JP3812012B2 - Human body cleaning device - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
  The present invention relates to a human body cleaning apparatus for cleaning a human body, such as a shower and a warm water cleaning toilet seat.
[0002]
[Prior art]
  A conventional human body washing apparatus of this type is shown in FIG. 9 (for example, Japanese Patent Laid-Open No. 5-33377).
[0003]
  FIG. 9 is a schematic view showing a cleaning water supply system. In FIG. 9, reference numeral 1 denotes a pump. A water supply pipe 2 is connected to the upstream side of the pump 1, and an aeration unit 3 is connected to the downstream side. A compressor 5 is connected to the aeration unit 3, and a cylindrical suction head 4 made of ceramic is provided inside. Further, a heat exchanger 6 and a nozzle device 7 are provided on the downstream side of the aeration unit 3. With this configuration, the wash water supplied from the water supply pipe is pressurized by the pump 1 and reaches the aeration unit 3. In the aeration unit 3, the air supplied from the compressor 5 is refined by the suction head 4 and flows into the washing water. Further, the washing water that has passed through the aeration unit 3 reaches the heat exchanger 6, where it is heated to an appropriate temperature, and is then ejected from the nozzle device 7. As a result, the washing water ejected from the nozzle device 7 contains bubbles, so that a soft experience can be obtained.
[0004]
[Problems to be solved by the invention]
  However, in the above-described conventional configuration, a soft washing jet can be obtained by the foam water containing fine bubbles. However, since the purpose is cleaning with foam water, the amount of bubbles mixed in is naturally set to be small. For this reason, it is not possible to expect a significant reduction in the amount of washing water due to the inclusion of bubbles and the accompanying power saving effect. In addition, when the heat exchanger is a hot water storage type, energy loss due to heat radiation from the hot water storage portion is large, and enormous running costs are required.
[0005]
  In addition, when the heat exchanger is an instantaneous type that can be configured with a normal household power supply, its boiling capacity is not sufficient, and washing water that does not contain bubbles or foam water that contains a small amount of fine bubbles. Thus, it is difficult to obtain a water flow rate and temperature suitable for washing a human body. That is, there is a problem that, in winter use in a cold region, it is not possible to obtain wash water at a temperature suitable for human body washing, and it is necessary to reduce the amount of wash water itself. Furthermore, since the instantaneous heat exchanger generally uses a heater with a large capacity and watt density, if a large amount of air bubbles are mixed in the cleaning water to reduce the amount of cleaning water, the temperature distribution on the heater surface will be reduced. Since it becomes non-uniform | heterogenous, the part which becomes high temperature arises locally, and the lifetime of a heater falls remarkably as a result.
[0006]
  Furthermore, when the air mixing position and the nozzle device are separated from each other, no matter how fine bubbles are mixed, the plurality of bubbles are integrated, and the bubbles existing in the cleaning water become large. Here, especially when air bubbles are mixed further upstream of the heat exchanger, the fine air bubbles in the washing water are expanded by heat, and further increase in the diameter of the air bubbles is further promoted. As a result, since the cleaning water ejected from the nozzle device becomes an intermittent flow of the cleaning water and bubbles, not only the cleaning feeling but also the cleaning sound becomes uncomfortable.
[0007]
  Further, in the above-described conventional configuration, since the bubble mixing position is fixed, the diameter of the bubbles existing in the washing water is substantially the same even if the ratio of the bubbles to be mixed is changed. Therefore, even if the mixing ratio of bubbles is changed, the user's experience does not change much. In other words, it is possible to change the cleaning strength by changing the flow rate of cleaning water, but it is difficult to change the bodily sensation itself, and it is difficult to achieve cleaning that meets the user's various preferences. was there.
[0008]
[Means for Solving the Problems]
  In order to solve the above-mentioned problems, the present invention provides an instantaneous heating means for heating the washing water to an appropriate temperature, and providing an air flow path in the internal flow path in the washing nozzle so that the washing water heated by the heating means is provided. By mixing bubbles from the outlet of the air flow channel located in the vicinity of the outlet of the cleaning nozzle, the human body is cleaned by a cleaning jet containing a large amount of bubbles, and is included in the cleaning water. A large amount of bubbles are configured to be ejected from the cleaning nozzle in a fine state.
[0009]
  According to the above invention, the bubble mixing means forcibly mixes the bubbles into the washing water, so that the volume of the fluid ejected from the washing nozzle is approximately the volume of the bubbles mixed into the volume of the washing water. The ejection speed of the washing water ejected from the nozzle is greatly increased. Furthermore, since the bubbles contained in the washing water expand after the washing water is ejected, the washing water is appropriately diffused and ejected. Therefore, even if the amount of washing water is small, it becomes possible to set the momentum and diffusion range of the washing water to appropriate values for human body washing. At this time, even though a large amount of bubbles are mixed, it is ejected together with the washing water in a fine state, so that a very comfortable washing jet without an intermittent feeling can be obtained.
