JP2004236756A - Shower apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a shower apparatus by which stagnant water is hardly accumulated in the shower apparatus by enjoying various water discharging form. <P>SOLUTION: The shower apparatus is provided with: a hot and cold water mixing part for mixing hot and cold water having passed through a connection part of a cold water feeding pipe and a hot water feeding pipe; a hand shower nozzle and a head shower nozzle for receiving supply of hot water from this hot and cold water mixing part and discharging it; and a water discharge switching mechanism for switching water discharge from the hand shower nozzle and that from the head shower nozzle. The water discharge switching mechanism is provided with a draining mechanism for draining the stagnant hot and cold water in a water passage system between the water discharge switching mechanism and the head shower nozzle when the water discharge is switched to the hand shower nozzle. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a shower device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, as a shower device installed in a bathroom, a shower room, or the like, there is a shower device provided with a shower nozzle at a distal end of a flexible shower hose branched from a hot water mixer tap body.
Then, either the curan or the shower nozzle provided in the hot / water mixer tap is selected to discharge water.
In this conventional shower device, the shower hose hangs down on the floor, and hot water, red water, and the like when the body is washed adhere to the shower hose when flowing on the floor, so that the shower hose may be contaminated. In addition, the shower hose hangs down on the floor when used, which may be an obstacle.
[0003]
Therefore, there is a technique in which the shower hose does not hang on the floor and the usability of the shower device is improved. (See, for example, Patent Document 1)
In this shower device, a water supply pipe and a hot water supply pipe are taken out from a wall at the same height, and a hot water mixer tap is connected to the water supply pipe and the hot water supply pipe. Then, a hot water supply pipe is set up from the back side of the hot and cold water mixing tap, and a branch portion for branching into a head shower nozzle and a hand shower head is extended in a horizontal direction, and the water discharge flow rate to each shower head is adjusted in this branch portion. A knob is provided.
As described above, since the shower hose communicating with the hand shower head is branched from the middle of the hot water supply pipe rising from the hot and cold water mixing tap, the possibility that the shower hose hangs down on the floor is reduced. Further, in this conventional shower device, not only the hand shower but also the head shower nozzle can enjoy various shower forms as much as possible.
[0004]
Also, shower devices that can enjoy various shower forms have been proposed. (See, for example, Patent Document 2)
In this shower device, a water supply pipe and a hot water supply pipe are taken out from a wall at the same height, and a hot water mixer tap is connected to the water supply pipe and the hot water supply pipe. A shower hose connected to a hand shower nozzle is connected to the back side of the hot / water mixer tap, and a body shower device is provided in a lateral direction with respect to a hot water supply pipe rising from the hot / water mixer tap. The body shower device can also discharge water from the shower.
[0005]
[Patent Document 1]
No. 2-112758
[Patent Document 2]
63-197488
[0006]
[Problems to be solved by the invention]
However, in a structure in which a hot water supply pipe for supplying hot and cold water at an appropriate temperature with the hot water mixer tap is started at the upper part of the hot water mixer tap, and the hot water pipe is branched and a head shower nozzle or a hand shower nozzle is installed, when water is stopped, However, since a large amount of stagnant water remains in the hot water supply pipe, the stagnant water may be cooled before the next water discharge. In this case, when water is discharged after a while, the stagnant water that has become cold must be flushed, and there is a problem that it takes time until the appropriate temperature flows.
In particular, when using a hand shower nozzle, the user can hold the hand shower nozzle and use it.Hold the hand shower nozzle on the floor until the accumulated stagnant water flows in the hot water supply pipe to the hand shower nozzle. It can be kept away from the body by taking it near and letting it drain downwards.However, when using a head shower nozzle, it is fixed above the user's head, so it is inside the hot water supply pipe to the head shower nozzle Until the accumulated stagnant water flows into the shower, the user must avoid the water so as not to be bathed in the body, which impairs the comfort of the shower device which can enjoy various forms of water discharge.
