JP5671827B2 - Faucet device - Google Patents

Description

  The present invention relates to a faucet device, and more particularly, to a faucet device that drives a solenoid valve with electric power of a built-in generator to switch between water stop and water discharge.

  Japanese Patent Laying-Open No. 2009-303436 (Patent Document 1) describes a faucet generator. The faucet generator is built in the faucet body and generates electric power from the flow of water to be discharged from the faucet device. The electric power generated by the faucet generator is used to drive a solenoid valve that switches between water stop and water discharge of the faucet device.

  In this way, when the generator is built in and the electromagnetic valve can be opened and closed with this electric power, the sensor senses the user's finger, and based on this, the electromagnetic valve is opened and closed to switch between water stop and water discharge Automatic faucets can be installed without using an external power source. An automatic faucet that does not require an external power supply operates simply by replacing the existing faucet device installed in a washroom, etc., so it can be installed without choosing the power environment of the installation location There is.

JP 2009-303436 A

  The generator built in the water faucet device is usually arranged on the downstream side of the electromagnetic valve that switches between water stop and water discharge. This is because, when the water pressure is stopped, if the primary pressure of the water supply acts on the generator, the generator is likely to malfunction, and if it is upstream of the solenoid valve, it is difficult to maintain the generator. .

  As described above, when the solenoid valve is arranged on the upstream side of the generator, the space at the base end portion of the faucet device main body is occupied by the solenoid valve. Further, in order to downsize the faucet device body to some extent, it is difficult to incorporate both the solenoid valve and the generator at the base end portion extending substantially in the vertical direction of the faucet device body. For this reason, the generator must be built in a portion extending substantially horizontally from the vertical portion of the faucet device body. If a generator is arrange | positioned in such a part of a faucet device main body, the spout of a faucet device will be arrange | positioned in the height comparable as a generator, or a position lower than a generator.

  When the generator is arranged at a position higher than the spout on the downstream side of the solenoid valve, the tap water filled in the generator flows down through the spout after being switched to the water stop state. , Outside air enters the generator through the water outlet. The air that has entered the generator is not completely pushed out by the flow of tap water even after being switched to the water discharge state, and remains in the generator even in the water discharge state.

  If air stays in the generator, there is a problem that the generator cannot sufficiently receive the energy of the water flow flowing through the generator and the power generation efficiency is lowered. Also, the air staying in the generator may move, resulting in an unstable change in the amount of power generation or, in some cases, a problem with the generator. Furthermore, the air staying in the generator may cause abnormal noise.

  In order to solve this problem, the inventor of the present invention supports the generator so as to easily vibrate within the faucet body, and the generator vibration is excited when the impeller of the generator is rotated during water discharge. Developed a faucet device. In such a faucet device, when the generator is vibrated, the air staying inside is moved and easily discharged together with the water flow flowing in the generator.

  However, if the faucet device is configured so that the generator is easily vibrated, the part that forms the water outlet of the faucet device is also vibrated through the pipes connected to the generator, which generates abnormal noise. A new problem occurred.

  The present invention has been made to solve such a problem, and by making the generator vibrate, the air that has entered the generator can be easily discharged, and a difference that occurs due to the vibration of the generator. An object of the present invention is to provide a faucet device capable of suppressing sound.

In order to solve the above-described problems, the present invention is a faucet device that switches between water stop and water discharge by driving an electromagnetic valve by the electric power of a built-in generator, the faucet device body, and the faucet device An electromagnetic valve that switches between water stop and water discharge and a water discharge port that discharges water that has passed through this electromagnetic valve are formed inside the main body, and are arranged in the water outlet arrangement opening provided on the faucet device main body. The water outlet forming portion is disposed on the downstream side of the electromagnetic valve, and is positioned at the same height or higher than the water outlet inside the faucet device main body, and by the flow of water that has passed through the electromagnetic valve. An impeller-type generator that generates electric power for driving the solenoid valve, vibration excitation means for supporting the generator with respect to the faucet device body so that vibration of the generator is excited, and a spout forming part was ligated with the generator, anda spout pipe for fixing, Between the water inlet forming portion and the water faucet device body, when the vibration of the generator is excited, it is characterized in that water discharge port forming portion is a clearance is provided so as not to contact with water faucet device body.

  In this invention comprised in this way, the water which passed the electromagnetic valve flows in into the generator arrange | positioned downstream, and is discharged from a water outlet. The impeller is rotated by water passing through the generator, and electric power for driving the electromagnetic valve is generated. In addition, since the generator is positioned at the same height as the water outlet or above the water outlet, if outside air enters the faucet body from the water outlet in the water-stopped state, the outside air is generated inside the generator. It will be accumulated in. The generator is supported with respect to the faucet body by vibration excitation means. For this reason, the air accumulated in the generator is likely to be discharged due to the vibration of the generator. The water discharge port forming portion is connected to the generator by a water discharge port side pipe so as not to contact the faucet device main body.

  According to the present invention configured as described above, even when air accumulates inside the generator, the generator is vibrated, so that the air is easily discharged to the outside, and the generator can be stably operated. it can. As a result, the generator can generate stable electric power, and can prevent the generation of noise due to the air staying inside.

  In addition, since the spout forming part is fixed to the spout side piping so that it does not come into contact with the faucet apparatus main body, even when the generator is vibrated, the faucet apparatus main body is connected via the spout forming part. Vibration is not transmitted, and generation of abnormal noise due to vibration transmitted to the faucet device main body can be prevented.

In the present invention, preferably, the water discharge port forming portion is positioned by being retracted inside the water discharge port arrangement opening of the faucet device main body.
According to the present invention configured as described above, the spout is formed even if a gap is provided between the spout formation part and the spout arrangement opening so that the spout formation part does not contact the spout arrangement opening. Since the portion is retracted and positioned, the gap is not easily seen by the user, and the appearance of the faucet device is not impaired.

