CN104074250B - Remote control - Google Patents

Abstract

The invention provides a kind of remote control, produce in the push action by user on the remote control of the toilet device of electric power, highly can take into account the transmission precision of operability and sealing signal.When pressing spraying button, the electric power (being equivalent to the voltage V2 of capacitor) that generator unit produces, be greater than the electric power (being equivalent to the voltage V2-V3 of capacitor) for generating and sending needed for water spray signal, to make remainingly in capacitor after transmission water spray signal have electric power.When pressing stop button, utilizing electric power (being equivalent to the voltage V6 of capacitor) remaining in the electric power (being equivalent to the voltage V8-V6 of capacitor) and capacitor produced by described push action, generating and sending sealing signal.

Description

Remote control

Technical field

The present invention relates to the remote control of the toilet device of spraying water to body local for operated from a distance.

Background technology

In order to clean the local of the user sat on toilet, the toilet device to local water spray is extensively popularized.User is selecting the action of toilet device after an action of the bowels by the pressing button etc. be arranged on described toilet device, make it from nozzle spray or make it stop water spray after cleaning.In addition, in order to the position that button arrangement is easily pressed user, usually the remote controller being provided with above-mentioned button is arranged on metope of washroom etc., wirelessly operated from a distance is carried out to toilet device.

When utilizing remote controller to select the action of toilet device, generate according to selected content and send the electric power needed for signal to toilet device, usually by battery built-in in remote controller or supply from civil power in a wired fashion.But, when by battery or when supplying electric power in a wired fashion, need to carry out battery altering operation or wiring operation.

Following patent document 1 discloses the remote controller not needing the toilet device carrying out above-mentioned battery altering operation and wiring operation.In remote controller disclosed in described patent document 1, after user carries out push action to the button on remote controller, produce electric power according to described push action, and carry out generation and the transmission of signal according to described electric power.Specifically, according to the push action of user, drive the switch member and the hooking sheet Bu Deng mechanism that are arranged on remote controller inside, thus impact piezo ceramic element, produce electric power thus, described electric power is used for the generation etc. of signal.

Patent document 1: No. 2006-9280, Japanese Laid-Open Patent Publication

In remote controller disclosed in above-mentioned patent document 1, there is operability and hold corruptible problem.That is, because utilize the mechanical energy inputted by the push action of button to produce electric power, so compared with using the existing remote controller of battery etc., push action needs large strength, and the amount of being pressed into of button wants large.

As the method reducing the deterioration of described operability, the electric power reducing to be produced by the push action of button can be considered.The mechanical energy inputted due to the push action by button is directly proportional to the size of the electric power produced in the mechanism of remote controller inside, so can by reducing the electric power produced, and the strength that the push action reducing button needs and the amount of being pressed into.

But if reduce the electric power that produced by the push action of button, then the transmission precision reduction of the signal sent from remote controller to toilet device, the action causing user to select on a remote control civilian dress of can not being present is set up realization.Particularly in toilet device, when user wishes to terminate local cleaning etc., if do not stop from nozzle spray, user just can not leave toilet, so require quickly and reliably to stop water spray.Therefore, for the sealing signal for stopping from nozzle spray, preferably not reducing it and sending precision.

Summary of the invention

In view of this problem, the object of this invention is to provide a kind of remote control, produce in the push action by user on the remote control of the toilet device of electric power, highly can take into account the transmission precision of operability and sealing signal.

For solving the problem, remote control of the present invention, for operated from a distance toilet device, described toilet device has the nozzle to body local water spray, the feature of described remote control is, comprising: selection portion, selects the action of described toilet device for making the user of described toilet device by push action, described selection portion has: spraying button, for making described toilet device from described nozzle spray, and sealing button, stop from described nozzle spray for making described toilet device, Power Generation Section, utilizes the mechanical energy inputted by the push action in described selection portion to produce electric power, Reserve Power Division, stores the electric power that described Power Generation Section produces, and control part, utilize the electric power stored in described Reserve Power Division, generate water spray signal when described spraying button is pressed and send to described toilet device, generate sealing signal when described sealing button is pressed and send to described toilet device, the electric power that described Power Generation Section produces when described spraying button is pressed, be greater than described control part for generating and sending the electric power needed for described water spray signal, remaining in described Reserve Power Division after sending described water spray signal to make described control part have electric power, when described sealing button is pressed, when described sealing button is pressed, the electric power that described control part utilizes described Power Generation Section to be produced by the push action of described sealing button, and remaining electric power in described Reserve Power Division, generate and send described sealing signal.

