JP5674244B2 - Water discharge device - Google Patents

Description

  The present invention relates to a water discharging device that discharges water supplied from a nozzle.

A conventional water discharging apparatus, for example, a human body hygiene cleaning apparatus that cleans a local part of a human body, discharges water from the water outlet to the human body and removes dirt with the cleaning water. The water flow of the washing water can be adjusted, and the user can raise the water flow to quickly remove dirt, or perform washing with a stimulating and strong water discharge. In addition, the water flow can be lowered and washing can be performed with soft water discharge, and the desired water discharge can be selected by changing the water flow in this way.

Furthermore, when trying to wash with a stronger water flow, in order to discharge a large amount of wash water, or to improve the feeling of washing in the case of washing a wider area and human body, a wide range of water discharged from the washing nozzle is used. It was necessary to discharge a large amount of water.
As a technique for achieving this effect with a smaller amount of water discharge, there is a technique of changing the instantaneous flow rate after water discharge by providing water discharge fluctuation means as disclosed in Japanese Patent Laid-Open No. 2001-081837.
In addition, as a technique for obtaining a variety of washing feelings, there is known a technique for independently controlling the revolution frequency and the washing water flow rate as disclosed in JP-A-2008-008084.

JP 2001-081837 A JP 2008-008084 A

However, in the configuration of Patent Document 2, even if an attempt is made to achieve linear water discharge, the water flows in from the side of the swirl chamber and the tangential direction, and the rotating body is not held on the central axis of the swirl chamber and discharges water in an unintended direction. There is a problem.
In order to realize various cleaning feelings, it is desirable to be able to select a cleaning area varying means and a means capable of arbitrarily changing the stimulation as in Patent Document 2.
Therefore, the structure provided with the means to vary the instantaneous flow rate like patent document 1 to the water discharging apparatus provided with the rotating water discharging body like patent document 2 can be considered.
However, even in this configuration, the rotating body is not held on the central axis of the swirl chamber, and the rotating body moves with the instantaneous flow rate fluctuation, resulting in a sparse water discharge direction.
Of course, this can be achieved by dividing the water discharge holes for rotary water discharge and spot cleaning, but each requires a water discharge port and a flow path, leading to the complexity and enlargement of the water discharge device.

This invention solves the said problem, and provides the water discharging apparatus which can discharge water in arbitrary directions, without rotating a water discharging body. Furthermore, the water discharging apparatus which can discharge water in arbitrary directions even if it uses an instantaneous flow volume fluctuation | variation means is provided.

1st invention is a water discharging apparatus provided with a nozzle, and discharging the supplied wash water from the nozzle,
The nozzle includes a swirl chamber into which wash water flows, a first water supply unit that supplies wash water to the swirl chamber, a water discharge hole provided at an upper end of the swirl chamber, and one end portion on the water discharge hole side. In addition, a water discharge body in which a water discharge passage is formed in which the water supplied to the swirl chamber can be discharged from the one end side, and a flexible grip body that holds the water discharge body And a second water supply unit that supplies cleaning water to the swirl chamber different from the first water supply unit,
The cleaning water from the first water supply unit is supplied toward the side surface of the water spouting body, and the cleaning water from the second water supply unit is supplied to the other end side of the water discharging body. It is the water discharging apparatus characterized.

  According to the present invention, the cleaning water is supplied from the first water supply unit, so that a wide range of cleaning is possible by rotating the water discharge body, and the water discharge body is supplied by supplying the cleaning water from the second water supply unit. It is possible to discharge water in any direction without rotating.

2nd invention is the water discharging apparatus of Claim 1 which provided the pulsation generation | occurrence | production means in the upstream of said 2nd water supply part.

According to the present invention, the water discharge device according to claim 1 can discharge water in an arbitrary direction even when pulsation generating means is provided.

According to a third aspect of the present invention, the other end portion of the water spouting body is within a projected area when the second water supply hole connecting the second water supply portion and the swirl chamber is viewed from the second water supply portion to the swirl chamber side. The water discharging device according to claim 1, wherein

According to the present invention, in the water discharge device according to the first aspect, when the wash water is supplied from the second water supply unit, the water discharge body can be stabilized in an arbitrary direction.

The present invention can provide a water discharger capable of discharging water in any direction without rotating the water discharge body.

It is a perspective view at the time of installing the human body hygiene washing | cleaning apparatus 300 provided with the water discharging apparatus of this invention in the toilet bowl. It is a block diagram showing schematic structure of the local washing | cleaning apparatus 300 of a present Example. It is sectional drawing showing schematic structure of the washing nozzle 308 of a present Example. It is sectional drawing showing schematic structure of the electromagnetic pump 305 of a present Example.

Next, an embodiment of a water discharge device and a human body hygiene cleaning device according to the present invention will be described based on examples. FIG. 1 shows a perspective view when a human body hygiene cleaning device 300 equipped with a water discharge device of the present invention is installed in a toilet bowl. The user performs cleaning with the cleaning water discharged from the cleaning nozzle, and operates the human body cleaning apparatus 300 with the remote control operation unit 7 shown in the drawing. FIG. 2 is a block diagram showing a schematic configuration of the local cleaning device 300 of the present embodiment.

