JPH10160022A - Water faucet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simplify a special tool and a complex manufacturing process, by storing and retaining in a molded external casing, an internal member equipped with a fluid inlet, a fluid outlet and a passage through which the inlet and the outlet are communicated with each other. SOLUTION: An external casing 316 is molded by using a copper alloy and so on, and has a storage space 317 for storing water faucet main body part 318 in its inside. Also, upper and lower ribs 320, 321 are arranged along a longitudinal direction for retaining the water faucet main body part 318. The outside casing 50 of the water faucet main body part 318 is so prepared that polyphenylenesulfide(PPS) is injection molded, and a detent member 322 is integrally formed on the peripheral surface of the outside casing 50. One end of the water faucet main body part 318 is inserted from the opening part of the end part of the external casing 316, and the external casing 316 and a water inlet 51, and a hot water inlet and a water flowing outlet 170, are matched to each other. The external casing 316 is a mold product, however it required no mechanical work, therefore a manufacturing process can be simplified, the degree of the freedom of a design is enlarged, and a cost can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a faucet for discharging various fluids.

[0002]

2. Description of the Related Art As a water faucet of this type, there is a hot-water mixing faucet which mixes hot and cold water and discharges water alone. The hot water mixing faucet is provided with a hot water mixing mechanism for changing the hot water mixing temperature by adjusting the hot water mixing ratio and a switching mechanism for switching the hot water inside the casing. In addition to the hot water side passage and the water side passage from the hot water side and water side supply pipes to the hot water mixing mechanism, the mixed hot water passage from the hot water mixing mechanism to the water discharge port uses the inner peripheral surface of the casing. It is formed.

By the way, hot water mixing faucets can be changed in temperature of mixed hot and cold water so that they are rapidly spreading as a part of creating a comfortable environment around water. For example,
It is installed not only in kitchens and bathrooms of general households but also in bathrooms and department stores of hotels, toilets at airports and the like.

[0004] The shape of the hot and cold water mixing faucet is, of course,
In order to enhance the atmosphere of the various installation locations, it is required to have a sense of quality. In order to meet such a demand, a casing having the appearance of a hot and cold water mixing faucet has been molded. As described above, if the casing is formed into a mold, the engraving pattern or the like applied to the mold can be transferred to the outer surface of the casing, so that the above-mentioned requirements have been satisfied. Although engraving patterns and the like can be cut and formed on the outer surface of the casing by copying or NC machine tool, it is not realistic because it requires long-time machining and is expensive.

[0005]

However, when the casing is molded, the following problems remain. As described above, the casing incorporates a hot water mixing mechanism and the like, and the inner peripheral surface of the casing is used as a hot water side passage, a water side passage, and a mixed hot water passage inside the faucet. Therefore, various machining processes are required inside the casing in order to secure the sealability, to incorporate the hot and cold water mixing mechanism and to form the passage. Specifically, since the sealing property cannot be ensured with the casting surface as it is, the incorporation of a hot water mixing mechanism or the like and the formation of a uniform passage cannot be performed, a hole for storing the hot water mixing mechanism or an O-ring inside the casing. It requires cutting, turning, polishing, etc., for grooves for placement.

[0006] Machining such as cutting, turning, and polishing of holes and grooves can be easily performed outside the casing. Therefore, special tools and complicated manufacturing processes are required because of the necessity of so-called deburring. That is, complicated machining had to be performed inside the casing. In addition, the above-mentioned problem is pointed out even with a faucet that discharges only water or hot water.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and has as its object to simplify the manufacturing process of a faucet having a high-quality appearance.

[0008]

Means for Solving the Problems and Action / Effect Thereof The means adopted in the faucet of the present invention to achieve the above object has a fluid inlet and an outlet, and a passage communicating the inlet and the outlet. The gist of the invention consists of an inner member and an outer casing that is formed by casting and has a storage space capable of storing the inner member, and that stores and holds the inner member in the storage space.

The faucet having the above-mentioned structure includes all faucets in a state generally used for fluids such as water, hot water, mixed hot and cold water, soapy water, chemical water, mousse, alcohol, and saline. . In addition, the present invention is not limited to those having a valve device inside the faucet, and those without a valve device, such as a faucet in the case where a water stop valve is provided in a shower head without a valve device in the main body of the faucet. Including.

[0010] The water faucet having the above-mentioned structure includes an internal member having a fluid inlet and an outlet and a passage communicating therewith.
It is stored and held in a molded external casing. As a result, it is sufficient to simply store and hold the internal members in the storage space inside the outer casing while maintaining the outer casing forming the faucet as a molded product, in order to ensure sealing performance and to form a passage for water and the like. Eliminates the need for machining. Further, the shape of the outer casing can be changed without being affected by the formation of a passage for water or the like, and the internal member can be shared regardless of the shape of the outer casing.

Here, in molding the outer casing, a castable metal material conventionally used may be used, and examples thereof include bronze, brass, and various copper alloys.

In addition, the faucet of the present invention has the following configuration. First, the outer casing that houses the internal member has an insertion hole that communicates with the housing space and into which the internal member is inserted. Thus, the internal member can be inserted from the insertion hole and stored in the storage space of the outer casing.

Further, the internal member housed and held in the outer casing is provided with a valve device for controlling a fluid flowing through the passage. Accordingly, when the fluid is discharged from the faucet, control thereof, for example, flow rate control can be performed.

Further, the valve device has a housing having a predetermined shape to be inserted into a passage of the internal member, and has at least a part of a function of controlling a fluid in the housing. This facilitates assembling the faucet, and facilitates handling when a failure occurs in the valve device.

In the case where the insertion hole of the molded outer casing is provided with a valve device for controlling the fluid flowing through the passage of the inner member, a communication port for communicating the valve device with its drive unit, or An inlet or an outlet for the fluid to the internal member, or a fixing portion for fixing a faucet to another structure. Thus, the insertion hole can be used also as a communication port of the operating unit of the valve device, a fluid inlet / outlet, and a fixing unit for fixing the faucet to another structure.

Further, the outer casing has a through hole communicating with the inlet and / or outlet of the inner member. Thereby, it is possible to supply a fluid to the internal member through the through hole or to discharge the fluid from the internal member.

Further, the inner member is housed and held in close contact with the outer casing. Thereby, the force (pressure) received by the internal member by the fluid flowing from the supply pipe of the fluid to the faucet into the passage of the internal member is received by the outer casing which is a molded product, and the internal member is directly reinforced from the outside. can do. Therefore, the internal member is made of a so-called engineering plastic having a heat resistance temperature of 100 ° C. or higher, for example, polyphenylene sulfide (abbreviated as PPS), polyacetal (abbreviated as POM), polybutylene terephthalate (abbreviated as PBT), or glass fiber reinforced polybutylene terephthalate (abbreviated as GF / PBT). , Modified polyphenylene oxide (abbreviated PPO), polyimide (abbreviated PI), polyamideimide (abbreviated PAI), polyetheretherketone (abbreviated PEEK), polyethersulfone (abbreviated PE)
S), polysulfone (abbreviated PSF), polyarylate (abbreviated PAR), polyetherimide (abbreviated PEI), and the like.

