JP4593771B2 - Cleaning device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cleaning apparatus, and more particularly, to a cleaning apparatus that can attach a gargle nozzle, a hand washing nozzle, or the like to a bowl portion and can wash gargles, hands, fingers, and the like at any time.
[0002]
[Prior art]
Conventionally, there has been a hand washing machine in which a soap solution nozzle for supplying soap solution, a hand washing nozzle (faucet), etc. are provided on a bowl that can be attached to a wall surface.
[0003]
Along with the recent increase in interest in hygiene, a hand-washing machine provided with a disinfectant spray nozzle has also been proposed.
[0004]
These hand-washing machines are suitably installed in places where stricter hygiene management is required, such as hospitals and food factories.
[0005]
[Problems to be solved by the invention]
However, in recent years, in the above-mentioned places where sanitation management is strict, not only disinfection of hands and fingers but also gargle enforcement has been demanded, and installation of gargles has been widely promoted.
[0006]
However, separately installing the handwasher and the gargle requires a large installation space, and it is extremely inconvenient to perform gargle and handwash in a series of operations.
[0007]
Therefore, it is conceivable that a hand washing machine is provided with a gargle function, that is, a gargle nozzle. However, simply installing the gargle nozzle will contaminate the bowl surface after gargle, so a washing function is desired.
[0008]
In addition, it is not preferable from the viewpoint of hygiene if there is a stagnant liquid in the gargle nozzle or the flow path communicating therewith, and therefore a function of periodically discarding the stagnant liquid is also desired.
[0009]
However, in the conventional hand-washing machine, there has been no hand-washing apparatus with a gargle nozzle having such a function.
[0010]
An object of this invention is to provide the washing | cleaning apparatus which can solve the said subject.
[0011]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, in the present invention according to claim 1, the liquid that flows through the liquid supply path is formed by connecting the cleaning agent storage tank to the middle of the liquid supply path having a discharge port at the tip through the communication path. A cleaning device that can mix and dilute the cleaning agent with the liquid from the cleaning agent storage tank by the negative pressure generated by the dynamic pressure of the cleaning agent, and jet the liquid mixed with the cleaning agent from the discharge port. Discharging means for discharging the staying liquid is provided, and an electromagnetic opening / closing valve is attached to the communication path, and at least when the discharging means is driven, the electromagnetic opening / closing valve is in a closed state.
[0012]
According to a second aspect of the present invention, the first branch flow path branches from the middle of the liquid supply path and has a first discharge port at the tip, and the second branch has another discharge port at the tip. The cleaning agent storage tank is connected to the middle of the first branch flow path via the communication path, and the discharge means can discharge the staying liquid in both branch flow paths. When the discharging means is driven, the liquid is discharged from the first discharge port and the other discharge ports substantially simultaneously.
[0013]
In the present invention described in claim 3, the discharging means is automatically driven periodically.
[0014]
According to the fourth aspect of the present invention, when the discharge means is driven, the staying liquid is discharged from the other discharge ports before the first discharge port.
[0015]
Further, in the present invention described in claim 5, the discharge means includes at least an electromagnetic on-off valve.
[0016]
In the present invention described in claim 6, the first discharge port and the other discharge ports are disposed in the bowl portion.
[0017]
Further, in the present invention according to claim 7, a gargle nozzle is provided as the first discharge port, and a hand washing nozzle and / or a bowl cleaning nozzle for cleaning the inner surface of the bowl portion are provided as the other discharge ports. It was decided to.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
According to the present invention, a cleaning agent storage tank is connected to a middle of a liquid supply path provided with a discharge port at a front end via a communication path, and the cleaning agent storage tank is generated by a negative pressure generated by dynamic pressure of liquid flowing in the liquid supply path The cleaning device is capable of mixing and diluting the cleaning agent with the liquid and ejecting the liquid mixed with the cleaning agent from the discharge port, and includes a discharge means for discharging the liquid staying in the liquid supply path, and An electromagnetic on-off valve is attached to the communication path, and at least when the discharge means is driven, the electromagnetic on-off valve is in a closed state.
[0019]
The liquid supply path is branched from the middle thereof to form a first branch flow path having a first discharge port at the tip and a second branch flow path having another discharge port at the tip, The cleaning agent storage tank can be connected to the middle of the first branch flow path via the communication path.