[0010]
  That is, it is possible to clean the human body with a very good feeling and cleaning power even with a small amount of cleaning water. Furthermore, since the human body is washed with a small amount of washing water, sufficient heat-up capability can be obtained even in a momentary configuration in which the heat exchanger can be configured with a normal household power supply. Washing water having an appropriate temperature can be obtained also in washing. As a result, water can be saved drastically, and energy savings can be achieved compared to the case where a hot water storage type heat exchanger is used. realizable.
[0011]
  Furthermore, in order to solve the above-described problems, the present invention is configured to vary the bubble mixing position in a single cleaning nozzle or to provide a plurality of cleaning nozzles each having different bubble mixing positions. is there.
[0012]
  According to the above-described invention, the size of the bubbles contained in the cleaning water ejected from the cleaning nozzle can be changed selectively so that a plurality of cleaning jets with different bodily sensations can be varied to suit various applications and user preferences. The human body can be cleaned.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
  The present invention includes a water supply channel for supplying cleaning water, an instantaneous heating unit having an electric heater as a heat source, a temperature detecting unit for detecting the temperature of the cleaning water heated by the heating unit, and a jet of cleaning water A cleaning nozzle provided with a jet nozzle, an internal flow path provided in the cleaning nozzle, an air flow path provided in the internal flow path and having an outlet for mixing bubbles into the cleaning water, and the air A bubble mixing means for forcibly mixing bubbles into the wash water through a flow path; and a controller for taking in the signal of the temperature detection means and controlling the heating means; and the outlet has the washing nozzle In the vicinity of the nozzle outlet, bubbles are mixed into the washing water heated by the heating means.And the air flow path was provided with bubble refining means at the outlet.
[0014]
  Then, the bubble mixing means forcibly mixes a large amount of bubbles into the cleaning water heated by an instantaneous heat exchanger having an electric heater, thereby greatly increasing the flow rate of the jetted cleaning water and cleaning. The jet will diffuse moderately. Therefore, it is possible to realize a human body washing apparatus that is very excellent in feeling and washing power even with a small amount of washing water and that can continuously pour water even in a cold region. Furthermore, since air bubbles are mixed from the air flow path provided in the internal flow path of the cleaning nozzle at the outlet located in the vicinity of the jet nozzle of the cleaning nozzle, a plurality of bubbles are integrated to increase the diameter. It can be suppressed, and it is spouted with washing water in a fine state. Therefore, it is possible to obtain a very comfortable cleaning jet that does not feel intermittent. Furthermore, a significant energy saving effect can be obtained by using water saving and instantaneous heating means.
[0015]
  Further, it is possible to further suppress an increase in diameter due to integration of a large amount of bubbles mixed in, and it is possible to realize a comfortable human body cleaning with a very excellent sensation and cleaning power by using cleaning water containing fine bubbles.
[0016]
  And since the air flow path is provided with the bubble refining means at the outflow port, it is possible to realize a comfortable human body cleaning that is very excellent in body feeling and cleaning power with washing water containing finer bubbles.
[0017]
  In the human body cleaning device according to the second aspect of the present invention, the internal flow path and the air flow path are integrally formed in the cleaning nozzle.
[0018]
  And while making the structure of a washing nozzle easy, the leak of the air at the time of bubble mixing, etc. can be prevented and the reliability can be improved greatly.
[0019]
  Further, it is possible to further suppress an increase in diameter due to integration of a large amount of bubbles mixed in, and it is possible to realize a comfortable human body cleaning with a very excellent sensation and cleaning power by using cleaning water containing fine bubbles.
[0020]
  In the human body cleaning apparatus according to the third aspect of the present invention, the air flow path is provided in parallel with the direction of flow of the cleaning water flowing in the internal flow path in the vicinity of the outlet.
[0021]
  In addition, it is possible to prevent an unnecessary increase in pressure when air bubbles are mixed in, prevent an increase in the size of the air bubble mixing means, prevent leakage at the time of air bubble mixing, and greatly improve the reliability.
[0022]
  In addition, the first of the present invention4In the invention, the human body cleaning apparatus includes a water supply channel for supplying cleaning water, an instantaneous heating unit having an electric heater as a heat source, a temperature detecting unit for detecting the temperature of the cleaning water heated by the heating unit, A cleaning nozzle having a jet outlet for jetting cleaning water, an internal flow path provided in the cleaning nozzle, a bubble mixing means for forcibly mixing bubbles in the cleaning water, and air supplied from the bubble mixing means The bubble mixing position is variable by changing the position of the merging point by selecting the merging point by providing a plurality of merging points of the washing water flowing in the inner flow path and different positions from the jet outlet in the internal flow path. And a controller for taking in the signal of the temperature detecting means and controlling the heating means and the bubble mixing position varying means.