In this invention, Preferably, it has a clearance gap cover which is further attached to the faucet device main body and covers the clearance gap between a water discharge port formation part and a water discharge port arrangement | positioning opening.
According to the present invention configured as described above, since the gap cover that covers the gap between the water outlet forming portion and the water outlet arrangement opening is provided, the user does not see the gap and the faucet device The appearance is not impaired.

In this invention, Preferably, it has further the fulcrum formation member which elastically supports the water outlet side piping with respect to the faucet device main body.
In the present invention configured as described above, the fulcrum forming member elastically supports the water outlet side pipe connected between the generator and the water outlet forming portion with respect to the faucet device body. For this reason, a generator and a spout formation part vibrate by using the part elastically supported by the fulcrum formation member between them as a fulcrum. As a result, the amplitude of the water discharge port forming portion is smaller than that in the case of vibrating without having a fulcrum. Thereby, the amplitude of the spout formation part becomes large, and it can prevent that a spout formation part and a faucet device main body contact, and generate | occur | produce an abnormal noise. Moreover, it can prevent that the water flow discharged from a water faucet device vibrates and the beauty | look of the discharged flow is impaired by the amplitude of a spout formation part becoming large.

  In the present invention, preferably, the vibration exciting means is configured to excite vertical vibration with respect to the faucet device main body, and the fulcrum forming member can easily vibrate in a direction other than the vertical direction. Thus, the water outlet side piping is elastically supported.

  According to the present invention configured as described above, it is possible to form a fulcrum that elastically supports the water outlet side pipe with a simple structure. In addition, since the configuration is such that the vibration in the vertical direction is excited, the spout formation part is also vibrated mainly in the vertical direction, so the influence of the vibration of the spout formation part on the aesthetics of the discharged flow Can be reduced.

In this invention, Preferably, the bending | flexion allowance part which is arrange | positioned between a water outlet side piping and a generator, and accept | permits the bending between a water outlet side piping and a generator is provided.
In the present invention configured as described above, since the bending allowance portion is provided between the water outlet side pipe and the generator, a part of the vibration of the generator is absorbed by the bending allowance portion. As a result, the amplitude of the water discharge port forming part is increased, and the water discharge port forming part and the faucet device main body can be prevented from coming into contact with each other and generating abnormal noise. Moreover, it can prevent that the water flow discharged from a water faucet device vibrates and the beauty | look of the discharged flow is impaired by the amplitude of a spout formation part becoming large.

  According to the faucet device of the present invention, by vibrating the generator, it is possible to easily discharge the air that has entered the generator, and to suppress abnormal noise that occurs due to the vibration of the generator.

It is a perspective view showing the whole faucet device by the embodiment of the present invention. It is a block diagram showing roughly the internal structure of the faucet device by the embodiment of the present invention. It is side surface sectional drawing of the faucet apparatus by embodiment of this invention. FIG. 4 is a plan sectional view taken along line IV-IV in FIG. 3. It is a disassembled perspective view of the generator built in the faucet device by the embodiment of the present invention. It is sectional drawing of the elastic member which supports a generator with respect to a faucet device main body. It is sectional drawing which expands and shows the spout vicinity of the faucet device by embodiment of this invention.

Next, preferred embodiments of the present invention will be described with reference to the accompanying drawings.
FIG. 1 is a perspective view showing an entire faucet device according to an embodiment of the present invention.
As shown in FIG. 1, the faucet device 1 of the present embodiment includes a faucet device main body 2, a temperature adjusting knob 4 provided at a base end 2 a of the faucet device main body 2, and a faucet device main body 2. The water outlet 6 provided in the front-end | tip part of the horizontal part 2b of this and the human sensor 8 provided in the front-end | tip of the horizontal part 2b are included.

  In the water faucet device 1 of the present embodiment, when the user holds his / her finger below the water outlet 6, the human sensor 8 detects this, and the built-in electromagnetic valve is automatically opened so that the water outlet 6 It is configured to discharge water. Further, when the human sensor 8 no longer detects a finger, the electromagnetic valve is automatically closed and the water stop state is entered. Further, the temperature adjusting knob 4 is adjusted so that the temperature of the discharged hot water can be adjusted.

Next, with reference to FIG. 2 thru | or FIG. 7, the structure of the faucet device 1 by embodiment of this invention is demonstrated.
FIG. 2 is a block diagram schematically showing the internal structure of the faucet device 1 of the present embodiment. FIG. 3 is a side sectional view of the faucet device 1. 4 is a cross-sectional plan view taken along line IV-IV in FIG. FIG. 5 is an exploded perspective view of the generator built in the faucet device 1. FIG. 6 is a cross-sectional view of an elastic member that supports the generator with respect to the faucet device body. FIG. 7 is an enlarged sectional view showing the vicinity of the water outlet of the faucet device 1.

  As shown in FIG. 2, the faucet device body 2 includes a temperature control valve 10, a solenoid valve 12, an impeller-type generator 14, and a controller 16. A filter (not shown) can be provided on the upstream side of the temperature control valve 10. A constant flow valve (not shown) can be provided between the electromagnetic valve 12 and the generator 14.

  The temperature control valve 10 is built in the base end portion 2a of the faucet device main body 2, and is connected to a hot water supply pipe 18a and a water supply pipe 18b. The temperature control valve 10 is configured to mix hot water and water respectively supplied from each supply pipe based on the setting of the temperature control knob 4, adjust the hot water to an appropriate temperature, and allow the hot water to flow out. Since the temperature control valve 10 is a general one, a detailed description of the configuration is omitted.