[0020]
Furthermore, the discharge means is configured to discharge the staying liquid in both branch flow paths, and to discharge the liquid from the first discharge port and the other discharge ports substantially simultaneously when the discharge device is driven. It is desirable.
[0021]
The first discharge port may include a gargle nozzle, and the other discharge port may be a hand washing nozzle or a bowl cleaning nozzle for cleaning the inner surface of the bowl portion. In these, for example, the water supply can be used as a common water source, and each nozzle can be attached to the tip of a branch channel branched from a water pipe as a common liquid supply channel. Then, a tank containing a gargle as a cleaning agent is connected to the first branch flow path through a communication path, and the gargle liquid is caused by the negative pressure generated by the dynamic pressure of the clean water flowing through the first branch flow path. Garbage water can be ejected from the gargle nozzle by mixing and diluting with clean water.
[0022]
In addition, the cleaning device can be provided as a form of a hand-washing device by arranging the nozzles in the bowl part. By installing the nozzle in a hospital or a food factory where sanitation management is strict, Can be done in the work. In addition, since it is a compact structure as a hand-washing machine, it can naturally be expected to spread to ordinary households.
[0023]
In addition, the cleaning device provided as such a handwasher is provided with, for example, a soapy water supply nozzle and a disinfectant supply nozzle in addition to the above-described gargle nozzle, handwash nozzle, bowl wash nozzle, and the cleaning function. Can be increased.
[0024]
In such a cleaning apparatus, the object of the present invention is to prevent the gargle from staying for a long time in the gargle nozzle for discharging the gargle contained in the mouth and in the first branch flow path communicating therewith. To do.
[0025]
Accordingly, at least a discharge means for discharging the liquid staying in the first branch flow path is provided, and an electromagnetic on-off valve is attached to the communication path, and at least when the discharge means is driven, the electromagnetic on-off valve is closed. I am doing so.
[0026]
Here, at least when the discharging means is driven, the electromagnetic on-off valve is in a closed state. For example, the electromagnetic on-off valve is normally open, but when the discharging means is driven, the valve is closed. A configuration in which the valve is normally closed and a valve is opened only when the gargle nozzle is operated may be considered.
[0027]
By adopting such a configuration, it is possible to discharge the stagnant water in the gargle nozzle and the first branch flow path without consuming the gargle liquid.
[0028]
Further, the discharge means can be configured to discharge the accumulated water in the second branch flow path.
[0029]
That is, when the discharge means is driven, clean water is discharged almost simultaneously from the gargle nozzle that is the first discharge port, the hand-washing nozzle that is the other discharge port, the bowl cleaning nozzle, and the like. With such a configuration, even if the electromagnetic on-off valve attached to the communication path breaks down, the liquid is discharged from the gargle nozzle, the hand washing nozzle, the bowl washing nozzle, etc. substantially simultaneously when the discharge means is driven. Even if the water discharge opening of the gargle nozzle is upward, the jetting speed is reduced and the momentum is weakened. Become easier to understand.
[0030]
The discharging means may include at least an electromagnetic on-off valve, and may include the same electromagnetic on-off valve and a control unit that controls the electromagnetic on-off valve.
[0031]
If it is an electromagnetic on-off valve, it is easy to control its opening / closing operation, and it is easy to automatically drive it regularly and to set the drive timing.
[0032]
In other words, if the gargle nozzle is discharged first, for example, if the electromagnetic on-off valve attached to the communication path is out of order, the gargle liquid is also ejected after all. Therefore, it must be possible to drain at least simultaneously or first from the hand washing nozzle or the bowl washing nozzle.
[0033]
If an electromagnetic on-off valve is used, the electromagnetic on-off valve disposed in the branch passage communicating with the hand washing nozzle or the bowl washing nozzle is opened first, or both electromagnetic on-off valves are simultaneously opened. In addition, the opening / closing control of the electromagnetic opening / closing valve attached to the communication path is facilitated. It should be noted that the opening / closing timing of the electromagnetic on-off valve provided in the communication path is controlled so as to be open at least when a gargle nozzle is used.