[0023]
  The bubble mixing means forcibly mixes a large amount of bubbles into the cleaning water heated by an instantaneous heat exchanger having a heat source, so that even a small amount of cleaning water has a very good sensation and detergency and is also A human body washing apparatus capable of continuous hot water can be realized even on the ground. Furthermore, by selecting the position of the confluence point provided at a different position from the jet outlet in the internal flow path, the bubble mixing position varying means varies the bubble mixing position, thereby changing the diameter of the bubbles in the jetted washing water. It becomes possible. As a result, the degree of diffusion of the washing water and the size of the water particles change, so that the human body feels, the washing strength, and the washing area also vary greatly. That is, by changing the bubble mixing position, a plurality of cleaning jets can be selectively changed, and it is possible to select the optimal cleaning according to the usage of the cleaning and personal preference.
[0024]
  In addition, the first of the present invention5In the invention, the human body cleaning apparatus includes a water supply channel for supplying cleaning water, an instantaneous heating unit having an electric heater as a heat source, a temperature detecting unit for detecting the temperature of the cleaning water heated by the heating unit, A plurality of cleaning nozzles having jet nozzles for jetting cleaning water; a cleaning water switching means for selectively supplying the cleaning water supplied from the water supply channel to the plurality of cleaning nozzles; The bubble mixing part provided at different distances from the jet port, the bubble mixing means for forcibly mixing bubbles into the wash water through the bubble mixing part, and the bubbles supplied from the bubble mixing means An air flow path switching means for selectively supplying to a bubble mixing portion provided in a plurality of cleaning nozzles, and taking in a signal from the temperature detection means, as well as the heating means, the washing water switching means and the air flow path switching means. It is obtained by a controller for controlling.
[0025]
  The bubble mixing means forcibly mixes a large amount of bubbles into the cleaning water heated by an instantaneous heat exchanger having a heat source, so that even a small amount of cleaning water has a very good sensation and detergency and is also A human body washing apparatus capable of continuous hot water can be realized even on the ground. Furthermore, a plurality of cleanings with different sensations can be selected by providing bubble mixing portions at a plurality of cleaning nozzles at different distances from the jet nozzle, and by selectively switching the plurality of cleaning nozzles. As a result, it is possible to perform optimal cleaning according to the site to be cleaned, gender, and personal preference.
[0026]
  (Example 1)
  Embodiment 1 of the present invention will be described below with reference to the drawings.
[0027]
  FIG. 1 is a schematic configuration diagram of a human body cleaning apparatus showing Embodiment 1 of the present invention. A water supply path 8 for supplying cleaning water is connected to a heat exchanger 12 that forms part of the heating means via a water stop solenoid valve 9, a flow rate adjustment valve 10, and a flow rate sensor 11. Here, FIG. 2 shows a partial cross-sectional view of the heat exchanger 12. The heat exchanger 12 includes a heating flow path 13 therein, and an electric heater 14 that is a heat source that forms part of the heating means is provided in the vicinity. Note that the surface of the heating channel 13 in contact with the electric heater 14 is a material having excellent heat conduction so that heat from the electric heater 14 is efficiently transmitted to the washing water flowing in the heating channel 13, which is a copper plate in this embodiment. Further, the heating flow path 13 has a waveform shape having a plurality of bending points in order to increase the contact area with the electric heater 14. In the present embodiment, the electric heater 14 is a plate-shaped ceramic heater having an excellent heat density, but various applications such as a sheathed heater and a mica heater are conceivable.
[0028]
  Further, a thermistor 15 is provided on the downstream side of the heating channel 13 and detects the temperature of the washing water heated by the heat exchanger 12. Further, on the downstream side, a cleaning nozzle 18 having a spout 17 at the tip is connected via a water supply hose 16.
[0029]
  Here, the cleaning nozzle 18 will be described. The cleaning nozzle 18 is provided with an internal flow path 19 that communicates with the jet port 17, and an air flow path 20 is provided in the internal flow path 19 in parallel with the direction of flow of the cleaning water. The air flow path 20 is formed integrally with the cleaning nozzle 18 so that the air outlet 21 is located in the vicinity of the jet outlet 17 of the cleaning nozzle 18, and the air inlet 22 is connected to the air inlet 22 via a connection hose 23. An air pump 24 is connected as a bubble mixing means. In the present embodiment, the bubble mixing means is a positive displacement air pump that allows easy adjustment of the air discharge flow rate and is inexpensive. However, various applications such as reciprocating and turbo pumps, compressors, and air fans are considered. It is done.
[0030]
  The controller 25 reads the respective signals from the flow sensor 11 and the thermistor 15, and the motor 26 fixed to the water stop electromagnetic valve 9, the electric heater 14, the flow rate control valve 10, and the pump fixed to the air pump 24. The motor 27 and the like are controlled by an electrical signal. Further, the controller 25 exchanges signals with the remote controller 31 provided with the washing switch 28, the stop switch 29, the variable flow rate switch 30 and the like using infrared rays, and a plurality of instructions from the user are provided on the remote controller 31. Is made by the input switch.