[0007]
In addition, when cleaning or taking a shower, water is poured on the hot water supply pipe, water enters through the gap between the water supply pipe and the gap between the handle and the main body, and the hot water accumulates inside the water supply pipe and inside the handle. There was also.
[0008]
Then, in this invention, in order to solve the said problem, it aims at providing the shower apparatus which can enjoy various water discharge forms and does not accumulate stagnant water in a shower apparatus.
[0009]
[Means for Solving the Problems]
According to the first aspect of the present invention, there is provided a hot and cold water mixing section for mixing hot and cold water that has passed through a connection section between a water supply pipe and a hot water supply pipe, a hand shower nozzle and a head shower nozzle for supplying hot and cold water from the hot and cold water mixing section and discharging water. A water discharge switching mechanism for switching between water discharge from the shower nozzle and water discharge from the head shower nozzle is provided, and the water discharge switching mechanism removes water that is stagnant in a water passage system from the water discharge switching mechanism to the head shower nozzle by hand. A shower device is provided with a water draining mechanism for draining water when the water is switched to the shower nozzle.
[0010]
With this, when the head shower nozzle is closed and the hand shower nozzle is switched, the stagnant hot water is drained in the water passage on the head shower nozzle side in conjunction with this operation. When water is discharged from the shower nozzle, a large amount of stagnant water is not discharged from the head shower nozzle, so that the user can comfortably take a shower without discomfort.
In particular, the longer the time of stagnation in the water passage, the cooler the hot water is. Therefore, as for the hot water spouted from the head shower nozzle at the initial stage, cold hot water having a proper temperature or lower is spouted. However, the water can be drained when the head shower nozzle is not used as in the present invention. Cold water that has stagnated in the initial water discharge from the shower nozzle is not discharged for a long time.
[0011]
According to claim 2 of the present invention, the water draining mechanism is a mechanism that drains hot water that is stagnant in a water passage system from the water discharging switching mechanism to the head shower nozzle in conjunction with the water discharging switching to the hand shower nozzle. The shower device according to claim 1, wherein:
[0012]
With this, by switching the water discharge from the head shower nozzle side to the hand shower side, hot water stagnant in the water passage system on the head shower nozzle side automatically flows to the outside to drain water, so that the user can It can be done without being conscious of draining.
[0013]
According to a third aspect of the present invention, the water discharge switching mechanism is constituted by a diverter mechanism, and a valve body constituting the diverter opens and closes a water passage for water discharge switching and a drain hole. A shower device according to claim 2.
[0014]
Thus, by using the diverter mechanism, it is possible to drain the water with a simple structure without complicating the structure of the water discharge switching mechanism having the water draining mechanism.
[0015]
According to claim 4 of the present invention, the head water nozzle is disposed so that the longitudinal direction of the hot water mixing section is vertical, and a head shower nozzle is disposed above a pipe extending above the hot water mixing section, The shower device according to any one of claims 1 to 3, wherein a branch fitting communicating with the water discharge switching mechanism and the head shower nozzle is arranged in the middle of the pipe.
[0016]
This makes it possible to drain hot water from the water passage on the head shower nozzle side located downstream of the water discharge switching mechanism.
Further, since the water discharge switching mechanism is provided in the middle of the pipe, it is easy to operate the water discharge switching mechanism while the user is standing, and a comfortable shower life can be obtained.
Furthermore, when the water is stopped and water is always discharged from the hand shower nozzle side when the water is discharged using the diverter mechanism, the initial water discharged from the head shower nozzle stays in the shower device and the cold water becomes longer. It can be said that a more comfortable shower life can be obtained without water spouting during the period (in most cases, hot water at an appropriate temperature is spouted).
[0017]
According to claim 5 of the present invention, the hot and cold water mixing section that mixes hot and cold water that has passed through the connection section with the water supply pipe and the hot water supply pipe is disposed such that the longitudinal direction of the hot and cold water mixing section is vertical.