[0034]
With such a configuration, while maintaining the usability of the gargle nozzle in good condition, the gargle nozzle and the accumulated liquid in the flow path communicating with the gargle nozzle are periodically discharged to prevent unsanitary conditions, and the discharge. Since the water is weak at times, it is easy to visually recognize that the discharge state does not contain gargle. Therefore, it can be set as a very useful structure as a hand-washing machine installed in a place where sanitation management is severe, and it can be expected to spread to ordinary households as a hand-washing machine.
[0035]
In addition, the above-mentioned hand washing nozzle, soap solution nozzle, disinfectant nozzle, etc. are provided with detection sensors so that they do not need to be opened and closed by touching them directly with their hands, and the user brings their hands close to each nozzle. Therefore, it is desirable to have a configuration that senses this and automatically discharges.
[0036]
In the above-described embodiment, the liquid supply path is branched from the middle to form the first branch flow path and the second branch flow path, and the cleaning apparatus includes a plurality of discharge ports. It is also possible to apply to a single discharge port without branching the path.
[0037]
【Example】
Embodiments of the present invention will be specifically described below with reference to the drawings. In the present embodiment, the cleaning device is described as a hand-washing machine.
[0038]
FIG. 1 is a front view of a hand-washing machine as a cleaning device according to the present embodiment, FIG. 2 is a plan view of the hand-washing machine, and FIG. 3 is a schematic explanatory view of a main part of the hand-washing machine.
[0039]
As shown in FIGS. 1 and 2, the hand-washing machine A includes various nozzles which will be described later, and is connected to the bowl portion 1 attached to the wall surface W and the various nozzles. And a liquid supply unit 2 attached to the wall surface W.
[0040]
The bowl portion 1 has a bowl-shaped flow surface 10 formed inside a ceramic body, and a planar portion continuous with the upper edge of the flow surface 10 around the flow surface 10 having an oval shape in plan view. The rear wall 12 is erected on the wall surface W side of the same edge portion 11. A drain 10a is provided at the bottom of the center of the sink surface 10, and is connected to the drain pipe 10b.
[0041]
Further, on the edge portion 11 located in front of the rear wall 12, the soap water supply nozzle 3, the hand washing nozzle 4, and the disinfecting liquid supply nozzle with the discharge openings 3a, 4a, 5a directed toward the flow surface 10 are provided. 5 are arranged at an appropriate interval from the left side when viewed from the front, and the hand-washing nozzle 4 is positioned substantially at the center of the bowl portion 1 in the left-right width direction. The hand detection sensors 3s, 4s, and 5s are attached to the front surfaces of the attachment bases of the nozzles 3, 4, and 5 that protrude from the edge portion 11, respectively.
[0042]
In addition, the bowl cleaning nozzle 6 extended obliquely downward so that the discharge opening 6a faces the flow surface 10 on the left diagonal front of the soapy water supply nozzle 3 and the diagonally right front of the disinfecting liquid supply nozzle 5. , 6 are arranged.
[0043]
Further, a gargle nozzle 7 is disposed in front of the bowl cleaning nozzle 6 on the left side when viewed from the front, and the squirting opening 7a is directed obliquely upward, and a push for ejecting gargle liquid on the front side of the nozzle 7 is provided. A button switch 71 is provided.
[0044]
In this embodiment, the ejection opening 7a of the gargle nozzle 7 corresponds to the “discharge port” or “first discharge port” recited in the claims, and each of the hand washing nozzle 4 and the bowl washing nozzles 6, 6 The discharge openings 4a and 6a correspond to “other discharge ports” recited in the claims.
[0045]
On the other hand, the liquid supply unit 2 is configured by arranging a chemical unit 2a and a water supply unit 2b side by side below the bowl unit 1 (FIG. 1).
[0046]
The chemical liquid unit 2a accommodates in the unit casing 20 a gargle liquid tank 21, a soap liquid tank 22, and a disinfectant liquid tank 23 corresponding to the “cleaning agent storage tank” described in the claims in an exchangeable manner. The liquid tank 21 and the gargle nozzle 7, the soap liquid tank 22 and the soap water supply nozzle 3, and the disinfectant liquid tank 23 and the disinfectant liquid supply nozzle 5 are connected by communication pipes c 1, c 2 and c 3, respectively. s1, s2, and s3 are liquid shortage sensors provided in the tanks 21, 22, and 23, respectively.