The importance degree that remote control of the present invention is conceived to the signal sent when the characteristic of this toilet device that sealing button is bound to be pressed after spraying button and these buttons are pressed is different.Specifically, by the user of toilet device first by push action to spraying button, by power storage in Reserve Power Division, described electric power is utilized to generate and send sealing signal subsequently afterwards.Like this, even if the electric power produced in the push action by sealing button is less, also can sends precision with height and send sealing signal.Further, the transmission precision of the operability of sealing button and the high sealing signal of importance degree can be improved.

In addition remote control of the present invention, preferably until the amount of electric power that described Power Generation Section is pressed by described spraying button and produces reaches more than ormal weight, described control part does not send described water spray signal, and described ormal weight makes described Reserve Power Division remaining amount having electric power after described control part sends described water spray signal.

According to preferred embodiment described, can guarantee that in pressing spraying button and transmission is sprayed water after signal, remaining in Reserve Power Division have electric power.Therefore, even if when the electric power produced by pressing sealing button is subsequently less, electric power remaining in Reserve Power Division also can be utilized, send precision with height and send sealing signal.

In addition remote control of the present invention, preferably also comprise charge capacity checkout gear, for detecting the electric power stored in described Reserve Power Division, described control part, until the electric power that described charge capacity checkout gear detects reaches more than described ormal weight, does not send described water spray signal.

According to preferred embodiment described, due to until electric power that charge capacity checkout gear detects reaches more than ormal weight and does not send water spray signal, so send water spray signal under preventing the state not storing the electric power of q.s in Reserve Power Division, and precision transmission sealing signal can be sent with height.

In addition remote control of the present invention, preferably also comprise force storage device, during described spraying button is pressed to assigned position, store the mechanical energy of input, and in described spraying button by by when exceeding described assigned position, discharge the mechanical energy stored before this, make described Power Generation Section produce electric power thus, the electric power that the mechanical energy that described Power Generation Section is discharged by described force storage device produces, is greater than described control part and generates and sends electric power needed for described water spray signal.

The speed of pressing spraying button is different because of user.Therefore, the mechanical energy inputted by push action is also different because of user, and when user slowly presses spraying button, the electric power that Power Generation Section is produced by described push action diminishes.Therefore, if slowly press spraying button, then can not more than remaining ormal weight electric power in Reserve Power Division, therefore when pressing sealing button subsequently, sealing signal can not be generated and sent.

According to preferred embodiment described, possessing the force storage device of store mechanical energy, the electric power that Power Generation Section is produced by described force storage device release mechanical energy, being greater than control part for generating and sending the electric power needed for water spray signal.Therefore, do not rely on the speed generation electric power that user presses spraying button, electric power more than remaining ormal weight in Reserve Power Division can be guaranteed.

In addition remote control of the present invention, preferred described control part comprises: signal generating unit, generates described water spray signal and sealing signal; Sending part, sends described water spray signal and the sealing signal of the generation of described signal generating unit to described toilet device; And microcomputer, control described signal generating unit and sending part, described microcomputer is until electric power that described charge capacity checkout gear is pressed by described spraying button and detects reaches more than described ormal weight and do not start.

According to preferred embodiment described, until the electric power that charge capacity checkout gear is pressed by spraying button and detects reaches more than ormal weight do not start microcomputer.Therefore, prevent in Reserve Power Division not remaining have the electric power of more than ormal weight and water spray signal can not be sent state under start microcomputer and wastes power.Like this, the electric power produced by pressing spraying button can be made to be stored into further in Reserve Power Division.

In addition remote control of the present invention, preferably also comprises the sealing button sense switch be pressed for detecting described sealing button, and described sealing button sense switch can arrive by before the position of pressing on earth at described sealing button, detects that described sealing button is pressed.