[0031]
  In the above configuration, the operation of this embodiment will be described. First, when the user presses the cleaning switch 28 provided on the remote controller 31, the water stop electromagnetic valve 9 is opened, and cleaning water is supplied from the water supply path 8. The supplied wash water flows into the heating flow path 13 in the heat exchanger 12 through the flow rate control valve 10 and the flow rate sensor 11. At this time, the controller 25 reads the flow rate signal from the flow rate sensor 11, and after the supply of water to the heat exchanger 12 is confirmed, power supply to the electric heater 14 is started. This is an operation for preventing the air heater 14 from flying.
[0032]
  The controller 25 controls the motor 26 fixed to the flow rate control valve 10 based on the flow rate signal fed back from the flow rate sensor 11, and matches the flow rate designated by the flow rate variable switch 29 provided on the remote control 31. Adjust the flow rate so that. When power supply to the electric heater 14 is started, the washing water flowing through the heating flow path 13 is gradually heated by absorbing heat from the electric heater 14. The temperature of the wash water that has passed through the heating channel 13 is then detected by reaching the thermistor 15, and the temperature signal is fed back to the controller 25. The controller 25 compares the fed back value with the set temperature set by the remote controller 31 to vary the amount of power supplied to the electric heater 14 and supply cleaning water having the optimum temperature for the user.
[0033]
  Here, the cleaning water whose temperature and flow rate are set as set forth reaches the cleaning nozzle 18 through the water supply hose 16, passes through the internal flow path 19, and is jetted from the jet outlet 17 toward the human body. At that time, the pump motor 27 drives the air pump 24 so that a large amount of air is forcibly supplied to the air inlet 22 via the connection hose 23. Since the supplied air passes through the air flow path 20 and becomes bubbles from the air outlet 21 and is mixed into the wash water flowing through the internal flow path 19, the gas-liquid two-phase containing a large amount of bubbles from the jet outlet 17 A stream will be ejected. Therefore, the same effect as when the apparent volume of the washing water is increased can be obtained, and the flow rate of the washing water ejected can be significantly increased as compared with the case where the washing water is ejected alone. That is, the momentum of the cleaning water can be reliably increased.
[0034]
  Here, FIG. 3 is a graph showing the outline of the relationship between the air mixing ratio and the momentum of the cleaning water when the mixing ratio of bubbles is varied while the cleaning water amount is constant, the horizontal axis is the air mixing ratio, and the vertical axis is the cleaning. The momentum of water and the solid line show the relationship between them. A broken line in the graph represents an approximate value of momentum of a conventional human body cleaning apparatus that ejects only the washing water having a flow rate about twice the washing water flow rate in the present embodiment or foam water. As is clear from this graph, even if the flow rate of the wash water used is about half, increasing the amount of bubbles mixed in increases the flow rate of the wash water to be ejected, resulting in the momentum of the wash water amount being reduced. It can be raised to the same level as that of a conventional human body washing apparatus that is approximately twice as large. Furthermore, since the washing water ejected from the jet outlet 17 is appropriately diffused by the bursting of the bubbles, the washing area is widened, and a washing jet having an appropriate stimulus that does not cause the user to feel pain can be realized. . Here, since the air pump 24 is a positive displacement pump, even if the pressure in the internal flow path 19 is high, a large amount of air can be reliably mixed.
[0035]
  However, in general, when bubbles are mixed in the washing water, a plurality of bubbles are integrated while flowing through the water flow path, the diameter increases and the number decreases. The cleaning jet ejected from the jet outlet 17 becomes an intermittent flow of cleaning water and air. In this case, the sensation and the cleaning sound when the human body is cleaned may be very deteriorated. However, in this embodiment, the air outlet 21 of the air flow path 20 is provided in the vicinity of the jet outlet 17 of the cleaning nozzle 18. Many of the air bubbles mixed from here are ejected from the outlet 17 in a fine state without being integrated. As a result, even if a large amount of air bubbles are mixed from the air pump 24, the human body can be washed without deteriorating the feeling of washing. It can be carried out.
[0036]
  In addition, since the air flow path 20 is provided in parallel with the flow direction of the wash water flowing in the internal flow path 19, it is possible to prevent the pressure in the vicinity of the air outlet 21 from increasing due to the dynamic pressure of the wash water. As a result, the capability of the air pump 24 as the bubble mixing means can be minimized, and the reliability of the seal portion for preventing air leakage can be improved.
[0037]
  In addition, since air bubbles supplied from the air pump 24 are mixed through the air flow path 20 provided in the cleaning nozzle 18, cleaning water containing a large amount of air bubbles enters the heating flow path 13 in the heat exchanger 12. Inflow does not occur, temperature unevenness on the surface of the electric heater 14 can be prevented, the possibility of cracking of the electric heater 14 is reduced, and reliability is improved.