As shown in FIG. 2, the local cleaning apparatus 300 includes a water supply unit 302, a heat exchange unit 304, an electromagnetic pump 305, a flow control valve 306, and a cleaning nozzle 308 in order from the external water supply source side. The cleaning nozzle 308 is configured to move back and forth between a standby position in the apparatus main body and each of the buttocks or bidet cleaning positions by a nozzle drive motor 310.

The flow control valve 306 is connected to the rear end of the cleaning nozzle 308. A flow path switching mechanism 71 is incorporated in the rear end portion of the cleaning nozzle 308. The flow path switching mechanism 71 is mounted integrally with the nozzle end. A nozzle head 200 is attached to the tip of the cleaning nozzle 308, and a butt cleaning water discharge hole 31 and a bidet cleaning water discharge hole 33 are formed in the nozzle head 200.

The local cleaning device 300 sends the cleaning water whose flow rate is adjusted by the flow control valve 306 to the cleaning nozzle 308 through the flow path switching mechanism 71 and discharges water from the butt cleaning water discharge hole 31 and the bidet cleaning water discharge hole 33. .

As shown in FIG. 2, the local cleaning device 300 includes an electronic control device 312. The electronic control unit 312 controls the butt cleaning button 9 1, the bidet cleaning button 93, the flow rate adjustment button (Δ and ▽ above the remote control 7 in FIG. 2) provided on the remote control operation unit 7, and the cleaning flow of the human body cleaning device. Electric signals are transmitted to and received from the water button to be adjusted (△, ▽ on the lower side of the remote control 7 in FIG. 2), the water supply unit 302, the heat exchange unit 304, the flow control valve 306, the cleaning nozzle 308, and the nozzle drive motor 310. Connected as possible.

The electronic control device 312 adjusts the forward / backward drive of the cleaning nozzle 308, the supply and stop of the cleaning water, the warming of the cleaning water, the adjustment of the cleaning water flow, and the cleaning strength according to the operation of each operation button. Controls such as flow rate adjustment.

Next, the configuration of the cleaning nozzle 308 will be described with reference to FIG. FIG. 3 is a cross-sectional view of the nozzle head 200 when not passing water.

When the cleaning water is supplied to the cleaning nozzle 308, it passes through the water passage 62, the swirl chamber inflow passage 63, and the swirl chamber 64 in the nozzle head 200 in this order.

The swirl chamber inflow passage 63 is configured to have a smaller water flow cross-sectional area than the water flow passage 62, and is configured to be eccentric with respect to the center of the swirl chamber 64 and to supply cleaning water.

Further, the flow path switching mechanism 71 incorporated in the cleaning nozzle 308 can switch the flow path to the cleaning water flow path 82 different from the water flow path 62 in the nozzle head 200.

In the water passage 82 in the nozzle head 200, the supplied cleaning water forms a swirl chamber inflow passage 83 on the central axis of the swirl chamber 64, and the wash water is supplied to the swirl chamber 64 in the axial direction. The

Here, the cleaning water channel 62 corresponds to the “first water supply unit”, and the cleaning water channel 82 corresponds to the “second water supply unit”.

A water spouting body 70 is provided inside the swirling chamber 64, and the water spouting body 70 communicates with a water supply port 74 to which the cleaning water is supplied to discharge the spout water, and the cleaning water in the swirling chamber 64. It is comprised from the force receiving part 75 which receives the energy of a flow more. The water supply port 74 opened on the side surface of the water discharge body 70 and the water discharge hole 73 opened on the upper surface of the water discharge body 70 communicate with each other through the water discharge flow path.

A retaining member 76 having a through hole 76a in the center is provided in the upper portion of the swirl chamber 64, and the retaining member 76 is gripped so that the force receiving portion 75 of the water spouting body 70 can be inclined and revolved with respect to the central axis in the swirl chamber 64. A body 72 supports the upper portion of the water discharge body 70.

Accordingly, the wash water is supplied from the swirl chamber inflow path 63 into the swirl chamber 64 and the wash water swirls inside the swirl chamber 64 to generate the centrifugal force generated by the swirl chamber 64 and the kinetic energy of the wash water. 75 is received, and the spouting body 70 is configured to undergo a revolving motion (swing motion) while being inclined with respect to the central axis of the swirl chamber 64.

With the above-described configuration, when cleaning water is supplied from the swirl chamber inflow path 63 to the swirl chamber 64, the wash water flows into the water discharge body 70 from the water supply port 74 opened on the side surface of the water discharge body 70. The wash water that has flowed into the water discharge body 70 from the water supply port 74 is jetted and discharged from the water discharge hole 73 communicating with the inside of the water discharge body 70. That is, the water discharge body 70 performs the revolving motion around the central axis of the swirl chamber 64 and sprays and discharges the cleaning water, so that the trajectory of the discharged cleaning water is expanded and discharged conically while drawing a spiral.