Electric power is had, so when pressing sealing button subsequently, remaining electric power can be utilized to detect as early as possible, and sealing button is pressed because spraying button is remaining in Reserve Power Division by pressing.According to preferred embodiment described, arrive by before the position of pressing on earth at sealing button, can detect that sealing button is pressed, so sealing signal can be sent with less pressing of sealing button.

In addition remote control of the present invention, the peak discharge of the electric power that preferred described Power Generation Section is pressed by described sealing button and produces, is less than described Power Generation Section and is pressed by described spraying button and the peak discharge of the electric power produced.

Generation and the transmission of sealing signal can utilize electric power remaining in Reserve Power Division.Therefore, according to preferred embodiment described, the peak discharge of the electric power that Power Generation Section is pressed by sealing button and produces, be less than and be pressed by spraying button and the peak discharge of the electric power produced, can reduce to make sealing button to arrive power needed for the position of pressing on earth thus, thus can operability be improved.

In addition remote control of the present invention, preferred described selection portion has water spray Status Change button, for changing the water spray state of described nozzle, when described water spray Status Change button is pressed, described control part utilizes the electric power stored in described Reserve Power Division, generate and change signal and send to described toilet device, when described water spray Status Change button is pressed, the electric power that described Power Generation Section produces is greater than described control part for generating and sending the electric power needed for described change signal, remaining in described Reserve Power Division after sending described change signal to make described control part have electric power.

According to preferred embodiment described, the electric power produced by pressing water spray Status Change button, being greater than for generating and sending the electric power changed needed for signal, therefore electric power remaining in Reserve Power Division can being made not reduce after generating and sending change signal.In addition, by pressing water spray Status Change button, strengthen electric power remaining in Reserve Power Division further, sealing signal can be sent with higher transmission precision subsequently.

According to the present invention, provide a kind of remote control, produce in the push action by user on the remote control of the toilet device of electric power, highly can take into account the transmission precision of operability and sealing signal.

Accompanying drawing explanation

Fig. 1 represents the remote control of embodiments of the present invention and the stereogram of toilet device.

Fig. 2 is the front view of the remote control representing embodiments of the present invention.

Fig. 3 is the block diagram of the remote control representing embodiments of the present invention.

Fig. 4 is the elevational schematic view of the action of the button of the remote control representing embodiments of the present invention.

Fig. 5 is the front schematic view of the spring mechanism of the remote control representing embodiments of the present invention.

Fig. 6 is the side schematic view of the power facility of the remote control representing embodiments of the present invention.

Fig. 7 is the chart of the rheological parameters' change with time of the condenser voltage of the remote control representing embodiments of the present invention.

Fig. 8 is that the signal of the remote control representing embodiments of the present invention generates, the flow chart of transmission flow.

Description of reference numerals

WA toilet device

RC remote control

RCP panel

10 first sliding components

20 second sliding components

30 capacitors

32 charge volume testing circuits

40 control units

42 microcomputers

44 high-frequency signals produce circuit

46 emitters

GG power facility

GS spring mechanism

GU generator unit

The main button groups of MB

MB1 stop button

MB2 anus cleaning button

MB3 private parts cleaning button

MB4 dries button

WB spraying button

MS1 ~ MS4 sense switch

N2 nozzle

The secondary button groups of SB

The strong button of SB1

The weak button of SB2

Button before SB3

Button after SB4

Detailed description of the invention

Below, with reference to accompanying drawing, embodiments of the present invention are described.For ease of understanding, in each accompanying drawing, identical Reference numeral being marked as far as possible to identical inscape, and omitting repeat specification.

First, be described with reference to the using state of Fig. 1 to the remote control of embodiments of the present invention.Fig. 1 represents the remote control of embodiments of the present invention and the stereogram of toilet device.