[0047]
Further, as shown in FIG. 3, a gargle liquid electromagnetic on-off valve B is attached to a communication pipe c1 as a communication path for communicating the gargle liquid tank 21 and the gargle nozzle 7, and further, although not shown, a soap liquid tank 22 is provided. An electromagnetic pump is connected to each of the communication pipe c2 that communicates with the soap solution supply nozzle 3, and the communication pipe c3 that communicates between the disinfecting liquid tank 23 and the disinfecting liquid supply nozzle 5.
[0048]
On the other hand, the water supply unit 2b is provided with a water supply main pipe 27 in communication with the water supply pipe 26 in the unit casing 25, and a water heater 28 for introducing and heating a part of the water supplied from the water supply main pipe 27. It is arranged.
[0049]
Then, branch pipe v1, branch pipe v2 as the first branch flow path, and branch pipe v3 as the second branch flow path are branched and extended from the water supply main pipe 27, so that the gargle nozzle 7, the hand washing nozzle 4, and the bowl wash The nozzles 6 and 6 are connected in communication with each other. 26 a is a water supply main plug provided on the downstream side of the water supply pipe 26.
[0050]
Further, as shown in FIG. 3, an electromagnetic on-off valve 9 is provided on the upstream side of each of the branch pipes v1, v2, v3, and together with the above-described gargle electromagnetic on-off valve B, a control unit S described later. Open / close operation is performed by the open / close signal. In the schematic diagram shown in FIG. 3, only the branch pipes v1 and v3 branched from the water supply pipe 26 and communicating with the gargle nozzle 7 and the bowl cleaning nozzle 6 respectively are shown. The tube v2 is omitted.
[0051]
By the way, as described above, the gargle nozzle 7 is connected to the main water supply pipe 27 for supplying clean water via the branch pipe v1 and also connected to the gargle liquid tank 21.
[0052]
In this embodiment, as shown in FIG. 3, a well-known aspirator 72 is provided on the gargle nozzle 7 side of the branch pipe v <b> 1, and a gargle tank 21 is provided on the branch pipe v <b> 1 on the downstream side of the aspirator 72. The distal end of a communication pipe c1 whose base ends are connected in communication with each other is connected in communication. cv is a connecting portion between the branch pipe v1 and the communication pipe c1.
[0053]
With this configuration, when clean water is introduced into the branch pipe v1, a negative pressure is generated in the aspirator due to the dynamic pressure, and the negative pressure causes the gargle liquid to be sucked up from the gargle tank 21 and mixed with the clean water. It is diluted and ejected from the ejection opening 7a of the gargle nozzle 7.
[0054]
Then, by controlling the opening / closing of the electromagnetic on-off valve B attached to the communication pipe c1, it is possible to prevent the gargle liquid from being mixed into the clean water.
[0055]
As described above, the hand-washing machine A is under electrical control, and therefore has an operation panel 8 as shown in FIG.
[0056]
The operation panel 8 is attached to the wall W. Various switches and switches are provided so that the operation switch of the hand-washing machine A and other electric systems can be turned on and off, and the operation status can be displayed. An indicator lamp is provided. That is, various switches for forcibly operating the soap water supply nozzle 3, the hand washing nozzle 4, the disinfectant supply nozzle 5, the gargle nozzle 7, the on / off switch of the hot water device 28, and the above-mentioned liquid shortage sensor s1 , s2 and s3 detected liquid outage lamps, in-use nozzle display lamps, and the like.
[0057]
The operation panel 8 is electrically connected to a control unit S provided in the unit casing 25 of the water supply unit 2b, and the control unit S is used for the hand detection sensors 3s, 4s, 5s and the gargle liquid. It is electrically connected to the push button switch 71, the liquid shortage sensors s1, s2, s3, the hot water device 28, the electromagnetic pump, the electromagnetic open / close valve B for gargle, the electromagnetic open / close valve 9 and the like.