A plurality of pipes are added and connected so as to form a support above the hot and cold water mixing section,
In the pipe, a water discharge section communicating with the hot and cold water mixing section, a water flow path from the hot and cold water mixing section to the water discharge section, and a flow control valve formed in the water flow path,
Further, a shower device is characterized in that a drain hole is provided at a connection portion of the pipe.
[0018]
As a result, since a plurality of pipes are connected and connected, even if hot or cold water intrudes from the seam, the water flows out through the drain hole of the pipe located below the seam, so that hot or cold water flows into the pipe. There is no worry about stagnation.
[0019]
According to claim 6 of the present invention, the hot and cold water mixing section that mixes hot and cold water that has passed through the connection section with the water supply pipe and the hot water supply pipe is disposed such that the longitudinal direction of the hot and cold water mixing section is vertical.
A plurality of pipes are added and connected so as to form a support above the hot and cold water mixing section,
In the pipe, a water discharge section communicating with the hot and cold water mixing section, a water passage from the hot and cold water mixing section to the water discharge section, a flow control valve formed in the water passage, a temperature adjustment handle below the hot and cold water mixing section, And a water drain hole is provided at the lower end of the temperature adjustment handle.
[0020]
Thus, even if hot water enters the temperature adjustment handle located below the gap between the handle and the main body, the hot water flows out from the drain hole, and there is no fear of stagnation in the temperature adjustment handle. And the pipe-shaped shower device extended vertically including the hot and cold water mixing part can be provided more comfortably.
Furthermore, by adopting a conventional hot and cold water mixing section having a horizontal thermostat mechanism and arranging it vertically, the present shower apparatus can be manufactured at low cost and a new shower life can be provided.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described more specifically with reference to the drawings.
FIG. 1 shows an external view of a shower device 1 of the present invention.
The shower device 1 includes a hot / water mixing section 7 and a plurality of water discharge sections in one thin cylindrical pipe 6 extending and extending in the up-down direction.
The pipe 6 has an outer shape having substantially the same diameter over the entire length, and has an inner diameter substantially equal to the outer diameter of the hot and cold water mixing section 7. With such a configuration, it is possible to provide a novel shower device in which the hot and cold water mixing section and each of the water discharge sections have an integrated appearance.
In the shower apparatus 1 of FIG. 1, the water spouting section is composed of a curran 2, a hand shower nozzle 3, and a head shower nozzle 4.
Then, the curran 2 is installed below the hot / water mixing section 7, and the hand shower nozzle 3 and the head shower nozzle 4 are installed above.
A temperature adjusting handle 8 is provided below the hot and cold water mixing section 7, and the curran 2 is further installed therebelow.
A shower flow adjustment handle 10 is provided above the hot and cold water mixing section 7.
Note that a hook 23 is provided bulging beside the hot and cold water mixing section 7.
FIG. 2 shows a use state diagram when the shower device 1 of FIG. 1 is installed on a counter 22 in a bathroom.
In addition, although not shown, it may be made to start up from the floor of the bathroom or the shower room.
[0022]
In the shower apparatus 1 of FIG. 3, the water discharge section includes a body shower nozzle 5, a hand shower nozzle 3, and a head shower nozzle 4.
The water discharging section is configured to be located above the hot and cold water mixing section 7.
It can be said that the shower apparatus 1 of FIG. 3 is suitable for use when standing up in a shower room or the like.
[0023]
Next, FIG. 4 shows that the hot and cold water flowing from the connecting portions 17 and 18 between the water supply pipe and the hot water supply pipe is mixed at an appropriate temperature in the hot and cold water mixing section 7, and the water flow path from the hot and cold water mixing section 7 to each of the water discharge sections is formed. Is shown.
FIG. 4 shows a case where the water supply pipe and the hot water supply pipe are taken into the room from the wall, but the same applies to a case where the water supply pipe and the hot water supply pipe are started up from the floor.
First, the hot and cold water supplied from the connecting portions 17 and 18 between the water supply pipe and the hot water supply pipe is mixed in the hot and cold water mixing section 7.