  The solenoid valve 12 is built in the base end portion 2a of the faucet device body 2, and is connected to the downstream side of the temperature control valve 10 so that hot water mixed by the temperature control valve 10 flows. The electromagnetic valve 12 is configured to be opened and closed based on a control signal sent from the controller 16. Since this electromagnetic valve 12 is a general one, a detailed description of the configuration is omitted.

  The generator 14 is disposed on the horizontal portion 2b of the faucet device main body 2 so as to be substantially horizontal. The generator 14 is connected so that the hot water that has passed through the solenoid valve 12 flows in through the solenoid valve side pipe 20 and the hot water that has passed through the generator 14 is discharged from the outlet 6 through the outlet side pipe 22. Has been. The electric power generated by the generator 14 is used to operate the solenoid valve 12, the controller 16, the human sensor 8, and the like. The internal structure of the generator 14 will be described later.

  The controller 16 is configured to generate a control signal for opening and closing the electromagnetic valve 12 based on the detection signal input from the human sensor 8. Specifically, the controller 16 includes a microprocessor, a memory, and a program (not shown) for operating these.

  As shown in FIGS. 3 and 4, the generator 14 is attached to the generator water passage forming member 24, the impeller 26 disposed inside the generator water passage forming member 24, and the impeller 26. The power generation magnet 28, the rotating shaft 30 that rotatably supports the impeller 26, and the power generation coil 32 disposed outside the generator water passage forming member 24.

  The generator water passage forming member 24 includes a large diameter portion 24a that forms a substantially cylindrical water passage inside, a small diameter portion 24b that forms a substantially cylindrical water passage narrower than the large diameter portion 24a, and a large diameter portion. 24a and a step portion 24c which is a deformation allowing portion connecting the small diameter portion 24b. The large diameter portion 24a and the small diameter portion 24b constitute a generator water passage inside thereof.

  An impeller 26 is rotatably disposed inside the large diameter portion 24a. The impeller 26 is arranged so that the rotating shaft 30 thereof coincides with the central axis of the large diameter portion 24a, and is configured to rotate around the rotating shaft 30 when hot water flows in the generator water passage. ing. Moreover, as shown in FIG. 3, the generator water flow path forming member 24 is disposed so that the central axis thereof is substantially in the horizontal direction. For this reason, when outside air enters from the spout 6 at the time of water stoppage of the faucet device 1, the outside air collects in the air reservoir chamber 24d at the inside upper portion of the large diameter portion 24a. That is, the air reservoir chamber 24d is a space located at the uppermost position in the water passage in the faucet device main body 2, and the intruded air floats up in the water passage and is collected in the air reservoir chamber 24d.

  The small-diameter portion 24b is a tube having a smaller diameter than the large-diameter portion 24a, and is formed so that its central axis coincides with the central axis of the large-diameter portion 24a. A bearing portion 34 that supports the downstream end side of the rotating shaft 30 is disposed at the upstream end of the small diameter portion 24b. That is, the bearing portion 34 is disposed adjacent to the step portion 24c.

  The step portion 24c is formed so as to connect the large diameter portion 24a and the small diameter portion 24b by a wall surface in a direction orthogonal to the central axis. In the present embodiment, the step portion 24c is formed to be thin, and when the force acts on the generator water passage forming member 24, the step portion 24c is mainly deformed. Yes.

  The bearing portion 34 is a substantially cylindrical member that is fitted inside the small diameter portion 24b. A bearing hole 34a that receives the rotary shaft 30 is provided on the central axis thereof, and a perforation that allows hot water to pass therethrough is provided around the bearing hole 34a. A plurality of holes 34b are provided. As described above, the bearing portion 34 is disposed adjacent to the step portion 24c, thereby acting to limit the deformation amount of the step portion 24c.

  On the other hand, the upstream end side of the rotating shaft 30 is rotatably supported by a bearing hole 36 a provided in the center of the baffle plate 36. The baffle plate 36 is a circular shallow cup-shaped plate, and a bearing hole 36a is provided at the center thereof. The baffle plate 36 is disposed inside the large diameter portion 24a so as to block the central portion of the water passage. The hot water flowing into the large diameter portion 24a from the upstream side is guided to the peripheral portion of the large diameter portion 24a by the baffle plate 36, and the gap between the outer peripheral portion of the baffle plate 36 and the inner wall surface of the large diameter portion 24a is set downstream. Flowing. Next, when the hot water passes through the baffle plate 36, the hot water flows from the peripheral edge of the baffle plate 36 toward the center of the large diameter portion 24 a to rotate the impeller 26. Further, the metal rotating shaft 30 extends through the impeller 26 from the baffle plate 36 to the bearing portion 34 so as to cross the stepped portion 24c. For this reason, the deformation amount of the stepped portion 24 c is limited by the rotating shaft 30.

  The impeller 26 is a substantially cylindrical member, and a rotation shaft 30 is attached along the central axis thereof. A blade 26 a is provided on the upstream end side of the impeller 26, and the impeller 26 is rotated by the flow of hot water from the peripheral edge of the baffle plate 36 toward the center. An impeller water passage 26b penetrating in the axial direction is provided inside the impeller 26, and hot water collected from the periphery to the center flows into the small diameter portion 24b through the impeller water passage 26b. It is like that. Further, the outer periphery of the impeller 26 is reduced in diameter on the downstream side, and a power generation magnet 28 is attached to the reduced diameter portion.