Further, the inner member is housed and held by partially contacting the outer casing. Thereby, a part where both are not in contact can be formed between the outer casing and the inner member inside the casing.

In storing and holding the internal member by partially contacting the external casing, the internal member is stored and held by a rib provided on at least one of the inner surface of the outer casing and the outer surface of the internal member. . Therefore, this rib can be provided integrally with the outer casing or the inner member at the time of molding of the outer casing or at the time of molding the inner member (in the case of the above-described engineering plastic inner member at the time of molding by injection molding or the like). Becomes By forming the ribs inside the outer casing, it is possible to reduce the thickness of the outer casing.

Further, the rib is provided at the entrance of the internal member and / or
Alternatively, it was configured as an outlet. Thereby, it is possible to supply a fluid to the internal member via the rib and to discharge the fluid from the internal member.

Further, the outer casing houses and holds the inner member via a holding member for holding the inner member inside the casing. That is, the holding member is interposed between the outer casing and the inner member. Thereby, inside the casing, the internal member can be reinforced from outside through the holding member.

Further, the holding member interposed between the outer casing and the inner member is brought into close contact with the outer casing and the inner member. Therefore, the internal member can be reinforced from the outside via the holding member.

Also, the holding member interposed between the outer casing and the inner member is configured to partially contact the outer casing and the inner member. Thereby, a part where both are not in contact can be formed between the outer casing and the inner member inside the casing.

Further, the holding member interposed between the outer casing and the inner member is provided with a passage communicating with the inlet and / or outlet of the inner member. Thereby, a fluid can be supplied to the internal member via the holding member, or the fluid can be discharged from the internal member.

Further, the holding member interposed and held between the outer casing and the inner member is an elastic body. Thereby, even if the fluid pulsates from the supply pipe of the fluid to the faucet and flows into the passage and the internal member vibrates, the vibration can be absorbed by the elastic body and the internal member can be held.

[0026]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the construction of a faucet according to the present invention will be described.
In order to further clarify the operation, a hot and cold mixing faucet, which is a form of a faucet, will be described in detail with reference to the drawings.
FIG. 1 is a plan view of a hot and cold water mixing faucet according to the first embodiment.

As shown in FIG. 1, a hot water mixing faucet 10 according to a first embodiment includes a main body 12 for mixing hot and cold water and discharging and stopping the water, and a water supply leg connected to a water supply pipe (not shown). A metal fitting 20, a hot water supply fitting 40 connected to a hot water supply pipe (not shown), and a curan 14 for discharging hot water, water or mixed hot and cold water.
And The main body 12 includes an outer casing 16 that forms the main appearance of the hot and cold water mixing faucet 10, a faucet main body 18 that is housed and held in the casing and controls mixing and discharging of hot and cold water, and temperature of the mixed hot and cold water. And a switching handle 160 for switching between water discharge and water stoppage from the curran 14 and adjusting the amount of water discharge.

The outer casing 16 is made of a mold made of bronze, brass, various copper alloys or the like so as to house a faucet body 18 described later, and is formed of a cylindrical body having openings at both ends. Goods. The water supply leg fittings 20 and the hot water supply leg fittings 40 are fixed to the fixed leg portions 17a and 17b protruding from the cylindrical body via fasteners 28 as shown in the figure. In addition, a fixing leg 17c (see FIG. 2) fixed to the callan 14 is provided so as to protrude from the cylindrical body.

In molding the outer casing 16, a mold is used in consideration of its casting size so that the faucet body 18 can be housed without any gap. Therefore,
By molding the outer casing 16 into a mold, the faucet main body 18 can be stored in the outer casing 16. In addition,
The fixed leg portion 17 of the outer casing 16 formed by molding.
The threads a to 17c are threaded and bored as necessary to fix them to the curan 14, the water supply leg fitting 20 and the hot water supply leg fitting 40.

As shown in FIG. 2, which is a cross-sectional view taken along the line II of FIG. 1 in which details of the internal mechanism are omitted, the water supply leg fitting 20 includes a housing 22 forming an inflow space on the primary side of water and a housing 22 described later. A connection fitting 26 connected to the water flow path 55 of the faucet main body 18 and a fastener 28 for fixing the fixing leg 17 a of the outer casing 16 are provided. The connection fitting 26 is integrated with the housing 22, is fitted in a fitting insertion hole 25 provided in the fixed leg 17 a, and communicates with the water flow path 55 at the tip. Then, the fastener 28 and the fixed leg 1
The outer casing 16 is fixed to the water supply leg fitting 20 by screwing the threaded portion at the tip of the 7a. In addition, fixed leg 1
7a, a resin U-packing 27 is provided at the end thereof,
O-rings 29 are attached to the distal ends, respectively, to seal between the inner periphery of the fixed leg 17a and the outer periphery of the connection fitting 26, and between the outer periphery of the connection fitting 26 and the water flow path 55, respectively.

A water stop valve 30 is incorporated between the housing 22 and the inlet 21 connected to the water supply pipe. The water stop valve 30 includes a cap 34 which is fastened to the housing 22 in a watertight manner, a valve 32 guided by the cap 34 and the housing 22, and a strainer 38. Valve body 3
2 has a guide part 35 with the housing 22 and an end part 36, and the guide part 35 is provided with an opening 37 that becomes a water passage when water flows. The guide portion 35 is engaged with the housing 22, and has a configuration in which the valve body 32 slides in the axial direction by rotating the valve body 32. Accordingly, by stopping the end portion 36 and the valve seat 23 formed on the housing 22 by rotating the valve body 32, water is stopped or water is passed. At the time of water flow, the water flowing from the gap between the end portion 36 and the valve seat 23 passes through the opening portion 37, and after the dust is removed by the strainer 38, the housing 2
2. The water flows into the water flow path 55 of the faucet main body 18 via the connection fitting 26.

The hot water leg fitting 40 has the same configuration as the hot water leg fitting 20, and flows hot water from a hot water supply pipe (not shown) into the hot water flow path 130 (see FIG. 3) of the faucet body 18. The description of the configuration of the hot water supply leg fitting 40 is omitted. In the fixed leg 17c, as shown in FIG. 2, the connecting metal 26 and the fastener 28 which are connected to the flow path 174 (see FIG. 3) communicating with the curan 14 allow the curran 1 to be fixed.
4 and the fixed leg 17c are connected. Then, similarly to the water supply leg fitting 20, it is sealed by the U packing 27 and the O-ring 29, and the mixed hot and cold water flows out of the flow path 174 into the curran 14. The hot water flow path 130 and the flow path 174
This will be described later.