The temperature of the hot water is adjusted by rotating the temperature adjusting handle 8 disposed adjacent to and below the hot / water mixing section 7 in the circumferential direction.
The hot and cold water at the hot and cold water mixing section 7 is sent to the flow control valves of the water discharge sections 2, 3, 4 and 5 via the water passages A, B and C.
That is, in the pipe 6 above the hot and cold water mixing section 7, the water passage A for the curan 2, the water passage C for the body shower nozzle 5, and the water passage B for the hand shower nozzle 3 and the head shower nozzle 4 are formed. The water channel is divided into three branches. In the pipe 6 provided with the body shower nozzle 5, two paths of a water passage C for the body shower nozzle 5 and a water passage B for the hand shower nozzle 3 and the head shower nozzle 4 are provided.
Then, by opening each of the flow control valves, water discharge is started from the water discharge unit communicating therewith.
In the case of water discharge from the hand shower nozzle 3 and the head shower nozzle 4, either one is selected by the switching handle 11.
As shown in FIGS. 5 and 6, the water passages A, B, and C to the hot and cold water mixing section 7 and each of the water discharge sections, and further to each of the water discharge sections 2, 3, 4, and 5, are formed as units.
Since each unit is configured as described above, only the necessary water discharging section can be selected and connected to the hot and cold water mixing section 7.
For this reason, as shown in FIG. 1, the curan 2, the hand shower nozzle 3, and the head shower nozzle 4 are selected as the water discharging unit, or as shown in FIG. 3, the body shower nozzle 5, the hand shower nozzle 3, and the head shower nozzle are used as the water discharging unit. Thus, the user can easily assemble by selecting the water discharging section 4 or selecting the water discharge section according to the user's preference.
[0024]
Next, a specific configuration of the hot and cold water mixing section 7 and each of the water discharge sections will be described with reference to FIGS.
FIG. 5 is a side sectional view of the shower device corresponding to the portion A in FIG.
The hot water mixing section 7 is configured in the same manner as the hot water mixing section 7 of the thermostatic mixer tap.
The connecting portions 17 and 18 between the water supply pipe and the hot water supply pipe are arranged on the pipe 6 in the up-down direction (vertical direction).
Further, the hot and cold water mixing section 7 is disposed in the pipe 6 so that the longitudinal direction is vertical.
The outer diameter of the hot / water mixing section 7 and the inner diameter of the pipe 6 are substantially the same. One pipe 6 is formed without substantially changing the diameter of the entire length of the pipe 6.
In addition, the one pipe 6 includes one in which a plurality of pipes are connected by being added in the middle. In this shower device 1, each unit is constructed, it is assembled to each pipe 6, and those pipes 6 are further stacked vertically to form one shower device 1.
[0025]
By the way, as shown by the black arrows, the hot water from the connection portions 17 and 18 of the water supply pipe and the hot water supply pipe is sent to the hot / water mixing section 7 to have an appropriate temperature, and further to the water discharge section located above the hot / water mixing section 7. Sent.
The hot water temperature is adjusted by rotating a temperature adjusting handle 8 provided below the hot / water mixing section in the circumferential direction.
FIG. 8 shows a water flow path in which hot water and water flow into the hot and cold water mixing section 7 and are mixed, and water flows to each of the water discharge sections.
The water is supplied to the water discharge units (the hand shower nozzle 3, the head shower nozzle 4, and the body shower nozzle 5) located above the hot water mixing unit 7 through the water passages B and C inside the pipe 6, and the hot water mixing unit 7 The water is sent to the lower water discharge section (curan 2) via a water passage (water passage) A arranged behind the pipe 6.
In FIG. 3, since no curan 2 is provided, the water passage A to this curan 2 is closed.
FIG. 9 schematically shows an automatic temperature control mechanism using a thermostat.
As shown in the figure, the valve 19 is controlled by adjusting the balance between a shape memory alloy spring 21 such as a Ni-Ti alloy and a bias spring 22 to adjust the mixing ratio of hot and cold water.