[0038]
  According to the configuration of this embodiment, since a large amount of bubbles can be mixed in a small amount of washing water, the flow velocity of the washing jet can be greatly improved. It becomes possible to perform excellent cleaning of the human body. Further, by using the air pump 24, a large amount of bubbles can be reliably mixed into the cleaning water, and the flow rate of the cleaning water to be used can be greatly reduced. As a result, even when low-temperature water in a cold region is heated by an instantaneous heating means that does not have a hot water storage tank, sufficient boiling capacity can be obtained and comfortable cleaning can be realized, resulting in a reduction in running costs. Connected. In addition, there is an effect that it is possible to realize a cleaning device that can perform comfortable cleaning without the intermittent feeling of the cleaning water and the generation of unpleasant noise, and also has excellent reliability.
[0039]
  (Example 2)
  Next, Embodiment 2 of the present invention will be described with reference to FIG. In this case, since the schematic configuration is substantially the same as that of the first embodiment and a part of the configuration of the cleaning nozzle 18 is different, the description will focus on the different points. In addition, since the thing of the same code | symbol as Example 1 has the same structure, description is abbreviate | omitted.
[0040]
  As in the first embodiment, the cleaning nozzle 18 is provided with a jet port 17, an internal channel 19, an air channel 20, an air outlet 21, and an air inlet 22, but here, the air outlet 21 is further porous. A bubble refining means 32 composed of a body is provided.
[0041]
  In the above configuration, the operation of this embodiment will be described. The operation is almost the same as in the first embodiment, but the air supplied from the air pump 24 passes through the air flow path 20 and the air flow outlet 21 from the air inlet 22 and further passes through the bubble refinement means 32. , Mixed in the washing water in the internal flow path 19. At this time, the bubbles are mixed in the cleaning water in a very fine state by the action of the bubble refining means 32. For this reason, the washing water ejected from the jet outlet 17 has fine bubbles, so the feeling is very soft, but the amount of momentum of the washing water is large due to the mixing of a large amount of bubbles, and it has an appropriate feeling of stimulation. .
[0042]
  (Example 3)
  Next, Embodiment 3 of the present invention will be described with reference to FIG. In this case, since the schematic configuration is substantially the same as that of the first embodiment, and the configuration of the cleaning nozzle 18 and a part of the operation of the controller 25 are different, the different points will be mainly described. In addition, since the thing of the same code | symbol as Example 1 has the same structure, description is abbreviate | omitted.
[0043]
  A water supply hose 16 is connected to the cleaning nozzle 18 in the same manner as in the first and second embodiments, and an appropriate temperature and flow rate of cleaning water supplied via the water supply hose 16 is ejected from the ejection port 17 via the internal flow path 19. It becomes the composition which is done.
[0044]
  The internal flow path 19 of the cleaning nozzle 18 is provided with a first air flow path 33 and a second air flow path 34 that form a part of the bubble mixing position variable means in parallel, and the first air flow path 33. Are provided with an air inlet 35 and an air outlet 36, and the second air flow path 33 is provided with an air inlet 37 and an air outlet 38. Here, the air outlet 36 and the air outlet 38 are located at different distances from the jet outlet 17, and the air inlet 35 and the air inlet 37 are respectively connected via connecting hoses 39a and 39b. It is connected to an air flow path switching valve 40 that forms part of the bubble mixing position varying means. Here, the air outlet 38 is provided closer to the jet outlet 17 than the air outlet 36. Further, the air flow path switching valve 40 is connected to the air pump 24, and the operation of the pump motor 27 and the air flow path switching valve 40 fixed to the air pump 24 is controlled by the controller 25.
[0045]
  In the above configuration, the operation of this embodiment will be described. First, the wash water supplied from the water supply hose 16 is jetted from the jet outlet 17 through the internal flow path 19. At this time, the bubbles supplied from the air pump 24 are either the air outlet 36 or the air outlet 38. It is mixed in the wash water from either side. That is, when the air flow path switching valve 40 selectively communicates the flow path from the air pump 24 to the connection hose 39a or the connection hose 39b by a signal from the controller 25, the air supplied from the air pump 24 is changed to the first level. Whether the air is guided to one air flow path 33 or the second air flow path 34 is determined.
[0046]
  Here, when the air pump 24 and the first air flow path 33 are selectively communicated by the air flow path switching valve 40, the air flow outlet 36 is provided in the very vicinity of the jet outlet 17, Bubbles mixed in from the nozzle reach the jet port 17 while remaining fine. Therefore, the sprayed washing water contains fine bubbles and diffuses over a wide range, so that a very soft feeling can be obtained.
[0047]
  When the air pump 24 and the second air flow path 34 are selectively communicated by the air flow path switching valve 40, the air flow outlet 38 is provided upstream from the jet outlet 17 at a predetermined distance. Therefore, some of the bubbles mixed from here are integrated in the washing water, and the diameter is somewhat increased to reach the jet port 17. Therefore, compared with the case where bubbles are mixed from the air outlet 37, the degree of diffusion of the wash water ejected is narrowed and the sensation is also strong.