Next, the structure of the faucet main body 18 housed in the outer casing 16 will be described in detail. As shown in FIG. 3 which is a sectional view (longitudinal sectional view) taken along the line II-II of FIG. 1, the faucet main body 18 is provided with an outer casing 50 that is in close contact with the outer casing 16 and a watertight inside the outer casing 50. And an inner casing 60 to be mounted. In the inner casing 60, a mixing valve cartridge 70 for mixing hot and cold water so that the mixing ratio can be changed.
And a switching valve cartridge 150 for switching the water discharge / stopping water from the curran 14 and adjusting the water discharge amount, respectively, are stored and fixed in a watertight manner.

At both ends of the faucet body 18, a temperature control handle 80 acting on the mixing valve cartridge 70 to change the mixing ratio of hot and cold water, and acting on the switching valve cartridge 150 to discharge and stop water. And a switching handle 160 for switching the water discharge amount and adjusting the water discharge amount, are assembled such that their grip portions are exposed from the outer casing 16.

The outer casing 50 includes a water supply leg fitting 20.
, A hot water inlet 52 connected to the connection fitting 26 of the hot water supply foot fitting 40, and a callan outlet 170 are respectively fixed foot 1
It is formed so as to be concentric with the metal fitting insertion holes 25 of 7a to 17c. By mounting the inner casing 60 in the outer casing 50 in a watertight manner, a water flow path 55 through which water flows in from the water inlet 51 is provided between the two casings.
And a hot water flow path (not shown) through which hot water flows in from the hot water inlet 52 and a flow path 174 through which mixed hot water flows from inside the inner casing 60 as described later.

Therefore, the water flowing from the water inlet 51 into the water flow path 55 flows into the mixing valve cartridge 70 through a hole (not shown) formed in the inner casing 60. On the other hand, the hot water flowing from the hot water inlet 52 into the hot water flow path flows into the mixing valve cartridge 70 through a hole (not shown) formed in the inner casing 60. Then, the hot and cold water is mixed in a mixing valve cartridge 70 described later, and the mixed hot and cold water flows out of the flow path 174 to the curran 14.

The outer casing 50 is formed by injection molding polyphenylene sulfide (PPS), which is a kind of engineering plastic. An engineering plastic is a plastic having a structural material or a high heat and dust resistant plastic having a tensile strength of 50 MPa or more, an impact strength of 50 J / m or more, and a heat deformation temperature of 100 ° C. or more (plastic molding processing). Glossary). The PPS used for the outer casing 50 of this embodiment is a plastic that is particularly excellent in heat resistance, hot water resistance, and pressure resistance. In this embodiment, the inner casing 60 is also formed of PPS. In the embodiment, P
Outer casing 50 etc. were formed by PS, but PPS
Of course, other plastics can be used as long as they are excellent in performance. For example, polyimide (PI), polyamideimide (PAI), polyetheretherketone (PEEK), polyethersulfone (PES), polysulfone (PSF), polyarylate (PAR), polyetherimide (PEI)
Etc. can also be used.

Next, the mixing valve cartridge 70 housed in the outer casing 50 will be described. The mixing valve cartridge 70 includes a temperature-sensitive spring chamber 90, a bias spring chamber 100, and a slide chamber 120. The mixing valve cartridge 70 is provided with a hot water channel 130 on its outer periphery, and the hot water channel 130 and the hot water inlet 52 are formed in the inner casing 60 by the watertight housing of the mixing valve cartridge 70 in the inner casing 60. Communication through the hole.
A hot water port 132, which is a hot water passage from the hot water flow path 130 to the bias spring chamber 100, has a movable valve body 110 to be described later.
A hot water side valve seat 134 is formed on which is seated. Further, the mixing valve cartridge 70 has a water flow path 140 on its outer periphery, and the water flow path 140 and the water inlet 51 communicate with each other through a hole formed in the inner casing 60. This water channel 1
A water-side valve seat 144 on which a movable valve body 110 described later is seated is formed in a water-side port 142 that is a water passage from the 40 to the temperature-sensitive spring chamber 90.

The movable valve body 110 is slidably fitted between the hot water side valve seat 134 and the water side valve seat 144 so as to be seated on one of the hot water side valve seat 134 and the water side valve seat 144. ing. The movable valve element 110 receives the spring force of the temperature-sensitive spring 92 housed in the temperature-sensitive spring chamber 90 through the spring receiver 94 and receives the spring force of the bias spring 102 housed in the bias spring chamber 100, and receives these spring forces. The position is determined by the balance of the spring force. The movable valve body 110 has a communication hole 111 that communicates the bias spring chamber 100 with the temperature-sensitive spring chamber 90.

Therefore, the hot water flowing into the hot water flow passage 130 passes through the gap between the movable valve body 110 and the hot water side valve seat 134 and flows into the bias spring chamber 100, and thereafter, the communication hole 111.
And flows into the temperature-sensitive spring chamber 90. On the other hand, the water that has flowed into the water flow passage 140 is moved by the movable valve body 110 and the water-side valve seat 14.
4 and flows into the temperature-sensitive spring chamber 90. Therefore, hot and cold water is mixed in the temperature-sensitive spring chamber 90, and the mixing ratio is determined by the ratio of the gap between the movable valve body 110 and the valve seats on both sides thereof. The hot and cold water mixed in the temperature-sensitive spring chamber 90 of the mixing valve cartridge 70 is
Flow path 174 via a switching valve cartridge 150 described later
And is discharged from the curran 14.

The temperature-sensitive spring 92 is made of a metal whose elastic coefficient changes according to the temperature. As a metal material whose elastic modulus changes according to the temperature, an alloy belonging to the category of a shape memory alloy (SMA) made of a nickel-titanium alloy is known. As the SMA changes the elastic coefficient according to the temperature, the spring constant of the temperature-sensitive spring 92 changes according to the temperature. On the other hand, the bias spring 102 is formed of a normal spring material having a constant spring constant with respect to temperature.

The bias spring 10 is provided in the slide chamber 120.
A second spring receiver 122 is spline-fitted inside the mixing valve cartridge 70 so as to be axially displaceable and non-rotatable, and a worm 124 fixed to the temperature control handle 80 meshes with an inner screw of the spring receiver 122. ing. Therefore, by rotating the temperature adjustment handle 80,
The worm 124 rotates, the spring receiver 122 slides in the axial direction, and the amount of bias of the bias spring 102 changes.
As a result, the balance between the temperature sensing spring 92 and the bias spring 102 is broken, and the movable valve body 110 is displaced to a new balance position, and a new gap between the movable valve body 110 and the valve seats on both sides thereof is formed. And the temperature of the mixed hot water changes.