The power generation magnet 28 has a generally annular shape, and N poles and S poles are alternately formed along the circumference thereof.
The power generating coil 32 is formed in an annular shape and is disposed so as to surround the small diameter portion 24 b of the generator water passage forming member 24. Further, the upstream end portion of the power generation coil 32 is in contact with the step portion 24 c of the generator water passage forming member 24. Since the power generation coil 32 is in contact with the stepped portion 24c, the deformation amount of the stepped portion 24c (deformation allowing portion) when the generator 14 is vibrated is limited. The power generation coil 32 and the power generation magnet 28 are arranged side by side in the axial direction of the generator water passage forming member 24. When the power generation magnet 28 is rotated together with the impeller 26, an electromotive force is generated in the power generation coil 32. Will occur. As described above, the generator 14 is provided with the impeller 26, the power generation magnet 28, and the power generation coil 32 in order from the upstream side.

Further, as shown in FIG. 5, the generator 14 includes a waterproof cover 38 and a pole piece 40.
The waterproof cover 38 is a generally cylindrical member attached so as to cover a part of the generator water passage forming member 24. The waterproof cover 38 extends from a portion on the upstream side of the small diameter portion 24b to a portion on the downstream side of the large diameter portion 24a, and is disposed so as to cover a part thereof. Further, the power generating coil 32 and the magnetic pole piece 40 are accommodated in a space between the outer surface of the generator water passage forming member 24 and the inner surface of the waterproof cover 38, and the positional deviation of the magnetic pole piece 40 when the generator 14 is vibrated. Is prevented. The waterproof cover 38 is dimensioned so that the power generating coil 32 is sandwiched and fixed between the waterproof cover 38 and the step portion 24 c of the generator water passage forming member 24. O-rings are disposed between the waterproof cover 38 and the large diameter portion 24a and between the waterproof cover 38 and the small diameter portion 24b, respectively, so that hot water does not enter the waterproof cover 38. Moreover, since the waterproof cover 38 is arrange | positioned so that the step part 24c may be crossed from the small diameter part 24b to the large diameter part 24a, the deformation | transformation amount of the step part 24c when the generator 14 is vibrated is restrict | limited.

  The pole piece 40 is made of a thin plate of magnetic material, and is formed so as to surround the inner peripheral side and the outer peripheral side of the power generating coil 32. The pole piece 40 has a plurality of claw portions 40a extending from the power generating coil 32 so as to surround the large diameter portion 24a. Each nail | claw part 40a is extended in the axial direction of the large diameter part 24a so that the outer peripheral surface of the large diameter part 24a may be contacted. Since the power generation magnet 28 is accommodated inside the large diameter portion 24 a, the magnetism of the power generation magnet 28 is guided to the power generation coil 32 via the claw portion 40 a of the magnetic pole piece 40. Further, since each claw portion 40 a of the magnetic pole piece 40 extends so as to surround the large diameter portion 24 a, the deformation amount of the step portion 24 c is limited by the magnetic pole piece 40.

Next, a fixing structure of the generator 14 will be described with reference to FIGS.
As shown in FIG. 4, a water outlet side water passage forming member 42 is connected to the tip of the small diameter portion 24 b of the generator water passage forming member 24. The water outlet side water passage forming member 42 functions as the water outlet side pipe 22 (FIG. 2). Further, water outlet side support brackets 42 a are formed on both side surfaces of the water outlet side water passage forming member 42. Further, a packing 42b is disposed between the water outlet side water passage forming member 42 and the small diameter portion 24b, and water tightness between the small diameter portion 24b and the water outlet side water passage forming member 42 is ensured.

  Further, as shown in FIG. 7, a water discharge port forming ring 44 that is a water discharge port forming portion and a flow regulating member 46 are attached to the tip of the water discharge port side water passage forming member 42. The water outlet forming ring 44 is a cylindrical member, and hot water that has passed through the small diameter portion 24 b and the water outlet side water passage forming member 42 is discharged through the inside of the water outlet forming ring 44. The water discharge port forming ring 44 is disposed inside the water discharge port disposition opening 2 c provided at the distal end portion of the faucet device main body 2. A gap is provided between the water outlet arrangement opening 2 c and the water outlet forming ring 44, and the water outlet forming ring 44 is fixed so as not to contact the faucet device body 2. Further, the lower end of the water discharge port forming ring 44 is positioned by being retracted inward from the water discharge port arrangement opening 2c. Further, a gap between the outer peripheral surface of the water discharge port forming ring 44 and the water discharge port arrangement opening 2 c is covered with a gap cover 48. Furthermore, the water outlet side water passage forming member 42 is in contact with the faucet device main body 2 via the support packing 50 which is a fulcrum forming member. In this manner, the water outlet side water passage forming member 42 is elastically supported by the support packing 50.

  On the other hand, as shown in FIG. 4, the large-diameter portion 24a of the generator water passage forming member 24 includes a stepped cylindrical first electromagnetic valve side water passage forming member 52 and a second electromagnetic valve side water passage forming member. 54 is inserted, and the third electromagnetic valve side water passage forming member 56 is connected to the second electromagnetic valve side water passage forming member 54. The first solenoid valve side water passage forming member 52, the second solenoid valve side water passage forming member 54, and the third solenoid valve side water passage forming member 56 function as the solenoid valve side pipe 20. The third solenoid valve side water passage forming member 56 is provided with a magnetic valve side support bracket 56a. A packing 52 a is disposed between the large diameter portion 24 a and the first solenoid valve side water passage forming member 52, and between the first solenoid valve side water passage forming member 52 and the second solenoid valve side water passage forming member 54. A packing 54a is disposed, and a packing 56b is disposed between the second solenoid valve side water passage forming member 54 and the third solenoid valve side water passage forming member 56, and water tightness between these members is ensured. ing.