[0048]
  According to the configuration of this embodiment, since a large amount of bubbles can be mixed in a small amount of washing water, the flow velocity of the washing jet can be greatly improved. It becomes possible to perform excellent cleaning of the human body. In addition, by changing the position where the bubbles are mixed, the diameter of the bubbles contained in the cleaning water is changed, and a change in the sensation associated therewith is used to obtain a plurality of cleaning jets despite a single cleaning nozzle. It becomes possible. That is, it is possible to selectively switch the cleaning jet according to the use scene and the user's preference.
[0049]
  In this embodiment, the bubble mixing position is set at two locations, but it goes without saying that it is possible to obtain a plurality of cleaning jets with different bodily sensations by increasing this position. It is also possible to make the flow path into a movable pipe shape and change the penetration depth steplessly, and to change the washing jet according to the user's preference.
[0050]
  (Example 4)
  Next, Embodiment 4 of the present invention will be described with reference to FIG. The present embodiment is also substantially the same as the first embodiment, and the configuration on the downstream side of the water supply hose 16 and a part of the operation of the controller 25 are different, so the differences will be mainly described. In addition, since the thing of the same code | symbol as Example 1 has the same structure, description is abbreviate | omitted.
[0051]
  A washing water switching valve 41 as washing water switching means is connected to the downstream side of the water supply hose 16, and further, the first washing nozzle 43 a and the second washing nozzle are connected to the downstream side via the water supply hoses 42 a and 42 b. 43b is provided in parallel. Here, the washing water switching valve 41 is configured to selectively communicate a flow path from the water supply hose 16 to the first washing nozzle 43a or the second washing nozzle 43b. The first cleaning nozzle 43a is provided with an internal flow path 44a and a jet outlet 45a, and the second cleaning nozzle 43b is provided with an internal flow path 44b and a jet outlet 45b, and the internal flow paths 44a and 44b are provided respectively. The washing water that has flowed in is jetted from the jet nozzles 45a and 45b. Here, the jet outlet 45a has a shape that secures a larger jet outlet area than the jet outlet 45b and provides a soft feel.
[0052]
  The internal flow path 44a of the first cleaning nozzle 43a is provided with an air flow path 48a having an air inlet 46a and an air outlet 47a. Similarly, the internal flow path 44b of the second cleaning nozzle 43b. Is provided with an air flow path 48b having an air inlet 46b and an air outlet 47b. The air inlet 46a and the air inlet 46b are connected to an air passage switching valve 49 as an air passage switching means via connection hoses 50a and 50b, and the air passage switching valve 49 is connected to the air pump 24. The Note that the air flow path switching valve 49 selectively communicates the flow path from the air pump 24 to the air flow path 48a or the air flow path 48b.
[0053]
  Here, the distance from the air outlet 47a provided in the first cleaning nozzle 43a to the jet outlet 45a is set shorter than the distance from the air outlet 47b provided in the second cleaning nozzle 43b to the jet outlet 45b. It is.
[0054]
  The operation of the flush motor switching valve 41, the air flow path switching valve 49, and the pump motor 27 fixed to the air pump 24 is controlled by the controller 25.
[0055]
  In the above configuration, the operation of this embodiment will be described. First, the controller 25 sends a signal to the washing water switching valve 41 to selectively communicate the flow path from the water supply hose 16 to the water supply hose 42a or the water supply hose 42b.
[0056]
  Similarly, when a signal is sent to the air flow path switching valve 48 and the previous water supply hose 16 and the water supply hose 42a communicate with each other, the air pump 24 and the connection hose 50a are connected to each other, and the water supply hose 16 and the water supply hose 42b communicate with each other. In the case of communication, the air pump 24 and the connection hose 50b are operated to communicate with each other. Here, when the water supply hose 16 and the water supply hose 42a are communicated with each other by a signal from the controller 25, the cleaning water supplied from the water supply hose 16 flows into the internal flow path 44a of the cleaning nozzle 48a and is ejected from the jet outlet 45a. . At this time, when the air pump 24 and the connection hose 50a are communicated and the pump motor 27 fixed to the air pump 24 is driven, the air supplied from the air pump 24 passes through the air inlet 46a and the air flow path 48a. Then, it is mixed in the washing water from the bubble outlet 47a. In this case, since the air outlet 46a is provided in the very vicinity of the jet outlet 45a, the air bubbles mixed from here reach the jet outlet 45a while being fine. Therefore, the sprayed washing water contains fine bubbles and diffuses over a wide range, so that a very soft feeling can be obtained.
[0057]
  Similarly, when the water supply hose 16 and the water supply hose 42b are communicated with each other by a signal from the controller 25, the cleaning water supplied from the water supply hose 16 flows into the internal flow path 44b of the cleaning nozzle 48b and is ejected from the jet outlet 45b. The At this time, when the air pump 24 and the connection hose 50b are communicated with each other and the pump motor 27 fixed to the air pump 24 is driven, the air supplied from the air pump 24 passes through the air inlet 46b and the air flow path 48b. Then, it is mixed in the washing water from the bubble outlet 47b. In this case, since the air outlet 47b is provided on the upstream side at a predetermined distance from the jet outlet 45b, the air bubbles mixed from here are partly integrated in the wash water, and the diameter is somewhat increased. 45b. Therefore, compared with the case where cleaning water and air are supplied to the cleaning nozzle 43a and the cleaning water is jetted, coupled with the influence of the shape of the jet outlet 45b, the sprayed cleaning water has a relatively narrow degree of diffusion and a bodily sensation. It becomes a strong stimulus.