After the tapping temperature is set by adjusting the amount of bias of the bias spring 102 by the temperature adjusting handle 80, the tapping temperature is adjusted by the temperature sensing spring 92 and the bias spring 102 as described below.

After the start of tapping, the mixed hot water reaches the set temperature,
When conditions such as the temperature of hot water from the water heater, the temperature of tap water, or the flow rate are in a steady state, the movable valve body 110 is connected to the temperature-sensitive spring chamber 9.
The position is determined by the balance between the spring force of the temperature-sensitive spring 92 and the spring force of the bias spring 102 generated by the temperature of the mixed hot and cold water within 0, and the position is stationary. From this state, when the conditions such as the hot water supply temperature from the water heater, tap water temperature or flow rate fluctuate due to disturbance, and the temperature of the mixed hot water becomes higher than the set temperature, the temperature-sensitive spring 92 sets the spring constant in accordance with the temperature change. To increase the spring force. This allows the temperature-sensitive spring 9
The balance between the spring force of No. 2 and the spring force of the bias spring 102 is lost, and the temperature-sensitive spring 92 increases the preload of the bias spring 102 and displaces the movable valve body 110 to the left in FIG. In accordance with the displacement of the movable valve body 110, the proportion of hot water decreases, and the temperature of the mixed hot water decreases.

Conversely, when the temperature of the mixed hot and cold water becomes lower than the set temperature, the temperature-sensitive spring 92 changes the spring constant in accordance with this temperature change, and reduces its spring force. As a result, the balance between the spring force of the temperature-sensitive spring 92 and the spring force of the bias spring 102 is lost, and the bias spring 102 acts on the temperature-sensitive spring 92, thereby causing the movable valve body 110 to move as shown in FIG.
Displace to the right. In accordance with the displacement of the movable valve body 110, the proportion of water decreases, and the temperature of the mixed hot water rises. The temperature of the mixed hot and cold water is maintained at the set temperature by the action of the temperature sensing spring 92.

The switching valve cartridge 150 has a switching valve 152 rotatably housed in a housing 153 for switching the discharge / stop of mixed hot water and adjusting the amount of discharged water. In addition, an annular flow path 172 for allowing the mixed hot water to flow into the flow path 174 is provided on the outer periphery thereof.
When the switching valve cartridge 150 is housed in the inner casing 60 in a watertight manner, the flow path 172 and the flow path 174 communicate with each other through the communication hole 61 formed in the inner casing 60. The hot and cold water mixed in the temperature-sensitive spring chamber 90 is supplied to the switching valve 152.
2, an inflow chamber 154 that flows in from the end face is formed,
A valve body 155 is attached to the switching valve 152 so as to cover the inflow chamber 154. On the other hand, the housing 15
3 is provided with a hot water passage hole 156 whose opening area is variable through a valve element 155 by rotation of the switching valve 152 and communicates with the flow path 172. Switching valve 1
52 is fixed to the switching handle 160, and by switching the switching handle 160, the switching valve 152 rotates.

Therefore, by rotating the switching valve 152 via the switching handle 160, the switching valve 15 is rotated.
The hot water passage hole 156 is opened by the second valve element 155, and the mixed hot and cold water having an amount of water discharge according to the opening area is supplied to the flow path 172,
Water is discharged from the curran 14 through the communication hole 61 and the flow path 174 of the inner casing 60. In other words, the switching valve cartridge 150 performs switching of water discharge / stopping of mixed hot water from the curran 14 and adjustment of the water discharge amount.

Next, the manner of assembling the hot and cold mixing faucet 10 will be described. First, the faucet main body 18 is fitted into an outer casing 16 molded as a cylindrical body through an opening at the end thereof. At this time, the water inlet 51 of the faucet body 18 and the metal fitting insertion hole 25 of the fixed leg 17a of the outer casing 16, the hot water inlet 52 of the faucet body 18 and the fixed leg 1 of the outer casing 16 are provided.
7b, the callan outlet 170 in the faucet main body 18, and the fixed leg 1 in the outer casing 16.
The metal fitting insertion holes 25 of 7c are aligned with each other. In this manner, the faucet body 18 is housed in close contact with the outer casing 16. Since the outer casing 50 of the faucet main body 18 is provided with O-rings 56 at the outer peripheral ends thereof, the faucet main body 18 is housed and fixed in the outer casing 16 by fitting the faucet main body 18. At the same time, the faucet body 18 does not inadvertently shift in the longitudinal direction.

Next, the water supply leg fitting 20, the hot water supply leg fitting 40
Then, the connection fitting 26 of the callan 14 is inserted into the fitting insertion hole 25 of each of the fixing legs 17a to 17c of the outer casing 16, the water inlet 51, the hot water inlet 52, and the callan outlet 170 of the faucet main body 18, respectively. After that, each leg fitting and the curan are mixed with the hot and cold water mixing faucet 10 by the fastener 28.
The water and hot water passages are connected to the water supply pipe and the hot water supply pipe by being fixed to the outer casing 16 of the water heater. And the temperature adjustment handle 8
0, The switching handle 160 is assembled to both ends of the faucet main body 18 to complete the hot and cold mixing faucet 10.

As described above, in the hot and cold water mixing faucet 10 of the first embodiment, the outer casing 16 forming the appearance of the hot and cold water mixing faucet 10 is a molded product. It is sufficient if the faucet main body 18 can be stored.
0, no machining for assembling the switching valve cartridge 150 and forming a passage for water, hot water or the like is required. As a result, according to the hot and cold water mixing faucet 10 of the first embodiment,
It is possible to simplify the manufacturing process of the hot and cold water mixing faucet with a sense of quality.

Further, since the faucet main body 18 only needs to be accommodated inside the outer casing 16, the faucet main body 18 is cast inside the outer casing 16 in the hot water mixing faucet 10 of the first embodiment. Can be stored as skin. As a result, the hot and cold water mixing faucet 10 of the first embodiment is obtained.
According to this, since no machining is required inside the outer casing 16 for accommodating the faucet body 18, the manufacturing process of the hot and cold mixing faucet can be further simplified. Furthermore,
Since the casting surface remains as it is, the corrosion resistance of the hot and cold water mixing faucet 10 can be improved.

In addition, the shape of the outer casing 16 is changed to the mixing valve cartridge 70 and the switching valve cartridge 150.
Can be changed without being influenced by the incorporation of water, the formation of a passage for water, hot water and mixed hot water, and the like. For this reason,
In the hot and cold water mixing faucet 10 of the first embodiment, the outer casing 1
6, the degree of freedom of design can be expanded. Therefore, according to the hot and cold water mixing faucet 10 of the first embodiment, it is possible to diversify the appearance (design) of the hot and cold water mixing faucet having a sense of quality. Further, since the faucet main body 18 can be made common regardless of the shape of the outer casing 16, according to the hot and cold mixing faucet 10 of the first embodiment, the cost can be reduced through the common use of the members.