[0058]
Therefore, in this hand-washing machine A, when using the soapy water supply nozzle 3, the hand-washing nozzle 4, and the disinfectant supply nozzle 5, the user puts his hand in front of the desired nozzle (3,4,5). Then, the hand detection sensor (3s, 4s, 5s) detects this and transmits a detection signal to the control unit S, and the control unit S receiving the detection signal communicates with each nozzle 3, 4, 5 An actuator such as an electromagnetic pump or an electromagnetic on-off valve 9 provided in the middle of the path can be driven to discharge the corresponding liquid from the nozzles 3, 4, 5, and by using the operation panel 8, for example, Even if the hand detection sensors 3s, 4s, 5s are out of order, it is possible to wash hands by operating the switches on the operation panel 8.
[0059]
In addition, when the push button switch 71 for gargle liquid is operated, the gargle electromagnetic on-off valve B is opened so that the gargle liquid can be ejected from the gargle nozzle 7 at any time to gargle. it can.
[0060]
Further, in this embodiment, after the gargle is finished, that is, when a predetermined time (for example, 3 seconds) elapses after the electromagnetic on-off valve 9 provided in the branch pipe v1 to the gargle nozzle 7 is operated, the bowl washing nozzle 6 , 6 is operated, an electromagnetic on-off valve 9 provided in the branch pipe v2 is operated so that the flow surface 10 is automatically cleaned. Therefore, the gargle discharged by the user after gargle does not remain attached to the flow surface 10 and is clean.
[0061]
In the hand-washing machine A having the above-described configuration, in this embodiment, the gargle liquid staying in the gargle nozzle 7 and the branch pipe v1 which is a branch flow path communicating with the nozzle 7 can be automatically discharged periodically. In addition, the gargle liquid does not stay for a long time, and the user can always use it safely in terms of hygiene without worrying about liquid stagnation. It is characterized in that the jet speed of the liquid is substantially halved so that it is easy to visually recognize that it is not in the normal use state but in the discharged state of stagnant water.
[0062]
That is, in the present embodiment, the control unit S and the electromagnetic on-off valve 9 are provided as discharge means for discharging the staying liquid, and the ejection opening 7a and the opening of the gargle nozzle 7 serving as the first discharge port are provided. When the gargle liquid staying in the branch pipe v1 which is a branch flow path communicating with 7a is discharged by driving the electromagnetic on-off valve 9, the operation of the discharge means (control unit S, electromagnetic on-off valve 9) gargles. The gargle and tap water can be discharged almost simultaneously from the ejection opening 7a of the nozzle 7 and the discharge openings 6a and 6a of the bowl cleaning nozzles 6 and 6 as other discharge ports.
[0063]
In addition, an electromagnetic on-off valve B is attached to the communication pipe c1 that communicates the gargle liquid tank 21 and the gargle nozzle 7 so that the electromagnetic on-off valve B is closed at least when the discharge means is driven. . In this embodiment, the electromagnetic on-off valve B is normally in an open state and is closed in conjunction with the drive of the discharge means. The valve may be opened only when 71 is operated.
[0064]
That is, when the gargle liquid staying in the branch pipe v1 is discharged by driving the electromagnetic on-off valve 9, only the electromagnetic on-off valve 9 provided in the branch pipe v1 is opened and discharged only from the gargle nozzle 7. In addition, the electromagnetic on / off valve 9 provided in the branch pipe v3 communicating with the water supply main pipe 27, which is a common liquid supply passage with the gargle nozzle 7, and communicating with the bowl cleaning nozzles 6 and 6, is also at least the previous electromagnetic on / off valve It opens without delaying from 9 and substantially reduces the jet velocity of the staying liquid from the jetting opening 7a facing above the gargle nozzle 7 to weaken the water force (see the solid line in FIG. 3) and discharges the staying liquid. In addition, by closing the electromagnetic on-off valve B at that time, the gargle liquid in the gargle tank 21 is prevented from flowing out wastefully.
[0065]
Further, in this embodiment, in conjunction with the timer function of the control unit S, the gargle electromagnetic on-off valve B and the electromagnetic on-off valves 9, 9 are automatically driven periodically, and set by the user once every 24 hours. The water staying at the desired time is discharged.