  Further, when the cleaning water is supplied from the swirl chamber inflow path 83 to the swirl chamber 64, the swirl chamber inflow path 83 is provided on the central axis of the swirl chamber 64, and the entire periphery of the force receiving portion 75 of the water spouting body 70. Since the washing water is passed through the water receiving body 75, the supply force 75 of the water spouting body 70 has a uniform supply pressure. Therefore, the washing water does not swirl in the swirl chamber 64, and the water spouting body 70 is the central axis of the swirling chamber 64. The state is maintained without rotating upward.

  Therefore, when the cleaning water is supplied from the cleaning water flow path 82 and the swirl chamber inflow path 83 to the swirl chamber 64, the cleaning water flows into the spout 70 from the water supply port 74 provided on the side surface of the spout 70. . The wash water that has flowed into the water discharge body 70 from the water supply port 74 is jetted and discharged from the water discharge hole 73 communicating with the inside of the water discharge body 70. That is, since the water discharge body 70 does not perform revolving motion, water is discharged linearly.

  Although the swirl chamber inflow passage 83 is arranged on the axis of the swirl chamber 64, the spouting body 70 is held on the central axis of the swirl chamber 64 without revolving. When there is a large amount of misalignment between the central axis of the swirl chamber inflow path 83 and the central axis of the swirl chamber 64 and a large amount of washing water, the swirl chamber 64 swirls due to an increase in the flow velocity flowing into the swirl chamber 64. There is also a possibility that the water pressure balance in the chamber 64 is not uniform.

  Therefore, when the water spouting body 70 is disposed within the projected area of the inflow opening of the swirling chamber inflow passage 83 when viewed in the direction in which the cleaning water flows in the swirling chamber inflow passage 83, the entire circumference of the force receiving portion 75 of the water spouting body 70 is provided. Thus, a water flow in the swirl chamber axial direction is generated, and the water spouting body is more easily held on the central axis of the swirl chamber 64.

  Next, the configuration of the electromagnetic pump 305 provided as pulsation generating means will be described. FIG. 4 is a longitudinal sectional view showing a partial section thereof.

The main part of the main body 20 that fits in the upstream end of the tube column cylinder 39 that is fitted in and surrounded by the axial hole of the electromagnetic coil 34 mounted on the bobbin 33, and the downstream end thereof The electromagnetic plunger 38 provided with a check valve 55, which is slidably reciprocated between the holding spring 40 and the return spring 36, respectively, between the holding head 40 and the return spring 36, is provided between the magnetic head 35 fitted to the portion. When a pulsed intermittent current is energized to the coil 34, the coil 34 is configured to reciprocate by the intermittent magnetic force generated there and the repulsive force of the return spring 36.

  When the electromagnetic plunger 38 reciprocates, the washing water is pressurized to give a wave-like shocking pulsation and jetted from the discharge side.

  Even when the washing water to which the wave-like shock pulsation is applied is supplied to the washing nozzle 308 and passes through the washing water flow path 82, the swirl chamber inflow path 83, and the swirl chamber 64 in the nozzle head 200 in this order, the swirl chamber inflow path 83 passes through the swirl chamber inflow path 83. Since it is provided on the swirl chamber axis, the state can be maintained without rotating on the central axis even when the water discharger 70 receives a fluctuating pressure.

Since the water spouting body 70 is held and the water spouting body 70 does not perform the revolving motion as previously, the water discharging body 70 is linear and wave-like shock pulsating water discharge, thereby enhancing the cleaning effect.

308 Washing nozzle 62 First water supply unit 64 Swirl chamber 70 Water discharge body 71 Flow path / flow rate switching mechanism (flow rate adjustment unit)
72 Grasping body
73 Water outlet
74 Water supply port 82 Second water supply part

Claims (3)

A water discharge device that includes a nozzle and discharges supplied cleaning water from the nozzle,
The nozzle includes a swirl chamber into which wash water flows, a first water supply unit that supplies wash water to the swirl chamber, a water discharge hole provided at an upper end of the swirl chamber, and one end portion on the water discharge hole side. In addition, a water discharge body in which a water discharge passage is formed in which the water supplied to the swirl chamber can be discharged from the one end side, and a flexible grip body that holds the water discharge body And a second water supply unit that supplies cleaning water to the swirl chamber different from the first water supply unit,
The cleaning water from the first water supply unit is supplied toward the side surface of the water spouting body, and the cleaning water from the second water supply unit is supplied to the other end side of the water discharging body. A water discharge device.   The water discharge device according to claim 1, wherein pulsation generating means is provided upstream of the second water supply unit. The other end of the water spouting body has a second water supply hole that connects the second water supply unit and the swirl chamber within a projected area when viewed from the second water supply unit to the swirl chamber side. The water discharging apparatus according to claim 1 or 2.
.