In the hot and cold water mixing faucet 10 of the first embodiment, when the faucet main body 18 is housed and fixed in the outer casing 16, the faucet main body 18 is brought into close contact with the outer casing 16. Therefore, the faucet body 18 can be reinforced from the outside by the outer casing 16. Therefore,
According to the hot and cold water mixing faucet 10 of the first embodiment, the faucet main body 1
8 can be formed of various engineering plastics, and the weight of the hot and cold water mixing faucet 10 can be reduced.

Further, in manufacturing the hot and cold water mixing faucet 10, the faucet main body 18 is fitted into the opening of the outer casing 16 formed by molding, and the faucet main body 18 is housed and fixed in the outer casing 16. It is only necessary to fix the outer casing 16 to the water supply leg fitting 20, the hot water supply leg fitting 40, and the callan 14 via the fastener 28. Therefore, since the outer casing 16 does not need to be separately formed or assembled, the hot and cold water mixing faucet 10 can be easily manufactured.

Further, the hot and cold water mixing faucet 10 of the first embodiment is
The following effects are obtained. The hot and cold water mixing faucet 10 includes a mixing valve cartridge 70 and a switching valve cartridge 150 as valve devices in a faucet main body 18 housed and fixed in the outer casing 16. For this reason, according to the hot and cold water mixing faucet 10, for hot water or water flowing through the passage of the faucet main body 18, the flow is stopped or switched, the mixing of hot and cold water and the adjustment of the mixing ratio, and the adjustment of the water discharge amount are performed. And various other controls can be performed. As the hot and cold mixing faucet 10, a valve device having a housing such as the mixing valve cartridge 70 and the switching valve cartridge 150 was used. Therefore, according to the hot and cold water mixing faucet 10, it is possible to easily assemble these valve devices, and to easily exchange the valve devices even when a failure occurs in the valve devices. The hot and cold water mixing faucet 10 is provided with a communication port for connecting the end of the opening of the outer casing 16 formed by molding to the mixing valve cartridge 70, the switching valve cartridge 150, and the temperature control handle 80 and the switching handle 160, which are driving parts thereof. And Therefore, according to the hot and cold water mixing faucet 10, the end of the opening of the outer casing 16 is also used as the communication port, so that the number of holes required for the outer casing 16 is reduced, and the strength of the outer casing 16 can be maintained. . The hot and cold mixing faucet 10 is connected to the water inlet 5 of the faucet main body 18.
1, an outer casing 16 having through holes (metal fitting insertion holes 25) communicating with the hot water inlet 52 and the curran outlet 170, respectively. Therefore, according to the hot and cold water mixing faucet 10, hot water or water can be supplied to the water faucet main body 18 through the through-hole, or hot water, water, or mixed hot or cold water can be spouted from the faucet main body 18.

Next, a hot and cold water mixing faucet according to a second embodiment will be described. In addition, the configuration different from the hot and cold water mixing faucet 10 according to the above-described first embodiment will be described in detail, and the description or illustration of common members will be omitted, and the same numerical symbols as those in the first embodiment will be used. It shall be. In addition, for members common to the hot and cold water mixing faucet 10 according to the first embodiment, the description thereof is omitted and is only illustrated.

The hot and cold water mixing faucet 310 according to the second embodiment comprises:
As shown in a schematic perspective view of FIG.
Is different from the main body portion 12 of the hot and cold water mixing faucet 10, and the outer casing 316 constituting the main body portion 312 is also different from the outer casing 16 of the hot and cold water mixing faucet 10 in shape and function. On the other hand, the faucet main body 318 (see FIG. 5) housed and fixed in the outer casing 316 is different from the faucet main body 18 of the hot and cold mixing faucet 10 only in its outer shape.

As shown in FIG.
The fixing leg 17 fixed to the water supply leg fitting 20, the hot water supply leg fitting 40, and the curan 14 similarly to the hot and cold water mixing faucet 10.
a, 17b and a fixed leg 17c (see FIG. 5). On the other hand, the outer casing 316 is
Unlike the outer casing 16 of the first embodiment, detachable lids 319 and 320 for closing the openings are provided at both ends.
The lids 319 and 320 project the temperature adjustment handle 80 and the switching handle 160 from the ends of the casing to close the openings at both ends of the outer casing 316, and are formed by molding in the same manner as the outer casing 316.
After the faucet main body 318 is stored and fixed in the outer casing 316, the outer casing 3
16 is attached.

Next, the configuration of the outer casing 316, the faucet main body 318, and the manner in which the faucet main body 318 is housed by the outer casing 316, along the line III-III in FIG. This will be described with reference to FIG. 5 which is a cross-sectional view. FIG. 5 also shows the water supply leg fitting 20 to which the outer casing 316 is fixed.

As shown in FIG. 5, an outer casing 316 constituting a main appearance of the hot and cold water mixing faucet 310 of the second embodiment.
Is molded using bronze, brass, various copper alloys, or the like, similarly to the outer casing 16 of the hot and cold water mixing faucet 10, and has a storage space 317 for storing a faucet main body 318 therein. The outer casing 316 includes upper and lower ribs 320 and 321 for holding the faucet main body 318 in the storage space 317.
Along the longitudinal direction. These ribs 320, 321
Is molded integrally with the outer casing 316 when the outer casing 316 is molded. Also,
The ribs 320 and 321 are molded in consideration of the interval so that upper and lower detent portions 322 provided on the faucet main body 318 described later can be inserted without any trouble.

The faucet main body 318 accommodated in the outer casing 316 has a passage for water, hot water and mixed hot and cold water in addition to the mixing valve cartridge 70 and the switching valve cartridge 150. 10 is the same as the faucet main body 18. And the outer shape differs from the faucet main body 18 of the hot and cold mixing faucet 10. That is, as shown in FIG. 5, the faucet main body 318 includes detent portions 322 along the longitudinal direction of the faucet main body 318 above and below the outer peripheral surface of the outer casing 50. in this case,
Since the outer casing 50 of the faucet main body 318 is formed by injection molding polyphenylene sulfide (PPS), which is a kind of engineering plastic, the detent portion 322 is integrally formed on the outer peripheral surface of the outer casing 50. . It is not necessary that the detent portion 322 be formed along the longitudinal direction of the faucet main body 318, and only a part of the detent is provided above and below the outer peripheral surface of the outer casing 50 in accordance with the convenience of a mold in injection molding. It may be formed.