[0066]
Accordingly, the accumulated water staying downstream of the electromagnetic on-off valve 9 of the branch pipe v1 branched from the water supply main pipe 27 and communicating with the gargle nozzle 7 is automatically discharged periodically, so that the user bothers to perform the discharge operation. Breeding of germs and the like can be eliminated without time and effort, and the sanitary environment can be greatly improved.
[0067]
In addition, since the gargle electromagnetic on-off valve B is closed at this time, the gargle electromagnetic on-off valve B has failed and remains in the open state without wasting wastefully. However, since the water is also drained from the bowl washing nozzles 6 and 6, the momentum of the jet flow from the gargle nozzle 7 is smaller than that used for normal gargle, and the force to suck up the gargle liquid is weak and extremely It is easy to visually understand that this drainage is a drainage of retained water and no gargle is contained because only a slight gargle discharge is required and the momentum of the discharged water is reduced.
[0068]
Note that, as in this embodiment, the user may perform manual operation appropriately at an arbitrary timing by operating a switch without automating the drainage of the staying liquid in the gargle nozzle 7.
[0069]
Further, when discharging the staying liquid from the gargle nozzle 7, first, a branch communicated with the bowl cleaning nozzles 6, 6 so that the jetted liquid from the nozzle 7 falls into the bowl portion 1 more reliably. The electromagnetic on-off valve 9 provided on the pipe v3 is opened first, and then the electromagnetic on-off valve 9 provided on the branch pipe v1 communicating with the gargle nozzle 7 is opened. It can be discharged from the ejection opening 6a of the bowl cleaning nozzle 6,6. The differential timing of the electromagnetic on-off valve 9 can be set as appropriate, but in this embodiment, the discharge from the gargle nozzle 7 is delayed for about 40 seconds from the start of discharge from the bowl cleaning nozzles 6 and 6 for 20 seconds. I have to. Alternatively, the discharge timing from the gargle nozzle 7 may be started after being discharged from the bowl cleaning nozzles 6 and 6, and may be stopped about 5 to 20 seconds earlier. If such control is performed, even if the retained gargle liquid adheres to the flow surface 10 of the bowl portion 1, it can be sufficiently washed away by drainage from the bowl washing nozzles 6 and 6.
[0070]
In addition, while the accumulated water is being automatically discharged, the hand washing machine A accepts only the operation switch and the operation switch of the hot water device 28, and cancels the automatic discharge when a power failure is detected. Yes.
[0071]
That is, while the stagnant water is automatically drained, it is possible to gargle but not to wash hands. At this time, since the gargle nozzle 7 discharges at a normal momentum, it is canceled as an automatic cleaning function. However, the accumulated water remains discharged for a long time because the accumulated water is discharged during gargle. Of course it is not.
[0072]
In the present embodiment, for example, when the timing of automatic discharge comes while the gargle nozzle 7 is being used, automatic drainage for one minute is started after gargle is finished. . The start timing of automatic drainage can be appropriately set such as 3 seconds after the end of gargle.
[0073]
Further, for example, when the start timing of automatic drainage comes during hand washing, similarly, automatic drainage for one minute is started after a predetermined time has elapsed after hand washing.
[0074]
By the way, in the present embodiment, when the staying liquid is discharged from the gargle nozzle 7, the drainage from the bowl cleaning nozzles 6, 6 is interlocked, but instead of the bowl cleaning nozzles 6, 6. The hand washing nozzle 4 may be interlocked. That is, if it is a nozzle that shares the water supply main pipe 27 that conducts water to the gargle nozzle 7, at least the ejection speed of the staying liquid from the gargle nozzle 7 can be reduced. It is easy to make a visual judgment as to whether the accumulated water is drained.
[0075]
Further, the hand-washing machine A according to the present embodiment has an energy saving function of automatically stopping the heater driving of the hot water device 28 for a predetermined time and returning it after several hours.
[0076]
The heater driving stop timing is made to coincide with the above-described automatic liquid discharge timing.
[0077]
That is, even if the stay liquid is discharged from the gargle nozzle 7 or the heater driving of the hot water device 28 is stopped, the hand-washing machine A should be set in a time zone that is not expected to be used. Rather than setting both of them separately, when the user sets the automatic discharge time of the staying liquid, the heater drive of the hot water device 28 is also stopped in conjunction with that time.