  As described above, in the water outlet side pipe 22, the packing 42 b is disposed between the water outlet side water passage forming member 42 and the small diameter portion 24 b, whereas in the electromagnetic valve side pipe 20, each electromagnetic valve side A packing 52a, a packing 54a, and a packing 56b are disposed between the water passage forming members. For this reason, the solenoid valve side pipe 20 has a larger room for deformation due to packing than the water outlet side pipe 22, and the solenoid valve side pipe 20 is configured to be more easily deformable than the water outlet side pipe 22. . In addition, the connecting portion through the packing 42b between the small diameter portion 24b of the generator water passage forming member 24 and the water outlet side water passage forming member 42 is bent between the water outlet side pipe 22 and the generator 14. Functions as an allowable bending allowable portion.

  Next, with reference to FIG.4 and FIG.6, the attachment structure with respect to the faucet device main body 2 of the generator 14 is demonstrated. 6A is a cross-sectional view showing a support structure of the water outlet side support bracket 42 a of the water outlet side water passage forming member 42, and FIG. 6B is an electromagnetic valve of the third electromagnetic valve side water passage forming member 56. It is sectional drawing which shows the support structure of the side support bracket 56a.

  As shown in FIG. 4, the generator 14 includes a water outlet side support bracket 42 a of a water outlet side water passage forming member 42 and a third solenoid valve side water passage forming member 56, which are members separate from the generator 14. Is attached to the faucet device main body 2 via a solenoid valve side support bracket 56a.

  As shown to Fig.6 (a), the water outlet side support bracket 42a is attached to the faucet apparatus main body 2 with the screw | thread 58a via the water outlet side rubber bush 58 which is an elastic member. Further, as shown in FIG. 6B, the solenoid valve side support bracket 56a is attached to the faucet device main body 2 by a screw 60a through a solenoid valve side rubber bush 60 which is an elastic member.

  The water outlet side rubber bush 58 and the solenoid valve side rubber bush 60 constitute vibration excitation means. In other words, the generator 14 is supported by the water outlet side rubber bush 58 and the electromagnetic valve side rubber bush 60 in a state in which it is very easily vibrated. On the other hand, in the generator 14, the power generation magnet 28 is rotated together with the impeller 26, and relative rotation occurs between the power generation magnet 32 and the fixed power generation coil 32. Thereby, an electromotive force is generated in the power generation coil 32 and an electromagnetic force is generated between the power generation magnet 28 and the power generation coil 32. Since the electromagnetic force changes depending on the relative rotational position between the power generation magnet 28 and the power generation coil 32, the electromagnetic force changes in a vibrational manner when the power generation magnet 28 is rotated. Due to the synergistic effect of this vibrational force and the support by the vibration excitation means of the generator 14, vibration is excited in the generator 14. In particular, in the present embodiment, by adopting a single-layer coil as the power generation coil 32, the fluctuation of the generated electromagnetic force is increased, and the vibration of the generator 14 can be excited effectively.

  Here, the electromagnetic valve side rubber bush 60 is formed to have a thicker portion sandwiched between the bracket and the faucet device body 2 than the water outlet side rubber bush 58. Therefore, the force required to cause a certain amount of elastic deformation is smaller in the electromagnetic valve side rubber bush 60 than in the water outlet side rubber bush 58. In other words, the force required to displace upward or downward by a certain distance is configured such that the solenoid valve side support bracket 56a is smaller than the water discharge side support bracket 42a. That is, the generator 14 is supported so that the upstream side is vibrated more greatly than the downstream side.

  Further, the water outlet side rubber bush 58 and the solenoid valve side rubber bush 60 are mainly configured to allow vibration of the generator 14 in the vertical direction. On the other hand, the support packing 50 that elastically supports the water outlet side water passage forming member 42 is disposed on a plane inclined with respect to the horizontal. For this reason, the support packing 50 acts mainly to allow vibrations in a direction inclined with respect to the vertical direction. Compared with vibrations in this direction, the support packing 50 supports vibrations in the vertical direction. 50 restrains vibration. As a result, the generator 14 vibrates with the support packing 50 as a fulcrum with respect to vertical vibration, and the amplitude of the vertical vibration of the generator 14 increases as the distance from the support packing 50 increases. This vertical vibration is allowed by the water outlet side rubber bush 58 and the electromagnetic valve side rubber bush 60. On the other hand, with respect to the vibration on the downstream side of the support packing 50, the water outlet forming ring 44 attached to the downstream side of the water outlet side water passage forming member 42 provides a gap with respect to the water outlet arrangement opening 2c. Since it is attached so as not to contact the apparatus main body 2, it is not restrained. Since the lower end of the spout forming ring 44 is located closer to the support packing 50 than the generator 14, the amplitude of vibration with the support packing 50 as a fulcrum is larger than that of the lower end of the spout forming ring 44. The machine 14 is larger.

Next, the operation of the faucet device 1 according to the embodiment of the present invention will be described.
First, when the user holds his / her finger over the human sensor 8 provided at the tip of the faucet device body 2, the human sensor 8 detects this and sends a signal to the controller 16. When the human sensor 8 detects a finger, the controller 16 sends a signal to the electromagnetic valve 12 to switch the electromagnetic valve 12 to an open state. When the solenoid valve 12 is opened, hot water and water supplied via the hot water supply pipe 18a and the water supply pipe 18b are supplied to the temperature control valve 10, respectively. The supplied hot water and water are mixed inside the temperature control valve 10, flow as shown by arrows in FIG. 3, and reach the generator 14. That is, the supplied hot water and water are adjusted to the temperature set by the temperature adjusting knob 4 by the temperature adjusting valve 10 and flow out. The hot water flowing out of the temperature control valve 10 passes through the open electromagnetic valve 12.

