member 82 slides on the outer peripheral surfaces of the small diameter portion 71 of the cylindrical casing 64 and the slide member 74.
At this time, since the locking piece 84 is engaged with the long hole 75 of the slide member 74, the slide member 74 is linearly guided in the direction of the arrow G parallel to the central axis CL2 of the operation unit 20 while being guided by the guide shaft 73. Exercise.

The linear motion of the slide member 74 is transmitted to the first wire 23 connected to the slide member 74, and the first wire 23 moves forward and backward in the axial direction. Since the first wire 23 is surrounded and restrained by the through hole 77, the first wire restraining tube 54, the first hole 50, and the like, the forward / backward movement of the first wire 23 is caused by the valve drive unit. It is transmitted to 31 plate cams 106.
Then, the plate cam 106 moves in the arrow D1 direction (vertical direction). The lever 108 rotates about the support shaft 109 as shown by an arrow L via the cam groove 107 and the pin 110. Thereby, the engaging portion 111 of the lever 108 causes the moving member 112 of the valve 21 to linearly move as indicated by the arrow E1. Due to the linear motion of the moving member 112, the valve 21 performs a spout water operation.
As a result, one or both of the water pipe 40 and the hot water pipe 41 communicate with the hose 30 to adjust the amount of water, or shut off the communication by blocking the communication. When one or both of the pipes 40 and 41 communicate with the hose 30, one or both of water and hot water flows through the hose 30 and flows out from the discharge unit 13 of the head unit 29.

Next, when switching between hot and cold water, the operation lever 28 is rotated about the central axis CL2 as shown by an arrow B2. For example, when viewed from the user standing in front of the faucet 12, the operation lever 28 is directed to the right to supply water, and the left is directed to supply hot water. The water temperature can be adjusted by selecting an arbitrary temperature by stopping the operation lever 28 at an arbitrary angle therebetween.
Thus, when the operating lever 28 is rotated in the direction of the arrow B2 about the central axis CL2, the cylindrical cover 66 of the operating unit 20 to which the operating lever 28 is attached rotates as indicated by the arrow B2. Then, the cylindrical cam 65 fixed to the cylindrical cover 66 also rotates together.
That is, when the operation lever 28 is rotated in the direction of the arrow B2, the cam member 82 is also rotated about the central axis CL2 as indicated by the arrow H through the pin 80 of the link 79 and the cam groove 83. At this time, since the long hole 75 with which the locking piece 84 engages is elongated in the circumferential direction, the locking piece 84 moves in the circumferential direction in the long hole 75. The cam member 82 rotates freely without affecting the slide member 74.

Since the cylindrical cam 65 rotates, the second wire 24 advances and retreats in the direction of the central axis via the helical cam groove 85 and the cam follower 86. Since the second wire 24 is in a state of being surrounded and restrained by the through hole 87, the second wire restraining tube 55, the second hole 51, and the like, the second wire 24 moves back and forth only in the central axis direction.
The forward / backward movement of the second wire 24 is transmitted to the valve drive unit 31 to rotate the rotational drive cam 101 via the cam follower 103 and the cam groove 102. The angle at which the rotation drive cam 101 rotates corresponds to the angle at which the operation lever 28 is rotated in the arrow B2 direction.
Since the rotation operation of the rotation drive cam 101 is directly transmitted to the rotation member 114 of the valve 21, the rotation member 114 rotates by an arbitrary angle as indicated by an arrow E2. As a result, the mixing ratio of the hot water supplied from the hot water piping 41 is mixed with the water supplied from the water piping 40 in the range of 0 to 100%. The water or hot water whose temperature has been adjusted in this way flows through the hose 30 and flows out from the discharge unit 13.

When water is desired to flow away from the faucet 12, the head portion 29 is pulled forward as indicated by the arrow F. Then, the head unit 29 is pulled out to an arbitrary position away from the operation unit 20.
The hose 30 is inserted through a through-hole 42 formed obliquely in the tubular member 53, and is moved out and stored in the lower case 26 and the upper case 25. The remaining hose 30 hangs below the counter 11, but the lower part of the counter 11 is not visible to the user, so there is no problem in appearance.

As described above, in this embodiment, instead of the conventional electrical operation, the operation unit 20 mechanically performs each operation of switching water and hot water, and the operation at the operation unit 20 is transmitted to the transmission means 22. Is mechanically transmitted to the valve 21. As a result, the operation of the operation lever 28 is mechanically transmitted to the valve 21 immediately, and the valve 21 immediately operates with high sensitivity without causing a time lag.
Since the valve 21 and the valve drive unit 31 for driving the valve 21 are provided at the lower part of the counter 11, the faucet 12 located at the upper part of the counter 11 is very simple in appearance and neat and has good design. It is reduced in weight.
In addition, since the faucet 12 has almost no unevenness due to a conventional lever cartridge or the like, there is no fear that water accumulates in the faucet 12 and water stains are generated, and cleaning is easy and can always be kept clean.
Since the valve 21 and the valve driving unit 31 are not designed, the design of the faucet 12 can be designed with a free idea.