[0026]
Next, the water discharging section will be described.
The water spouting section can be composed of a curan 2, a hand shower nozzle 3, a head shower nozzle 4, a body shower nozzle 5, and the like.
First, the curan 2 will be described.
As shown in FIG. 1, the curan 2 is provided so as to swell below the hot / water mixing section 7 and forward from the pipe 6 of the shower apparatus 1 main body.
The end of the curan 2 has a flow rate adjusting handle 9. A flow control valve (not shown) such as a cylinder valve is opened and closed in conjunction with the flow control handle 9 to perform water discharge and water stoppage.
Since the flow rate adjusting handle 9 is provided at the tip of the callan 2 in this way, the user can sit on the bath chair and approach the flow rate adjusting handle 9 in an easy posture to discharge water from the callan 2.
The temperature adjustment of the water discharged from the curran 2 is performed by the hot water mixing section 7 installed above.
Then, as shown in FIG. 4, water is supplied from the hot / water mixing section 7 through a water passage (water pipe) A provided in a fixed portion 16 disposed on the back side of the pipe 6.
The callan 2 may be expanded horizontally or diagonally, and the length of the expansion may be freely changed.
[0027]
Next, the water discharge units (the body shower nozzle 5, the hand shower nozzle 3, and the head shower nozzle 4) located above the hot and cold water mixing unit 7 will be described with reference to FIGS.
First, the body shower nozzle 5 will be described.
The body shower nozzle 5 discharges water over a wide area in the vertical direction of the upper body while standing.
Therefore, as shown in FIG. 3, the body shower nozzle 5 has a plurality of water outlets 5a formed vertically in front of the switching handle 11 which is an intermediate portion of the pipe 6 and the flow adjustment handle 10 for the shower nozzle. It is composed of
FIG. 6 shows a water passage through which hot water from hot water mixing section 7 flows to body shower nozzle 5. The white arrow indicates the flow direction.
As shown in the cross-sectional view of FIG. 6B, the flow control handle 14 for the body shower is passed through a water passage 10b formed around the shower nozzle flow control handle 10 (flow control valve 10a). (Flow regulating valve 14a).
Each of the flow control valves 10a and 14a is configured by a cylinder valve.
The water is then passed to the body shower nozzle 5 via the body shower flow adjustment handle 14 (flow adjustment valve 14a).
[0028]
Next, water discharge from the hand shower nozzle 3 and the head shower nozzle 4 will be described.
As shown in FIGS. 1 to 3, the hand shower nozzle 3 and the head shower nozzle 4 can be switched by a switching handle 11. The switching handle 11 is arranged in the middle of the pipe 6 of the shower device 1 and is arranged at a position where a user can easily approach the apparatus while standing.
Then, the water discharge flow rate is adjusted by the shower nozzle flow rate adjustment handle 10.
Since the shower nozzle flow rate adjusting handle 10 is arranged adjacent to the upper part of the hot and cold water mixing section 7, the user can easily discharge water from the hand shower nozzle 3 while sitting on a bath chair. The shower nozzle flow rate adjustment handle 10 can be operated, and is in a position where it can be easily operated even when standing.
Note that the hand shower nozzle 3 can be hooked on a hook 23 provided to protrude from the pipe 6.
[0029]
A branch fitting 12 is provided on the side of the middle part of the pipe 6 of the shower apparatus 1, one end of a shower hose 13 is connected to the branch fitting 12, and the other end of the shower hose 13 is connected to the hand shower nozzle 3. ing.
The hand shower nozzle 3 has a water discharge switching operation unit so that a plurality of water discharge modes can be selected. Further, the hand shower nozzle 3 is provided with an operation button 3a for stopping and discharging water in a handshake portion.
[0030]
On the other hand, the head shower nozzle 4 is provided at the upper end of the pipe 6 of the shower device 1 main body.
The head shower nozzle 4 may be arranged rotatably with respect to the pipe 6.