  The hot water that has passed through the solenoid valve 12 is a third solenoid valve side water passage forming member 56, a second solenoid valve side water passage forming member 54, and a first solenoid valve side water passage forming member 52 that constitute the solenoid valve side pipe 20. To reach the generator 14. Next, the hot water that has flowed into the large diameter portion 24a of the generator water passage forming member 24 flows around the baffle plate 36 disposed at the center of the large diameter portion 24a, and enters the blade 26a of the impeller 26 from the side surface. Hit (see arrow in FIG. 3). The impeller 26 is rotated by the flow of hot water in a direction substantially perpendicular to the rotation shaft 30 of the impeller 26. The hot water that has rotated the impeller 26 passes through the impeller water passage 26 b provided in the impeller 26, the through hole 34 b provided in the bearing portion 34, and the small diameter portion 24 b of the generator water passage forming member 24. 14 flows out. The hot water that has passed through the generator 14 flows into the water outlet side water passage forming member 42 that constitutes the water outlet side pipe 22, and passes through the water outlet forming ring 44 and the rectifying member 46 that are connected to the water outlet side water passage forming member 42. Discharged.

  Further, the power generation magnet 28 attached to the impeller 26 is rotated with the rotation of the impeller 26, and the magnetic field formed around the power generation magnet 28 is changed. This change in the magnetic field is induced in the power generating coil 32 by the magnetic pole piece 40, and an electromotive force is generated in the power generating coil 32. The electric power generated by the generator 14 is charged in a charger (not shown) built in the controller 16 and used for opening and closing the electromagnetic valve 12, operating the human sensor 8, and operating the controller 16 itself. .

  Next, when the user's finger is no longer detected by the human sensor 8, the controller 16 sends a signal to the electromagnetic valve 12 to switch it to the closed state. Thereby, the water faucet device 1 is brought into a water stop state. After the water faucet device 1 is in a water stop state, the hot water inside the solenoid valve side pipe 20, the water outlet side pipe 22, and the generator water path forming member 24, which is a water passage downstream of the solenoid valve 12, Gravity acts and tries to make hot water flow down from the spout 6 located below these water channels. On the other hand, a rectifying member 46 is disposed in the water discharge port 6, and hot water flowing out from the water discharge port 6 flows out through a large number of pores provided in the rectifying member 46. For this reason, surface tension acts against the gravity which tries to flow down the internal hot water, and the outflow of the hot water in the water passage is suppressed. However, part of the hot water in the water passage flows out through the pores of the rectifying member 46, and the outside air enters the water passage instead of the outflowing hot water. Further, hot water in the water passage is also reduced by being evaporated to the outside air.

  The outside air that has entered the water passage becomes bubbles and floats in the water passage and is moved upward. Thereby, the invaded outside air gathers in the air reservoir chamber 24d (FIG. 3) which is a portion above the large diameter portion 24a which is the uppermost space in the water passage. Air that has entered the water passage, particularly the generator 14, adversely affects the operation of the generator 14, lowers the power generation efficiency, and makes the power generation unstable. Furthermore, the intruded air may generate abnormal noise from the generator 14 or shorten the life of the generator 14 if the influence is great. In addition, the air accumulated inside the generator 14 is not easily pushed out by the hot water flowing inside even after being discharged, and in the conventional faucet device, the air is not contained in the generator 14. Remains accumulated.

  In the faucet device 1 according to the embodiment of the present invention, the generator 14 is configured to easily vibrate with respect to the faucet device body 2 by the water outlet side rubber bush 58 and the solenoid valve side rubber bush 60. Yes. For this reason, when the faucet device 1 is discharged, vibration is excited in the generator 14 due to the flow of hot water inside the generator 14. When vibration is generated in the generator 14, the air accumulated inside is moved and easily discharged together with hot water flowing inside. In particular, since the vane 26a of the impeller 26 is disposed in the air reservoir chamber 24d in which the invading air is accumulated, when the bubbles are moved by the vibration of the generator 14, the bubbles are easily caused by the rotation of the vanes 26a. It is stirred into the flow and discharged with hot water.

  Furthermore, since the solenoid valve side rubber bush 60 is configured to allow vibration more easily than the water outlet side rubber bush 58, the upstream side of the generator 14 where the air reservoir chamber 24d is located is larger than the downstream side. Vibrated. Thereby, the discharge of air in the air reservoir chamber 24d is promoted. Further, an impeller 26 having a relatively light weight is disposed on the upstream side of the generator 14, and a heavy power generating coil 32 and a power generating magnet 28 are disposed on the downstream side. The side is more easily vibrated with a larger amplitude than the downstream side.

  Moreover, in order to vibrate the generator 14, the solenoid valve side piping 20 and the water discharge side piping 22 connected to this need to be deformed. Here, the solenoid valve side pipe 20 is configured by interposing a packing 52a, a packing 54a, and a packing 56b between the respective members, whereas the water outlet side pipe 22 is provided with a packing 42b. However, the solenoid valve side pipe 20 is easily deformed.

  Further, the water discharge port side of the generator 14 is connected to a water discharge port side water passage forming member 42 configured separately, and is formed by a water discharge port side rubber bush 58 via a water discharge port side support bracket 42a provided on the water discharge port side water passage forming member 42. It is supported by the faucet body 2. Further, the electromagnetic valve side of the generator 14 is connected to a third electromagnetic valve side water passage forming member 56 configured separately, and the electromagnetic valve side rubber bush via the electromagnetic valve side support bracket 56a provided thereon. 60 is supported by the faucet body 2. For this reason, relative movement between the generator 14 and a member supporting the generator 14 is allowed, and the generator 14 is more easily vibrated.

  Further, when the generator 14 is vibrated, the spout side pipe 22 connected thereto is also vibrated, but the spout forming ring 44 attached to the tip thereof is not in contact with the faucet device body 2. Since it is arranged in the water outlet side pipe 22, the vibration of the generator 14 is not hindered by the water outlet forming ring 44. Moreover, since it is comprised so that the faucet apparatus main body 2 and the spout formation ring 44 may not contact, generation | occurrence | production of the noise by the vibration of the spout formation ring 44 being transmitted to the faucet apparatus main body 2 can be prevented. it can.