[0078]
Of course, the heater drive is automatically returned when a predetermined time has elapsed since the heater drive was stopped. About 6 hours is considered appropriate as the heater drive stop time.
[0079]
Further, it may be necessary to use the hand-washer A while the heater driving is stopped. In this case, the heater driving is forcibly returned by operating the hot water switch provided on the operation panel 8. Good.
[0080]
Thus, the hand-washing machine A which concerns on a present Example is excellent in hygiene, and is suitable for installing in a hospital, a food factory, etc. which are strict about hygiene management. In addition, since each nozzle 3, 4, 5, 6, 7 is compactly arranged on the bowl part 1, it can be installed in a general household as a highly sanitary hand-washing machine A. Is expected.
[0081]
By the way, in the embodiment described above, only the push button switch 71 for the gargle liquid and the operation switch of the hot water device 28 are accepted during the automatic discharge of the stagnant water. Since necessary cases are also conceivable, as another embodiment, the driving of the hand washing nozzle 4 can also be controlled so as to have priority. That is, when the hand detection sensor 4s of the hand washing nozzle 4 detects a hand during automatic discharge, the automatic drainage is canceled on the spot and water discharge from the hand washing nozzle 4 is given priority.
[0082]
Alternatively, the hand-washing nozzle 4 can be driven at the same time even during the automatic draining of the stagnant water so as to satisfy both the necessity of hand washing and the importance of sanitary aspect of discharging the stagnant water. You can also. In other words, at this time, water is discharged from the gargle nozzle 7 and the bowl cleaning nozzles 6 and 6 by automatic drainage, but can also be discharged from the hand washing nozzle 4.
[0083]
For example, if the hand detection sensor 4s of the hand washing nozzle 4 detects a hand while automatically draining the stagnant water, the automatic draining is canceled on the spot and water discharge from the hand washing nozzle 4 starts. It is also possible to control so that the automatic draining of the staying liquid from the gargle nozzle 7 is continued for the remaining time after a predetermined time, for example, 3 seconds, after the hand washing is finished. Further, instead of the remaining time of automatic drainage, automatic drainage for one minute may be resumed.
[0084]
In the present embodiment, the nozzles 3, 4, 5, 6, and 7 are arranged on the bowl portion 1. However, for example, a gargle having only the gargle nozzle 7 is used alone. It is good also as a washing | cleaning apparatus provided with this nozzle.
[0085]
In other words, a cleaning agent storage tank is connected to the middle of the water supply main pipe 27 provided with a discharge port such as a nozzle at the tip through a communication pipe c1, and cleaning is performed by the negative pressure generated by the dynamic pressure of clean water flowing through the water supply main pipe 27. A cleaning device capable of mixing and diluting a cleaning agent with a liquid from the agent storage tank and ejecting the liquid mixed with the cleaning agent from the nozzle, and a discharge means for discharging the accumulated water in the nozzle and the water supply main pipe 27 As long as the electromagnetic on-off valve B is attached to the communication pipe c1 and at least when the discharging means is driven, the electromagnetic on-off valve B is in a closed state, and is included in the present invention. .
[0086]
【The invention's effect】
(1) In the first aspect of the present invention, the cleaning agent storage tank is connected to the middle of the liquid supply path provided with the discharge port at the tip through the communication path, and is generated by the dynamic pressure of the liquid flowing through the liquid supply path. A cleaning device that mixes and dilutes the cleaning agent with the liquid from the cleaning agent storage tank by negative pressure, and discharges the liquid mixed with the cleaning agent from the discharge port, and discharges the liquid remaining in the liquid supply path. And at least when the discharge means is driven, the electromagnetic open / close valve is in a closed state so that no liquid stays for a long time. Moreover, it is economical because the cleaning agent is not wastedly discarded when the accumulated water is discharged.
[0087]
(2) In the present invention described in claim 2, the first branch flow path branched from the middle of the liquid supply path and provided with the first discharge port at the tip, and the second branch channel provided with the other discharge port at the tip. Forming a branch channel and connecting the cleaning agent storage tank to the middle of the first branch channel via the communication path, and the discharge means can discharge the staying liquid in both branch channels, When the discharge means is driven, the liquid is discharged from the first discharge port and the other discharge ports substantially simultaneously, so that the liquid does not stay for a long time and is hygienic. The discharge momentum is greatly reduced rather than discharging only from the water, so that the discharged water does not splash from the bowl and splash outside, and the water force is greatly reduced compared with normal use, so that the stagnant water To make it easier to understand visually that it is discharged Kill.