The head shower nozzle 4 has three large water discharge groups 15 disposed therein, and the water discharge groups 15 may have the same water discharge form or all different water discharge forms.
Further, the water discharge form may be selected one by one, and further, the water discharge direction of the water discharge group may be changed.
[0031]
In addition, a switching handle 11 is provided in front of an intermediate portion of the pipe 6 of the main body of the shower apparatus 1 (a place where the branch fitting 12 is provided). The switching handle 11 switches the discharge of water from the hand shower nozzle 3 and the head shower nozzle 4.
When the switching handle 11 is pulled, the valve body 11a moves from back to front (from left to right in the figure), switches the water passage, and discharges water from the hand shower nozzle 3 to the head shower nozzle 4. It is configured to switch. By using a diverter mechanism, the water is always discharged from the hand shower nozzle 3 once the water stops. Thereby, there is no possibility that the cold stagnant water accumulated in the pipe 6 is inadvertently discharged from the head shower nozzle 4.
The diverter mechanism of the switching handle 11 will be described with reference to FIG.
When the switching handle 11 is pulled, the water flows to the head shower nozzle 4. At this time, since the water pressure is applied, the valve body 11 a closes the water passage of the hand shower nozzle 3 (in the figure, the valve body 11 a is closed). Is located on the right side). However, when the water stops, the water pressure drops, and the valve 11a moves from front to back (from right to left in the figure) by the elastic force of the spring 11b, and the water passage can be switched.
[0032]
The drainage mechanism at this time will be described with reference to FIGS. By pulling the switching handle 11, the water flows into the head shower nozzle 4, and the valve body 11 a is maintained by the water pressure in a state where the water passage of the hand shower nozzle 3 is closed (in the figure, the valve body is located on the right side). However, at this time, the drain valve 24 moves from back to front (from left to right in the figure) in conjunction with this, and the drain hole 25 is sealed with the drain valve 24. However, when the water stops, the water pressure decreases, and the elastic force of the spring 11b moves the valve body 11a from front to back (from right to left in the figure) to switch the water passage. At this time, the water drain valve 24 also interlocks. The water drain hole 25 is opened from the front to the rear (from right to left in the figure), and the upper hot water 26 is discharged from the drain hole to the outside.
[0033]
12 and 13 show different embodiments of the water draining structure. Pulling the switching handle 11 causes water to flow to the head shower nozzle 4, and the water pressure causes the valve body 11a to close the water passage of the hand shower nozzle 3. In this state, the flapper valve 27 closes the drain hole 25 due to the water pressure, and hot and cold water flows to the upper head shower side. Is done. After that, when the water stops, the water pressure decreases, and the elastic force of the spring 11b moves the valve body 11a from front to back (from right to left in the figure) to switch the water passage, and the flapper valve 27 switches the hot water 26 of the upper part. The water is lowered by the water head pressure, comes into contact with the body 29 and seals, and the hot water 26 on the upper part is discharged from the drain hole 25.
[0034]
Next, water passages to the hand shower nozzle 3 and the head shower nozzle 4 will be described with reference to FIGS.
Black arrows in FIG. 6 indicate the flow of the water passage to the hand shower nozzle 3 and the head shower nozzle 4. First, the hot and cold water which has been adjusted to an appropriate temperature in the hot and cold water mixing section 7 in FIG. 5 flows from below in FIG. By operating the shower nozzle flow adjustment handle 10 to open the flow adjustment valve 10a, water flows to the switching handle 11 located above the flow adjustment valve 10a.
As in the structure of FIG. 16B, a water passage is formed around the body shower flow control handle 14 (flow control valve 14a) around the body, and a water passage 11d is provided on the rear side of the body shower nozzle 5. To form a water passage to the switching handle 11.
FIG. 7 shows a state where water is passed to the hand shower nozzle 3. The black arrow indicates the flow of the water passage to the hand shower nozzle 3. The white arrow indicates the flow of the water passage to the head shower nozzle 4.