  Further, the water outlet side water passage forming member 42 constituting the water outlet side pipe 22 is elastically supported by the supporting packing 50 with respect to the faucet device body 2. For this reason, the vibration of the generator 14 is generally a vertical vibration with the support packing 50 as a fulcrum. Here, since the water discharge port forming ring 44 is disposed closer to the support packing 50 than the generator 14, the vibration with the support packing 50 as a fulcrum is compared in amplitude on the water discharge port forming ring 44 side. Even if the generator 14 is vibrated greatly, the flow of hot water discharged from the spout formation ring 44 is not greatly shaken. Further, the vibration of the water discharge port forming ring 44 is increased, and it is possible to prevent the generation of noise due to contact with the faucet device body 2.

  Further, a packing 42b is disposed between the small diameter portion 24b of the generator 14 and the water outlet side water passage forming member 42 to form a bending allowance portion. For this reason, a part of the vibration of the generator 14 is absorbed by the bending allowance portion, the vibration transmitted from the generator 14 to the water discharge port forming ring 44 is reduced, and the vibration of the water discharge port forming ring 44 is reduced. For this reason, the vibration of the spout forming ring 44 is increased, and it is possible to prevent the generation of noise due to contact with the faucet device body 2.

  In addition, since the spout forming ring 44 is disposed so as to be retracted inside the spout opening 2c of the faucet device body 2, even if the spout forming ring 44 is vibrated, it is visually recognized from the outside. It is difficult and does not impair the appearance of the faucet device 1. Further, since the gap between the spout forming ring 44 and the spout opening 2c is covered by the gap cover 48, even if a gap is provided between the faucet device body 2 and the spout forming ring 44. The appearance of the faucet device 1 is not impaired, and the vibration of the water discharge port forming ring 44 is not visible from the outside.

  Further, when the generator 14 is vibrated, a force that deforms the generator water passage forming member 24 acts on the generator water passage forming member 24. In particular, this force is likely to concentrate on the step portion 24c connecting the large diameter portion 24a and the small diameter portion 24b. By configuring the step portion 24c as a deformable portion, the generator water passage forming member 24 is easily deformed. The acting stress is released. However, if the step 24c is excessively deformed, the generator water passage forming member 24 may be destroyed. Therefore, the power generating coil 32 is disposed adjacent to the step 24c, and the step 24c is deformed. Preventing it from becoming excessive.

  Further, the claw portion 40a of the pole piece 40 is disposed so as to cross the step portion 24c, and limits the deformation amount of the step portion 24c. Further, since the bearing portion 34 is fitted inside the small diameter portion 24b adjacent to the step portion 24c, the deformation amount of the inner peripheral portion of the step portion 24c is limited. Further, the rotating shaft 30 of the impeller 26 is also arranged so as to cross the step portion 24c, and the deformation amount of the step portion 24c is limited. In addition, the waterproof cover 38 covers the power generating coil 32 and the magnetic pole piece 40 and is arranged so as to cover the large diameter portion 24a and the small diameter portion 24b on both sides of the step portion 24c. It is also limited by the waterproof cover 38.

  In the faucet device 1 according to the embodiment of the present invention, the generator 14 is positioned above the spout 6, and therefore when outside air enters the faucet device body 2 from the spout 6 in the water stop state. The outside air is accumulated inside the generator 14. The generator 14 has a faucet body 2 so that it is easily vibrated when the impeller 26 is rotated by the water outlet side rubber bush 58 and the electromagnetic valve side rubber bush 60 (FIG. 6) which are vibration excitation means. Is supported against. For this reason, the air accumulated in the generator 14 is easily discharged by the vibration of the generator 14.

  Thereby, even when air accumulates inside the generator 14, the generator 14 is vibrated so that the air is easily discharged to the outside, and the generator 14 can be operated stably. As a result, the generator 14 can generate stable electric power, and can prevent the generation of noise due to the air staying inside.

  Moreover, in the faucet device 1 of the embodiment of the present invention, the spout forming ring 44 is fixed to the spout side piping 22 so as not to contact the faucet device main body 2 (FIG. 7). Even when the water is vibrated, the vibration is not transmitted to the faucet device body 2 through the spout forming ring 44, and the generation of noise due to the vibration transmitted to the faucet device body 2 can be prevented. .

  Furthermore, in the faucet device 1 according to the embodiment of the present invention, a gap is provided between the spout formation ring 44 and the spout arrangement opening 2c so that the spout formation ring 44 does not contact the spout arrangement opening 2c. However, since the spout forming ring 44 is retracted and positioned inside (FIG. 7), this gap is hardly visible to the user and the appearance of the faucet device 1 is not impaired.

  In the faucet device 1 according to the embodiment of the present invention, a gap cover 48 is provided to cover the gap between the water discharge port forming ring 44 and the water discharge port arrangement opening 2c (FIG. 7). Is not visible, and the appearance of the faucet device 1 is not impaired.

  Furthermore, in the faucet device 1 of the embodiment of the present invention, the support packing 50 is connected to the faucet device main body 2 by connecting the spout side pipe 22 connected between the generator 14 and the spout formation ring 44. It is elastically supported (FIG. 7). For this reason, the generator 14 and the water discharge port forming ring 44 vibrate with a portion elastically supported by the support packing 50 therebetween as a fulcrum. As a result, the amplitude of the water discharge port forming ring 44 is smaller than that in the case of vibrating without having a fulcrum. For this reason, when the amplitude of the water discharge port formation ring 44 becomes large, it is possible to prevent the water discharge port formation ring 44 and the faucet device body 2 from coming into contact with each other and generating abnormal noise. Moreover, it can prevent that the water flow discharged from the faucet device 1 is vibrated and the aesthetic appearance of the discharged flow is deteriorated by increasing the amplitude of the water discharge port forming ring 44.