[0058]
  According to the configuration of the present embodiment, by providing a plurality of washing nozzles having different jet nozzle shapes and further making the bubble mixing positions different from each other, it is possible to obtain jets having completely different sensations from the respective washing nozzles. Is possible. In other words, an optimum washing jet flow can be obtained by optimizing the bubble mixing position in a plurality of washing nozzles having different jet nozzle shapes. In other words, it is possible to selectively switch the cleaning jet according to the use scene and the user's preference, and it is possible to obtain the effect that the cleaning part and the purpose can be cleaned by using a plurality of nozzles. .
[0059]
  (Example 5) Next, Example 5 of this invention is demonstrated using FIG. The present embodiment is substantially the same as the first embodiment, and a part of the structure of the cleaning nozzle 18 is different. Therefore, the differences will be mainly described. In addition, since the thing of the same code | symbol as Example 1 has the same structure, description is abbreviate | omitted.
[0060]
  As in the first embodiment, the cleaning nozzle 18 is provided with the jet port 17 and the internal flow path 19, but here, the aeration unit 51 is provided on the relatively upstream side of the cleaning nozzle 18. Further, a sponge 52 as a bubble crushing means is provided in the vicinity of the jet outlet 17 in the internal flow path 19.
[0061]
  In the above configuration, the operation of this embodiment will be described.
[0062]
  Although the operation is almost the same as that of the first embodiment, the air supplied from the air pump 24 is mixed into the cleaning water in the internal flow path 19 from the air mixing section 51. The mixed bubbles reach the sponge 52 in a relatively large state, where they are finely crushed and are ejected from the ejection port 17 together with the washing water. For this reason, the washing water ejected from the jet outlet 17 has fine bubbles, so the feeling is very soft, but the amount of momentum of the washing water is large due to the mixing of a large amount of bubbles, and it has an appropriate feeling of stimulation. . Although the sponge 52 is used as the porous body here, various applications such as a perforated plate and ceramics are conceivable.
[0063]
  (Example 6)
  Next, Embodiment 6 of the present invention will be described with reference to FIG. The present embodiment is substantially the same as the first embodiment, and a part of the structure of the cleaning nozzle 18 is different. Therefore, the differences will be mainly described. In addition, since the thing of the same code | symbol as Example 1 has the same structure, description is abbreviate | omitted.
[0064]
  As in the first embodiment, the cleaning nozzle 18 is provided with the jet port 17 and the internal flow path 19, but here, the aeration unit 51 is provided relatively upstream of the cleaning nozzle 18. Further, in the vicinity of the jet port 17, a rotor 53 is provided as a bubble crushing unit having a predetermined clearance with the internal flow path 19. The rotor 53 is rotatably provided on the rotor fixing plate 54, and the rotor fixing plate 54 is fixed to the cleaning nozzle 18. The rotor fixing plate 54 is provided with a washing water passage port 55, and the washing water supplied from the water supply hose 16 flows into the jet port 17. Furthermore, the rotor 53 is provided with a rotor blade 56, and the rotor 53 is turned by passing washing water.
[0065]
  In the above configuration, the operation of this embodiment will be described. Although the operation is almost the same as that in the first embodiment, the air supplied from the air pump 24 is mixed into the cleaning water in the internal flow path 19 from the air mixing section 51. The mixed bubbles reach the rotor 53 in a relatively large state, but are finely crushed by being agitated by the rotor and are ejected together with the washing water from the ejection port 17. Therefore, the washing water ejected from the jet outlet 17 has a very soft feeling because the contained bubbles are fine, but the momentum of the washing water is large due to the mixing of a large amount of bubbles, and has a moderate sensation. Become. Here, the rotor 53 is configured to rotate by passing the cleaning water. However, the rotor 53 may be provided with some kind of actuator and may be forcibly rotated.
[0066]
  In the first to sixth embodiments described here, a human body local cleaning apparatus that performs local cleaning, particularly among human bodies, has been described. However, this embodiment is applicable to general human body cleaning apparatuses such as showers and faucets. Of course, it can be applied.
[0067]
【The invention's effect】
  As is clear from the above description, the human body cleaning device of the present invention has the following effects.
[0068]
  Since the bubble mixing means forcibly mixes the bubbles into the washing water, the jet speed of the washing water ejected from the washing nozzle is greatly increased, and the bubbles contained in the washing water expand after the washing water is jetted. The washing water is diffused and ejected moderately. Therefore, it is possible to clean the human body with a very good feeling and cleaning power even with a small amount of cleaning water. Air bubbles are located in the vicinity of the nozzle outlet of the cleaning nozzle in the air channel provided in the internal channel of the cleaning nozzle.Provided with bubble miniaturization meansSince it mixes in from an outflow port, it can suppress that a some bubble is integrated and enlarging a diameter, and it is ejected with washing water in a fine state. Therefore, it is possible to obtain a very comfortable cleaning jet that does not feel intermittent. In addition, the heat exchanger has an instantaneous configuration that can be configured with a normal household power supply. In addition, it is possible to realize a comfortable and clean human body washing apparatus capable of continuous hot water.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a human body cleaning apparatus according to a first embodiment of the present invention.