In FIGS. 1 to 3, the branch fitting 12 is provided on the side of the switching handle 11. However, as shown in FIG. 7, the branch fitting 12 may be provided above the switching handle 11. The metal fitting 12 may be arranged on the back side of the pipe 6.
[0035]
Next, a fixing structure of the shower device 1 will be described.
The pipe 6 of the main body of the shower apparatus 1 is fixed to the upper part and the hot / water mixing part 7 by the fixing part 16.
The upper fixing portion 16 is fixed to the wall above the branch fitting 12.
In the case of wall water supply, the fixing section 16 in the hot / water mixing section 7 is performed by connecting the connection sections 17 and 18 to a water supply pipe and a hot water supply pipe. In addition, in the case of floor water supply, it is fixed to the wall by a fixing 16 similar to the fixing at the top.
[0036]
Although the above-described hot water mixing section has been described using an example in which a thermostat mechanism is employed, the conventional single lever cartridge is inverted and arranged in a pipe in the same manner as described above to adjust the flow rate below the hot water mixing section. Alternatively, a shower device may be configured by disposing a temperature adjusting handle and disposing a water discharging part above the hot and cold water mixing part.
[0037]
As a water discharge switching mechanism having a water draining mechanism, a cylinder valve 32 may be used as shown in FIGS. 14 and 15 in addition to FIGS.
FIG. 14 shows a state where water is flowing to the head shower nozzle side (water drain valve closed state).
FIG. 15 shows a state in which the water is stopped on the head shower nozzle side and water is supplied to the hand shower nozzle side (water drain valve open state).
In the cylinder valve 32, a cylindrical valve body 32B is rotatably arranged in a cylindrical exterior part 32A. Then, by rotating the switching handle 11 interlocked with the valve body 32B, the opening 32a or the opening 32b of the exterior part 32A and the opening 32c of the valve body 32B are overlapped to allow water to flow.
On the other hand, a concave portion 24a for drainage constituting a drainage mechanism is formed on the valve body side surface. Then, when the opening 32c of the valve body 32B is positioned on the opening 32b side (when it is positioned on the upper and lower sides in the drawing) so that water can flow through the hand shower nozzle side, the head is passed through the recess 24a for draining water. Hot water stagnant in the water passage system on the shower nozzle side is discharged from the drain hole 25 to the outside of the shower apparatus 1 using a head difference.
[0038]
Finally, the drainage of hot water that has entered through the gap between the pipes and the gap between the hot / water mixer tap body and the temperature adjustment handle will be described. As shown in FIG. 16, the pipe 6 is provided with a drain hole 28 on the lower side of the back surface (wall side), and hot water that has entered through gaps between the pipes is discharged from the drain hole 28 and accumulates in the pipe. It is becoming difficult. Further, as shown in FIG. 5, hot and cold water that has entered through a gap between the hot and cold water mixing tap main body 31 and the temperature adjustment handle 8 is discharged from a drain hole 30 provided below the temperature adjustment handle 8.
[0039]
【The invention's effect】
As described above, it is possible to provide a sanitary shower device in which various water discharge modes can be enjoyed, and further, there is little waste water in the pipe, and it is difficult for hot water from a gap to accumulate.
[Brief description of the drawings]
FIG. 1 is an external view of a shower device according to an embodiment of the present invention.
FIG. 2 shows a use state diagram in which the shower device of FIG. 1 is installed on a counter.
FIG. 3 is an external view of a shower device according to another embodiment of the present invention.
FIG. 4 shows a piping route diagram of FIG.
FIG. 5 is a side sectional view of a shower device corresponding to a portion A in FIG. 3;
FIG. 6 is a side sectional view of a shower device corresponding to a portion B in FIG. 3;
FIG. 7 is a side sectional view of a shower device corresponding to a portion C in FIG. 3;
FIG. 8 shows the flow of hot and cold water in FIG.
FIG. 9 shows a temperature adjusting mechanism of hot and cold water shown in FIG. 5;
FIG. 10 shows a drainage mechanism (water drainage valve closed state) according to the first embodiment of the present invention.