  Further, in the faucet device 1 of the embodiment of the present invention, the water outlet side rubber bush 58 and the solenoid valve side rubber bush 60 are configured to allow vibration in the vertical direction with respect to the faucet device body 2 ( 6), the support packing 50 elastically supports the water outlet side water passage forming member 42 so that it can easily vibrate in a direction other than the vertical direction (FIG. 7). For this reason, it is possible to form a fulcrum that elastically supports the water outlet side water passage forming member 42 with a simple structure. Further, since the water outlet side rubber bush 58 and the electromagnetic valve side rubber bush 60 are configured to allow vibration in the vertical direction, the water outlet forming ring 44 is also vibrated mainly in the vertical direction. The influence of the vibration of the ring 44 on the aesthetics of the discharged flow can be reduced.

  Furthermore, in the faucet device 1 of the embodiment of the present invention, the packing 42b is disposed between the water outlet side water passage forming member 42 and the generator 14 (FIG. 7), and this is the water outlet side water passage forming member 42. It functions as a bending allowable portion that allows bending between the generator 14 and the generator 14. This bendable portion absorbs part of the vibration of the generator 14. As a result, the amplitude of the water discharge port forming ring 44 is increased, and the water discharge port forming ring 44 and the faucet device body 2 can be prevented from coming into contact with each other and generating abnormal noise. Moreover, it can prevent that the water flow discharged from the faucet device 1 is vibrated and the aesthetic appearance of the discharged flow is deteriorated by increasing the amplitude of the water discharge port forming ring 44.

  As mentioned above, although preferable embodiment of this invention was described, a various change can be added to embodiment mentioned above. In particular, in the above-described embodiment, the water outlet side rubber bush 58 and the electromagnetic valve side rubber bush 60 are employed as the vibration excitation means, and the vibration of the generator 14 is excited based on the vibrational force generated in the generator 14. However, as a modification, an actuator for vibrating the generator may be provided separately, and the generator may be supported by the faucet device body by this actuator. Thus, the generator can be vibrated more greatly by configuring the vibration excitation means by the actuator.

DESCRIPTION OF SYMBOLS 1 Faucet device by embodiment of this invention 2 Faucet device main body 2a Base end part 2b Horizontal part 2c Water outlet arrangement opening 4 Temperature control knob 6 Water outlet 8 Human sensor 10 Temperature control valve 12 Electromagnetic valve 14 Generator 16 Controller 18a Hot water supply pipe 18b Water supply pipe 20 Solenoid valve side pipe 22 Water outlet side pipe 24 Generator water passage forming member 24a Large diameter part 24b Small diameter part 24c Step part (deformation allowable part)
24 d Air reservoir chamber 26 Impeller 26 a Blade 26 b Impeller water passage 28 Power generation magnet 30 Rotating shaft 32 Power generation coil 34 Bearing portion 34 a Bearing hole 34 b Through hole 36 Baffle plate 36 a Bearing hole 38 Waterproof cover 40 Magnetic pole piece 40 a Claw portion 42 Water outlet side water passage forming member 42a Water outlet side support bracket 42b Packing 44 Water outlet forming ring (water outlet forming portion)
46 Flow regulating member 48 Gap cover 50 Supporting packing 52 First solenoid valve side water passage forming member 52a Packing 54 Second solenoid valve side water passage forming member 54a Packing 56 Third solenoid valve side water passage forming member 56a Electromagnetic valve side support bracket 56b Packing 58 Water outlet side rubber bush (elastic member, vibration excitation means)
58a Screw 60 Solenoid valve side rubber bush (elastic member, vibration excitation means)
60a screw

Claims (6)

A faucet device that switches between water stop and water discharge by driving an electromagnetic valve with the power of a built-in generator,
A faucet body,
An electromagnetic valve that is arranged inside the faucet body and switches between water stop and water discharge,
A water outlet that discharges water that has passed through the electromagnetic valve is formed, and a water outlet forming portion that is disposed in a water outlet arrangement opening provided in the faucet device body,
The electromagnetic valve is disposed on the downstream side of the electromagnetic valve, is positioned at the same height as the water outlet inside the faucet device body or above the water outlet, and the electromagnetic wave is generated by the flow of water passing through the electromagnetic valve. An impeller-type generator that generates electric power to drive the valve;
Vibration excitation means for supporting the generator with respect to the faucet device body so that vibration of the generator is excited;
On SL spout forming portion and connected with the generator, anda spout pipe for fixing,
A gap is provided between the spout forming part and the faucet device body so that the spout forming part does not come into contact with the faucet device body when vibration of the generator is excited . A faucet device characterized by.   The faucet device according to claim 1, wherein the spout forming portion is positioned by being retracted inward from the spout arrangement opening of the faucet device main body.   The faucet device according to claim 1, further comprising a gap cover attached to the faucet device body and covering a gap between the water discharge port forming portion and the water discharge port arrangement opening.   The faucet device according to claim 1, further comprising a fulcrum forming member that elastically supports the water outlet side pipe with respect to the faucet device body.   The vibration exciting means is configured to excite vertical vibration with respect to the faucet device main body, and the fulcrum forming member is capable of vibrating more easily in other directions than in the vertical direction. The faucet device according to claim 4 which elastically supports the water port side piping.   The faucet device according to claim 5, further comprising a bendable portion that is disposed between the water outlet side pipe and the generator and allows bending between the water outlet side pipe and the generator.

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