FIG. 2 is a perspective view showing a heat exchanger (heating means) of the human body washing apparatus.
FIG. 3 is a graph showing an outline of the relationship between the air mixing ratio and the momentum of the cleaning water when the mixing ratio of bubbles is varied with a constant amount of cleaning water of the human body cleaning apparatus.
FIG. 4 is a cross-sectional view showing a cleaning nozzle of a human body cleaning apparatus in Embodiment 2 of the present invention.
FIG. 5 is a schematic configuration diagram of a main part of a human body cleaning apparatus according to a third embodiment of the present invention.
FIG. 6 is a schematic configuration diagram of a main part of a human body cleaning device according to a fourth embodiment of the present invention.
FIG. 7 is a cross-sectional view showing a cleaning nozzle of a human body cleaning apparatus in Embodiment 5 of the present invention.
FIG. 8 is a cross-sectional view illustrating a cleaning nozzle of a human body cleaning apparatus according to a sixth embodiment of the present invention.
FIG. 9 is a schematic configuration diagram of a conventional human body cleaning apparatus.
[Explanation of symbols]
  8 water supply channels
  12 Heat exchanger (heating means)
  14 Electric heater
  15 Thermistor (temperature detection means)
  17 Spout
  18 Cleaning nozzle
  19 Internal flow path
  20 Air flow path
  21 Air outlet (outlet)
  24 Air pump (bubble mixing means)
  25 Controller
  32 Bubble miniaturization means
  33 1st air flow path (bubble mixing position variable means)
  34 2nd air flow path (bubble mixing position variable means)
  40 Air flow path switching valve (Bubble mixing position variable means)
  41 Wash water switching valve (wash water switching means)
  43a First cleaning nozzle
  43b Second cleaning nozzle
  49 Air flow path switching valve (Air flow path switching means)
  51 Bubble mixing part
  52 Sponge (bubble crushing means)
  53 Rotor (bubble crushing means)

Claims (5)

A cleaning nozzle having a water supply channel for supplying cleaning water, an instantaneous heating unit having a heat source, a temperature detecting unit for detecting the temperature of the cleaning water heated by the heating unit, and a jet nozzle for jetting the cleaning water An internal flow path provided in the cleaning nozzle, an air flow path provided in the internal flow path and having an outlet for mixing bubbles into the cleaning water, and the cleaning water through the air flow path. A bubble mixing means for forcibly mixing bubbles, and a controller for taking in the signal of the temperature detection means and controlling the heating means, and the outlet is provided with bubble miniaturization means, and the washing A human body cleaning apparatus, wherein air bubbles are mixed in cleaning water heated by the heating means, located in the vicinity of a nozzle outlet.   2. The human body cleaning apparatus according to claim 1, wherein the internal flow path and the air flow path are integrally formed in the cleaning nozzle.   The human body washing apparatus according to claim 1 or 2, wherein the air flow path is parallel to a flow direction of the wash water flowing in the internal flow path in the vicinity of the outlet.   A cleaning nozzle having a water supply channel for supplying cleaning water, an instantaneous heating unit having a heat source, a temperature detecting unit for detecting the temperature of the cleaning water heated by the heating unit, and a jet nozzle for jetting the cleaning water And an internal flow path provided in the cleaning nozzle, bubble mixing means for forcibly mixing bubbles in the cleaning water, air supplied from the bubble mixing means, and cleaning water flowing in the internal flow path A plurality of confluence points are provided at different positions from the jet outlet in the internal flow path, and a bubble mixing position variable means for changing the position of the confluence by selecting the confluence, and a signal from the temperature detection means are captured. And a controller for controlling the heating means and the bubble mixing position varying means.   A water supply path for supplying cleaning water, an instantaneous heating means having a heat source, a temperature detecting means for detecting the temperature of the cleaning water heated by the heating means, and a plurality of outlets for jetting the cleaning water A cleaning nozzle, cleaning water switching means for selectively supplying the cleaning water supplied from the water supply channel to the plurality of cleaning nozzles, and the plurality of cleaning nozzles provided at different distances from the jet nozzle, respectively. A bubble mixing unit, a bubble mixing unit that forcibly mixes bubbles into the wash water through the bubble mixing unit, and a bubble supplied from the bubble mixing unit is selected as the bubble mixing unit provided in the plurality of cleaning nozzles Human body washing apparatus comprising: an air flow switching means to be supplied and a controller that takes in the signal of the temperature detection means and controls the heating means, the washing water switching means, and the air flow path switching means

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