Then, the faucet main body 318 is stored and fixed in the storage space 317 of the outer casing 316 via the ribs 320 and 321 without rotating the faucet main body 318 by assembling as follows. be able to. Moreover, the outer casing 316 is provided in the storage space 317.
Ribs 320, 32 for holding the faucet body 318 at
Thus, the faucet main body 318 and a part of the faucet main body 318 are brought into contact with each other.

That is, one end of the faucet main body 318 is inserted into the outer casing 316 formed integrally with the ribs 320 and 321 through an opening at the end thereof. The upper and lower detent parts 322 of the part 318 are inserted. And the upper and lower detent parts 3
The faucet main body 318 is pushed in while the 22 is inserted in the ribs 320 and 321. This faucet body 318
Is pushed into the fitting insertion hole 25 of each of the fixed legs 17a to 17c in the outer casing 316.
The process continues until the water inlet 51, the hot water inlet 52, and the curran outlet 170 at 18 match each other.

Next, the water supply leg fitting 20, the hot water supply leg fitting 40
The fitting 26 of the curan 14 is connected to the fitting insertion hole 25 of each of the fixed legs 17 a to 17 c of the outer casing 316, the water inlet 51 of the faucet main body 318, and the hot water inlet 5.
2 and the callan outlet 170 respectively. next,
A water / water mixing faucet 3 is used to fasten each leg fitting and curan with the fastener 28.
The water or hot water passage is connected to the water supply pipe and the hot water supply pipe by being fixed to the outer casing 316 of the apparatus 10. Thereafter, the faucet main body 3 of the temperature control handle 80 and the switching handle 160
18 and after fixing the lids 319 and 320 to both ends of the outer casing 316,
Complete 0.

As described above, the hot water mixing faucet 310 of the second embodiment is different from the hot water mixing faucet 10 of the first embodiment.
Similarly to the above, while the outer casing 316 is a molded product, the inside thereof does not require machining for ensuring the sealing performance and the like, so that the casting surface can be left as it is.
As a result, according to the hot and cold water mixing faucet 310 of the second embodiment,
As in the case of the hot and cold water mixing faucet 10 in the first embodiment, the manufacturing process of the hot and cold water mixing faucet having a sense of quality can be simplified, and the corrosion resistance of the hot and cold water mixing faucet 310 can be improved. Further, similarly to the hot and cold water mixing faucet 10 in the first embodiment, the appearance (design) of the hot and cold water mixing faucet is diversified through expansion of the degree of freedom of the design of the outer casing 316, and the common water faucet main body 318 is used. And cost reduction can be achieved.

Further, when manufacturing the hot and cold water mixing faucet 310, the faucet main body 318 is pushed into the faucet main body 318 from the opening of the outer casing 316 formed by molding.
8 is stored and fixed to the outer casing 316 via ribs 320 and 321, and the outer casing 31 is connected to the water supply leg fitting 20, the hot water supply leg fitting 40, and the curran 14 via the fastener 28.
6 only needs to be fixed. Therefore, in the second embodiment, similarly to the first embodiment, since the outer casing 316 does not need to be separately formed or assembled, the hot and cold water mixing faucet 310 can be easily manufactured.

In the hot and cold water mixing faucet 310 of the second embodiment described above, the outer casing 316 formed by molding is connected to the faucet main body 318 via the ribs 320 and 321 for holding the faucet main body 318. The faucet main body 318 is stored and fixed. Thus, a part where the outer casing 316 and the faucet main body 318 are not in contact with each other can be formed in the storage space 317 of the outer casing 316. As a result, according to the hot and cold water mixing faucet 310 of the second embodiment, the non-contact portion of the storage space 31
With the air present in 7, the faucet body 318 can inevitably be insulated.

Further, when the faucet main body 318 is held in the storage space 317 of the outer casing 316 and the outer casing 316 and the faucet main body 318 are partially contacted with each other, the inside of the molded outer casing 316 is formed. The ribs 320 and 321 provided were used. Therefore, according to the hot and cold water mixing faucet 310 of the second embodiment, the rib 3
20 and 321 can be easily provided integrally with the outer casing 316, and the manufacturing process of the hot and cold water mixing faucet 310 can be further simplified and the cost can be reduced. In addition, since the thickness of the outer casing 316 can be reduced by forming the ribs 320 and 321 inside the outer casing 316, the weight of the hot and cold water mixing faucet 310 can be reduced.

The hot and cold water mixing faucet 310 of the second embodiment can provide the following effects as in the hot water and water mixing faucet 10 of the first embodiment.

Next, the hot and cold water mixing faucet 35 according to the third embodiment will be described.
0 will be described. As shown in FIG. 6 which is a vertical cross-sectional view of the hot and cold water mixing faucet 350, the hot and cold water mixing faucet 10 according to the above-described first embodiment, the shape of the outer casing, and the way of storing the faucet main body 18 are described. Differently, the other components including the faucet main body 18 have the same configuration.

As shown in FIG. 6, the outer casing 360 of the hot and cold water mixing faucet 350 is, like the outer casing 16, a cylindrical molded product made of bronze, brass, various copper alloys, or the like. Although there is an outer casing 1
6 has a storage space 361 in which the faucet main body 18 can be stored with a gap. Then, the outer casing 360
An elastic ring 36 formed of an elastic body such as rubber and fitted around the faucet body 18 is provided between the faucet body 18 and the water faucet main body 18.
2 intervenes in a compressed state.

The faucet main body 18 can be stored and fixed in the storage space 361 of the outer casing 360 via the elastic ring 362 by assembling as follows. Moreover, the outer casing 360 is provided with the elastic ring 3 for holding the faucet main body 18 in the storage space 361.
The faucet main body 18 and a part of the faucet main body 18 are brought into contact with each other via 62.

That is, the faucet main body 18 is inserted into the storage space 361 of the outer casing 360 molded as a cylindrical body through the opening at the end thereof. At this time, the faucet body 1
Since the elastic ring 362 is fitted and fixed to the outer periphery of 8, the elastic ring 362 is compressed and the faucet main body 18 is inserted into the storage space 361 of the outer casing 360. Then, the faucet main body 18 is inserted into the fitting insertion hole 25 of each of the fixed legs 17a to 17c (only the fixed leg 17c is shown in FIG. 6) in the outer casing 360. , Hot water inlet 52 and curran outlet 170 coincide with each other.
Thus, the faucet main body 18 is stored and fixed in the storage space 361 of the outer casing 360 by the restoring force of the elastic ring 362.

Next, similarly to the hot and cold water mixing faucet 10 of the first embodiment, the water supply leg fittings, the hot water supply leg fittings and the connection fittings 26 of the curan are connected to the fitting insertion holes 25 of the fixed leg portions of the outer casing 360, the faucet. It is inserted into the water inlet 51, the hot water inlet 52 and the callan outlet 170 of the main body 18, respectively.
Thereafter, each leg fitting and curan are fixed to the outer casing 360 of the hot and cold water mixing faucet 350 with fasteners, and the water or hot water passage is connected to the water supply pipe and the hot water supply pipe. After that, the temperature adjusting handle 80 and the switching handle 160 are assembled to both ends of the faucet main body 18 to complete the hot and cold mixing faucet 350.