FIG. 11 shows a water drainage mechanism (water drain valve open state) according to the first embodiment of the present invention.
FIG. 12 shows a drainage mechanism (drainage valve closed state) according to a second embodiment of the present invention.
FIG. 13 shows a drainage mechanism (drain valve open state) according to a second embodiment of the present invention.
FIG. 14 shows a drainage mechanism (water drainage valve closed state) according to a third embodiment of the present invention.
FIG. 15 shows a drainage mechanism (drain valve open state) according to a third embodiment of the present invention.
FIG. 16 shows a drainage hole at a connection part of a pipe.
[Explanation of symbols]
1 shower equipment
2 Callan
3 Hand shower nozzle
4 head shower nozzle
5 Body shower nozzle
6 pipes
7 Hot water mixing section
8 Temperature adjustment handle
9 Flow control handle for curan
10 Flow adjustment handle for shower nozzle
10a Flow control valve
11 Shower switching handle
11a Valve body
11b spring
12 branch fittings
13 Shower hose
14 Flow adjustment handle for body shower
14a Flow control valve
15 spout
16 Fixed part
17 Connection of water supply pipe
18 Hot water supply pipe connection
19 valve
20 bias spring
21 Shape memory alloy spring
22 counter
23 hook
24 drain valve
24a Water drain recess
25 drain holes
26 Top hot water
27 Flapper valve
28 drain hole
29 body
30 drain holes
31 Hot water mixer tap body
32 cylinder valve

Claims (6)

A hot and cold water mixing section that mixes hot and cold water that has passed through a connection section between the water supply pipe and the hot water supply pipe, a hand shower nozzle and a head shower nozzle that discharge hot and cold water supplied from the hot and cold water mixing section, and a water discharge and head from the hand shower nozzle. A water discharge switching mechanism for switching between water discharge from a shower nozzle and the water discharge switching mechanism. The water discharge switching mechanism switches the water that is stagnant in the water passage system from the switching mechanism to the head shower nozzle when water is switched to the hand shower nozzle. A shower device comprising a drainage mechanism for draining water. The water draining mechanism is a mechanism that drains hot water that is stagnant in a water passage system from the water discharge switching mechanism to the head shower nozzle in conjunction with water discharge switching to the hand shower nozzle. 2. The shower device according to 1. 3. The shower according to claim 2, wherein the water discharge switching mechanism is configured by a diverter mechanism, and a valve body forming the diverter opens and closes a water passage for drainage switching and a drain hole. 4. apparatus. The hot water mixing section is disposed so that the longitudinal direction thereof is vertical, and a head shower nozzle is disposed above a pipe extending above the hot water mixing section, and the water discharge switching mechanism is provided in the middle of the pipe. The shower device according to any one of claims 1 to 3, wherein a branch fitting communicating with the head shower nozzle is arranged. A hot and cold water mixing section that mixes hot and cold water that has passed through a connection section with a water supply pipe and a hot water supply pipe is arranged such that the longitudinal direction of the hot and cold water mixing section is vertical,
A plurality of pipes are added and connected so as to form a support above the hot and cold water mixing section,
In the pipe, a water discharge section communicating with the hot and cold water mixing section, a water flow path from the hot and cold water mixing section to the water discharge section, and a flow control valve formed in the water flow path,
Furthermore, a drain device is provided with a drain hole at a connection portion of the pipe. A hot and cold water mixing section that mixes hot and cold water that has passed through a connection section with a water supply pipe and a hot water supply pipe is arranged such that the longitudinal direction of the hot and cold water mixing section is vertical,
A plurality of pipes are added and connected so as to form a support above the hot and cold water mixing section,
In the pipe, a water discharge section communicating with the hot and cold water mixing section, a water passage from the hot and cold water mixing section to the water discharge section, a flow control valve formed in the water passage, a temperature adjustment handle below the hot and cold water mixing section, And a water drain hole is provided at a lower end of the temperature adjustment handle.

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