Since the operation unit 20 is disposed at a position close to the user, that is, in the vicinity of the distal end portion of the faucet 12, all users, particularly children and elderly people, can easily operate the operation lever 28.
In the conventional faucet device, there is a case where a shower hose that can be pulled out cannot be provided, but in the faucet device 1 of the present embodiment, a type with a shower hose that can be pulled out can be realized.
Since the faucet device 1 does not use electricity, even when cooking at the system kitchen 2 at high working speeds, it is possible to switch the water and hot water at high speed with high sensitivity, and the wiring work It is unnecessary.

As mentioned above, although the Example of this invention was described, this invention is not limited to the above-mentioned Example, A various deformation | transformation, addition, etc. are possible in the range of the summary of this invention.
In the drawings, the same reference numerals denote the same or corresponding parts.

  The present invention is applicable to a faucet device for flowing water into a water tank such as a system kitchen or a bathroom vanity.

1 to 18 are views showing an embodiment of the present invention, and FIG. 1 is a perspective view showing a part of a system kitchen provided with the faucet device of the present invention. It is the front view which shows the whole water faucet apparatus, and has shown one part by the cross section. It is a perspective view showing the whole faucet device, and a part is shown with a section. It is a disassembled perspective view of a water faucet device. It is a disassembled perspective view which shows a part of water faucet device. It is a perspective view which shows a water tap. It is a perspective view which shows the spout water operation in a water tap. It is a perspective view which shows the hot water switching operation in a water tap. It is a perspective view which shows the state which pulled out the head part in a water tap. It is a perspective view which shows the attachment structure of a faucet. It is a disassembled perspective view of an operation part. It is a disassembled perspective view of the operation part when it sees from another direction. It is a disassembled perspective view which shows the state in the middle of the assembly of an operation part. It is a disassembled perspective view which shows the state in the middle of the assembly of the operation part following the assembly shown in FIG. It is a perspective view which shows the state which integration of the operation part was completed. It is a partial expanded sectional view which shows a valve drive part etc. It is a perspective view of a valve drive part. It is a cross-sectional perspective view which shows the internal structure of a valve drive part.

Explanation of symbols

1 Water faucet device 8 Sink (water tank)
DESCRIPTION OF SYMBOLS 11 Counter 12 Water faucet 13 Discharge part 20 Operation part 21 Valve 22 Transmission means 23 1st wire 24 2nd wire 25 Upper case (case part)
DESCRIPTION OF SYMBOLS 29 Head part 30 Hose 31 Valve drive part 47 Guide means 60 Cam mechanism for spout water operation 61 Cam mechanism for hot water switching operation 62 1st valve drive cam mechanism 63 2nd valve drive cam mechanism

Claims (6)

A faucet is arranged at the top of the counter, and is a faucet device for allowing water to flow from the discharge part of the faucet to the water tank,
An operation part is provided in the vicinity of the tip of the water faucet, a valve for mechanically discharging and stopping water is provided at the lower part of the counter, and a mechanical means for operating the operation part is transmitted. The water faucet device is characterized in that the valve performs at least water discharge and water stop operations. The faucet device according to claim 1,
With respect to the operation unit, it is possible to perform a spout water operation for performing water spout and water stop, and a hot water switching operation for switching between water and hot water,
The valve is capable of a water discharge operation for performing the water discharge and the water stop, and a hot water switching operation for switching between water supply and hot water supply,
The transmission means includes a flexible first wire and a flexible second wire,
The discharge water operation for the operation unit is transmitted to the valve by the first wire, the valve performs the discharge water operation, and the hot water switching operation for the operation unit is performed by the second wire. The water faucet device is characterized in that the valve performs the hot water / water switching operation. The faucet device according to claim 2,
The operation part has a cam mechanism for water discharge operation and a cam mechanism for hot water switching operation,
Converting the first rotational motion by the spout water operation into a forward / backward motion in the direction of the central axis of the first wire by the spout water operation cam mechanism;
2. A faucet device according to claim 1, wherein the second rotary motion caused by the hot water / water switching operation is converted into a forward / backward motion of the second wire in the direction of the central axis by the hot water / water switching operation cam mechanism. The faucet device according to claim 3,
The transmission means has a valve drive unit arranged at the lower part of the counter and connected to the valve,
The valve drive unit converts the forward / backward movement of the first wire into a linear movement in a direction perpendicular to the direction of the forward / backward movement and transmits the linear movement to the valve; A second valve drive cam mechanism that converts the forward / backward movement of the second wire into a rotational movement and transmits the rotational movement to the valve;
The valve performs the water discharge operation when the linear motion is transmitted by the first valve drive cam mechanism, and the hot water when the rotary motion is transmitted by the second valve drive cam mechanism. A faucet device characterized by performing a switching operation.   5. The faucet device according to claim 2, wherein the first wire and the second wire are advanced and retracted in the direction of each central axis while being surrounded and restrained by guide means, respectively. A faucet device that performs only exercise. The faucet device according to any one of claims 1 to 5,
The water faucet includes a hollow case part attached to the counter, a head part disposed at a tip of the case part and having the discharge part, the operation part attached to the case part, and the head part And a bendable hose that is disposed inward of the operation portion and communicates the head portion and the valve,
The water faucet device is characterized in that the head portion to which the hose is connected can be pulled out and moved to an arbitrary position and direction.

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