As described above, the hot water mixing faucet 350 of the third embodiment is different from the hot water mixing faucet 10 of the first embodiment.
Similarly to the above, the inside of the outer casing 360, which is a molded product, does not require machining for ensuring the sealing performance and the like, and the casting surface can be left as it is. Further, in the hot and cold water mixing faucet 350 of the third embodiment, similarly to the hot and cold water mixing faucet 310 of the second embodiment, both the outer casing 360 and the faucet main body 18 are provided in the storage space 361 of the outer casing 360. Formed a non-contact portion to house and fix the faucet body 18.

As a result, the hot and cold water mixing faucet 35 of the third embodiment is obtained.
According to No. 0, the above-mentioned various effects provided by the hot-water mixing faucet 10 in the first embodiment and the hot-water mixing faucet 310 in the second embodiment, for example, simplification of the manufacturing process of the hot-water mixing faucet having a sense of quality. And outer casing 360 and faucet main body 18
The effect of heat insulation and the like by the air existing in the storage space 361 in a portion where the contact space is not in contact can be achieved.

Further, in the hot and cold water mixing faucet 350 of the third embodiment, a mold-formed outer casing 360 is housed in the outer casing 360.
An elastic ring 36 is provided between the faucet body 18 to be held and fixed.
2 was interposed. Thus, even if hot water or water pulsates from the water supply pipe or the hot water supply pipe into the passage and vibrates, and the faucet main body 18 vibrates, in the hot-water mixing faucet 350 of the third embodiment, this vibration is generated by the elastic ring 362. The faucet body 18 can be absorbed and held. As a result, according to the hot and cold water mixing faucet 350 of the third embodiment, it is possible to avoid problems caused by the vibration of the faucet main body 18, such as breakage due to contact with the outer casing 360.

The elastic ring 362 in the hot and cold water mixing faucet 350 of the third embodiment is interposed between the outer casing 360 and the faucet main body 18 and is in close contact with both.
The faucet main body 18 can be reinforced from outside through the elastic ring 362. The hot water mixing faucet 350 of the third embodiment can also achieve the following effects, similarly to the hot water mixing faucets 10 and 310 of the first and second embodiments.

Next, a modification of the hot and cold water mixing faucet of the above embodiment will be described. As shown in FIG. 7, in this modification, the outer casing 360 and the faucet main body 18 are replaced with the elastic ring 362 fitted around the faucet main body 18 in the hot and cold water mixing faucet 350 of the third embodiment. The outer casing 360, the faucet main body 18
An elastic cap 363 to be fitted in the was used. By doing so, the hot and cold water mixing faucet 35 of the third embodiment described above can be used.
0 can have various effects. Moreover,
By using the elastic cap 363, the elastic ring 3
Since it is not necessary to form a groove for fitting the outer periphery of the faucet main body 18, the manufacturing process thereof can be simplified. Further, the faucet main body 18 is provided with a storage space 361 at both ends thereof.
, The work for fixing the faucet main body 18 can be performed only at the end of the outer casing 360, which facilitates the operation. In this case, the elastic cap 363 may be a resin cap injection-molded using the engineering plastic described above. Furthermore, since the elastic cap 363 closely contacts the outer casing 360 and the faucet body 18 over a wide range, the faucet body 18 can be reinforced more effectively.

Although the embodiment of the present invention has been described above, the present invention is not limited to such an embodiment, and can be implemented in various modes without departing from the gist of the present invention. Of course.

For example, in each of the above embodiments, a hot and cold water mixing faucet has been described. However, a water faucet for spouting fluid such as soapy water, chemical water, mousse, alcohol, salt water, as well as a faucet for spouting only water or hot water. It may be. Further, in this case, it is only necessary to switch the water discharge / stop water and adjust the water discharge amount, so that one of the outer casings 16 may be closed.

Although the faucet body 18 is configured to control the temperature of the mixed hot and cold water using a temperature-sensitive spring 92 (temperature-sensitive element) made of SMA, the faucet body 18 is configured to use a wax element. You can also. Of course, a configuration in which temperature control is not performed by the temperature sensing element may be used. In addition, the hot and cold water mixing faucet 10 is configured to discharge water only from the curan 14, but it may be configured to selectively discharge water from a curan and a shower, or may be configured to discharge water only from a shower instead of a curan.

Further, in the above-described embodiment, when the ribs 320 and 321 are provided on the outer casing 316 as shown in FIG.
0,321. However, the outer casing 31
In the storage space 317 of No. 6, ribs can be provided on the left and right of the faucet main body 318. In this case, the inside of the rib communicates with the water inlet and the hot water inlet of the faucet main body to serve as an entrance to the faucet main body, and hot water or water can be supplied to the faucet main body via the rib. it can. Alternatively, ribs 320, 3
Although 21 is provided integrally with the outer casing 316, it may be provided on the outer casing 50.

Further, instead of the elastic ring 362, a cylindrical elastic body having substantially the same length as the faucet main body is interposed between the outer casing and the faucet main body, and this elastic body is inserted inside and outside the faucet. The outer casing and the faucet main body may be configured to be in close contact with the entire periphery.

Further, in each of the embodiments described above, the case where the outer casing is formed by casting as an integral part has been described. However, the outer casing can be divided into upper and lower or left and right pieces, and these pieces are formed by casting. Alternatively, the two casings may be joined to form an outer casing. In this case, since the internal members may be stored before joining the pieces and then the two pieces may be joined, the assembly of the internal members becomes easy.

As described in detail above, in the water faucet according to the first aspect, while the outer casing forming the appearance of the faucet is a molded product, the inlet and the outlet of the fluid are connected to each other inside the outer casing. It is sufficient if the internal member having the communicating passage can be simply stored and held in the storage space, and there is no need for machining for securing the sealability and forming the passage for water, hot water or the like. As a result, according to the faucet of the first aspect, it is possible to simplify the manufacturing process of the faucet having a high-quality appearance.

Further, since the internal member only needs to be housed inside the outer casing, the faucet according to the first aspect can house the internal member inside the outer casing with the casting surface. As a result, claim 1
According to the water faucet described above, since no machining is required inside the outer casing for housing the internal member, the manufacturing process of the water faucet can be further simplified. In addition, since the casting surface can be left as it is, the corrosion resistance can be improved.