[0088]
(3) In the present invention described in claim 3, since the discharging means is automatically driven periodically, the user does not have to bother to discharge the staying liquid and is always aware of the staying water. Therefore, a highly hygienic cleaning device can be used.
[0089]
(4) In the present invention described in claim 4, when the discharge means is driven, the staying liquid is discharged from the other discharge ports before the first discharge port. Therefore, it is possible to reliably reduce the momentum of the accumulated liquid discharged.
[0090]
(5) In the present invention described in claim 5, since the discharging means includes at least an electromagnetic on-off valve, it is easy to control electrically and it is easy to automatically drive it periodically.
[0091]
(6) In the present invention described in claim 6, since the first discharge port and the other discharge ports are disposed in the bowl portion, the hygienic hand washing machine is strict in hygiene management. It can be widely used in hospitals, food factories, etc. and in general households.
[0092]
(7) In the present invention described in claim 7, a gargle nozzle is provided as the first discharge port, and a hand washing nozzle and / or a bowl cleaning nozzle for cleaning the inner surface of the bowl portion are provided as the other discharge ports. Since it is provided, the inside of the bowl can be cleaned at the same time while discharging the retained gargle. In particular, if the staying liquid is drained from the bowl cleaning nozzle when discharged from the gargle nozzle, the inner surface of the bowl can be periodically cleaned, and the inner surface of the bowl can always be kept beautiful and clean.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a front view of a hand-washing machine as a cleaning device.
FIG. 2 is a plan view of the hand washing machine.
FIG. 3 is a schematic explanatory view showing a main part of the hand washing machine.
[Explanation of symbols]
A hand washing machine
B Solenoid solenoid valve
S control unit
v1 branch pipe (first branch flow path)
v2 branch pipe
v3 branch pipe (second branch flow path)
1 bowl
3 Soap liquid supply nozzle
4 Nozzles for hand washing
5 Disinfectant supply nozzle
6 Nozzle for bowl cleaning
7 Nozzle nozzle
8 Operation panel
9 Solenoid valve
10 sink surface
21 Gargle tank (cleaning agent storage tank)
27 Water supply main (liquid supply channel)

Claims (7)

A cleaning agent storage tank is connected to the middle of the liquid supply path provided with a discharge port at the tip through a communication path, and the cleaning agent is removed from the cleaning agent storage tank by the negative pressure generated by the dynamic pressure of the liquid flowing through the liquid supply path. A cleaning device capable of jetting a liquid mixed with a liquid and mixed with a cleaning agent from the discharge port,
Discharging means for discharging the liquid staying in the liquid supply path is provided, and an electromagnetic opening / closing valve is attached to the communication path, and at least when the discharging means is driven, the electromagnetic opening / closing valve is in a closed state. Characteristic cleaning device. A first branch flow branching from the middle of the liquid supply path and having a first branch flow path having a first discharge port at the tip and a second branch flow channel having another discharge port at the tip. The cleaning agent storage tank is connected to the middle of the passage through the communication path, and the discharge means can discharge the staying liquid in both branch flow paths. Further, when the discharge means is driven, 2. The cleaning apparatus according to claim 1, wherein the liquid is discharged from the other discharge ports substantially simultaneously. 3. The cleaning apparatus according to claim 1, wherein the discharging means is automatically driven periodically. 4. The cleaning apparatus according to claim 2, wherein when the discharge means is driven, the staying liquid is discharged from the other discharge ports before the first discharge port. The cleaning device according to any one of claims 1 to 4, wherein the discharging means includes at least an electromagnetic on-off valve. The cleaning apparatus according to claim 2, wherein the first discharge port and the other discharge ports are disposed in the bowl portion. 7. A gargle nozzle is provided as the first discharge port, and a hand washing nozzle and / or a bowl cleaning nozzle for cleaning the inner surface of the bowl portion are provided as the other discharge ports. The cleaning apparatus according to any one of claims.

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