In addition, the shape of the outer casing can be changed without being affected by the formation of a fluid passage or the like. Therefore, in the water faucet according to the first aspect, the degree of freedom in designing the outer casing can be increased. Therefore,
According to the faucet of the first aspect, it is possible to diversify the appearance (design) of the faucet having a high-class feeling. Furthermore, since the internal member can be shared regardless of the shape of the outer casing, the faucet according to claim 1 can reduce the cost through the common member.

In the water faucet according to the second aspect, the outer casing for housing and holding the internal member is provided with an insertion hole which communicates with the housing space and into which the internal member is inserted. Therefore, according to the water tap of the second aspect, the internal member is inserted from the insertion hole and stored in the storage space of the external casing, so that the water tap can be easily assembled.

In the water faucet according to the third aspect, the internal member housed and held in the outer casing is provided with a valve device for controlling a fluid flowing through the passage. Therefore, according to the faucet according to the third aspect, for the fluid flowing through the passage of the internal member, the flow of the fluid is stopped and switched, the two or more fluids are mixed, the mixing ratio is adjusted, the flow rate and the flow rate are adjusted. Various controls such as adjustment can be performed.

[0091] In the water faucet according to the fourth aspect, the valve device includes a housing having a predetermined shape inserted into the passage of the internal member, and at least a part of a function of controlling fluid is housed in the housing. Was used. Therefore, according to the faucet of the fourth aspect, it is easy to assemble the valve device to the internal member and to assemble the faucet itself, and even if the valve device is defective, the valve device can be easily replaced. .

In the water faucet according to the fifth aspect, the insertion hole of the outer casing formed by molding is used as a communication port of the drive unit of the valve device, an inlet / outlet of fluid, and a fixing part for fixing the water faucet to another structure. It can be shared. Therefore, according to the water tap of the fifth aspect, the number of holes required for the outer casing can be reduced, and the strength of the outer casing can be maintained.

[0093] In the water faucet according to the sixth aspect, the molded outer casing is provided with a through hole communicating with the inlet and / or outlet of the internal member. Thus, according to the water tap of the sixth aspect, it is possible to directly supply the fluid to the internal member through the through hole or to discharge the fluid directly from the internal member.

In the faucet according to the seventh aspect, the inner member can be housed and held in close contact with the outer casing, and the inner member can be reinforced by the outer casing. Therefore, according to the faucet of claim 7, the internal member can be formed of various engineering plastics, and the faucet can be reduced in weight.

In the water faucet according to the eighth aspect, since the internal member is stored and held by partially contacting the external casing, a non-contact portion is formed between the external casing and the internal member inside the casing. it can. Therefore, according to the water tap of the eighth aspect, the air existing in the space of the non-contact portion can inevitably insulate the internal member.

In the water faucet according to the ninth aspect, the outer casing and the inner member are partially brought into contact with each other via the rib, and the inner member is housed and held in the outer casing. Therefore, in the water faucet according to the ninth aspect, the rib can be provided integrally with the outer casing or the inner member when the outer casing is molded or when the inner member is molded. As a result, according to the water tap of the ninth aspect, the rib serving as the holding member can be easily formed, and the manufacturing process of the water tap can be further simplified and the cost can be reduced. Further, since the thickness of the outer casing can be reduced by forming ribs inside the outer casing, the faucet according to the ninth aspect can reduce the weight of the faucet.

In the faucet according to the tenth aspect, since the rib is configured as an inlet and / or an outlet of the internal member, it is possible to supply a fluid to the internal member via the rib and to discharge the fluid from the internal member.

In the water faucet according to the eleventh aspect, when storing and holding the internal member in the outer casing, a holding member is interposed between the outer casing and the internal member. For this reason, according to the water tap of the eleventh aspect, the internal member can be reinforced from the outside via the holding member, and the internal member is formed of various engineering plastics to reduce the weight of the water tap. be able to. You.

In the water faucet according to the twelfth aspect, since the holding member which is in close contact with the outer casing and the inner member is interposed between the outer casing and the inner member, the inner member can be reinforced from the outside via the holding member. .

In the water faucet according to the thirteenth aspect, the holding member interposed between the outer casing and the inner member is configured to partially contact the outer casing and the inner member, so that the outer casing and the inner member are inside the casing. Can form a non-contact portion between them. Therefore, according to the water tap of the thirteenth aspect, the air existing in the space of the non-contact portion can inevitably insulate the internal member.

In the water faucet according to the fourteenth aspect, since the holding member is provided with a passage communicating with the inlet and / or outlet of the internal member, a fluid is supplied to the internal member via the holding member, Fluid can be discharged from the member.

In the water faucet according to the fifteenth aspect, the elastic member interposed between the outer casing and the inner member and holding the inner member can hold the inner member while absorbing vibration of the inner member. Therefore, according to the water faucet according to the fifteenth aspect, it is possible to avoid problems caused by vibration of the internal member, such as breakage due to contact with the external casing.

[Brief description of the drawings]

FIG. 1 is a plan view of a hot and cold water mixing faucet 10 according to a first embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along line II of FIG. 1 omitting details of an internal mechanism.

FIG. 3 is a sectional view taken along line II-II of FIG. 1;

FIG. 4 is a schematic perspective view of a hot and cold water mixing faucet 310 according to a second embodiment.

FIG. 5 is a sectional view of FIG.
Sectional drawing along the I line.

FIG. 6 is a longitudinal sectional view of a hot and cold water mixing faucet 350 according to a third embodiment.

FIG. 7 is a longitudinal sectional view of a modification of the hot and cold water mixing faucet 350 according to the third embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 ... Hot water mixing faucet 12 ... Body part 14 ... Callan 16 ... Outer casing 18 ... Water faucet body part 20 ... Water supply leg fitting 40 ... Hot water supply leg fitting 50 ... Outer casing 51 ... Water inlet 52 ... Hot water inlet 55 ... Water flow path 60 ... Inner casing 70 ... Mixing valve cartridge 80 ... Temperature control handle 150 ... Switching valve cartridge 160 ... Switching handle 172 ... Flow path 174 ... Flow path 310 ... Hot water mixing faucet 316 ... Outer casing 317 ... Storage space 318 ... Faucet main body 319, 320 ... Lid 320, 321 ... Rib 322 ... Detent part 350 ... Hot water mixing faucet 360 ... External casing 361 ... Storage space 362 ... Elastic ring 363 ... Elastic cap

Claims (1)

[Claims] 1. A faucet for discharging a supplied fluid from a water outlet, comprising: an inlet into which the fluid flows, and an outlet connected to the water outlet.
An internal member having a passage communicating the inlet and the outlet, and exhibiting a faucet function of discharging water from the water outlet, and a storage space for storing the internal member, between the internal member An outer casing having a casing formed with a gap therebetween, and a conduit forming portion connected to an inlet or an outlet of the internal member to form a conduit to or from the inlet of the fluid. A water faucet in which the internal member is stored in the storage space of the outer casing while maintaining the gap.