Toilet device WA is contained on the edge C Ba of toilet CB, possesses main part WAa, toilet portion WAb and lid WAc.Main part WAa is built-in with electronic unit and water supply mechanism etc., and has nozzle N2, and described nozzle N2 can retreat relative to the pelvic part CBb of toilet CB.The upper surface of the nozzle N2 of cylindrical shape is formed with nozzle bore N2a, and nozzle N2 accepts water supply from water supply mechanism entering under the state in pelvic part CBb, from nozzle bore N2a to the local of user ejection current JW.The toilet portion WAb that user takes one's seat at one's leisure, by pivot suspension, can rotate freely by opposing body portion WAa.When toilet portion WAb does not use, tegmentum WAc covers from top, and described lid WAc, equally by pivot suspension, can rotate freely by opposing body portion WAa.

Remote control RC is fixed on metope of the washroom being provided with toilet CB and toilet device WA etc.The panel RCP of described remote control RC is arranged towards toilet device WA side, and user selects the action that toilet device WA is carried out on described panel RCP, operated from a distance toilet device WA.Specifically, the content that remote control RC selects on panel RCP according to user generates high-frequency signal, and wirelessly sends to toilet device WA.Toilet device WA receives described high-frequency signal by the acceptance division be built in main part WAa, and according to the content of described signal, carries out from the water spray of nozzle N2 and sealing, the adjustment of the water yield of water spray, the change etc. of the position of nozzle N2.

Then, be described with reference to the panel of Fig. 2 to the remote control of embodiments of the present invention.Fig. 2 is the front view of the remote control representing embodiments of the present invention.

As shown in Figure 2, the panel RCP of remote control RC has assortment main button groups MB up, and assortment is at the secondary button groups SB of the below of main button groups MB.

Main button groups MB is made up of the non-stop button NSB beyond stop button MB1 and stop button MB1.In addition, non-stop button NSB is made up of spraying button WB and oven dry button MB4.Further, spraying button WB is made up of anus cleaning button MB2 and private parts cleaning button MB3.Above-mentioned four buttons are all rounded in front view, and substantially arrange point-blank the width of remote control RC is spaced apart.Spraying button WB is used for making nozzle N2 carry out water spray action, sprays water when pressing anus cleaning button MB2 to the anus of user, sprays water when pressing private parts cleaning button MB3 to the local of women.In addition, dry button MB4 to be used for carrying out oven dry action from the fan be built in main part WAa to local blowout warm braw after the cleaning of local.Stop button MB1 is for stopping above-mentioned water spray action and drying action.

Secondary button groups SB is made up of strong button SB1, weak button SB2, front button SB3, rear button SB4.Above-mentioned four buttons are all the circle less than each button diameter of main button groups MB in front view, and spaced apartly on the width of remote control RC substantially arrange point-blank.Strong button SB1 and weak button SB2, for allowing user according to the water yield of the water spray of the hobby change nozzle N2 of oneself.In addition, front button SB3 and rear button SB4, changes the position of nozzle N2 for allowing user according to the position of the local of oneself.

As shown in phantom in Figure 2, in the rear side of main button groups MB and secondary button groups SB, be built-in with the first sliding component 10, second sliding component 20 that the width to remote control RC extends respectively.In addition, in the below of the first sliding component 10 and the side of the second sliding component, generator unit GU is built-in with.

As described later, by pressing any button of main button groups MB, the first sliding component 10 slides to the direction of arrow A 1.Described first sliding component 10 has to the outstanding transmission raised 11 in the second sliding component 20 side.In addition, the second sliding component 20, than transmitting projection 11 more by the position of generator unit GU side, has to the outstanding transmission raised 21 in the first sliding component 10 side.Therefore, such as press stop button MB1 by the finger H of user with power F1, make direction from the first sliding component 10 to arrow A 1 slide time, described transmission projection 11 abuts with the transmission projection 21 of the second sliding component 20, transmitting force F2.Being subject to second sliding component 20 of described power F2, slides in the direction to the arrow A 2 parallel with arrow A 1.

On the other hand, when any button of secondary button groups SB is pressed, the second sliding component 20 slides to the direction of arrow A 2.Now, because the transmission projection 21 of the second sliding component 20 moves to the direction of the transmission raised 11 leaving the first sliding component 10, so the second sliding component 20 slides separately, the first sliding component 10 does not slide.

As mentioned above, by pressing any button of main button groups MB and secondary button groups SB, the second sliding component 20 slides to the direction of arrow A 2.Thus, utilize the end 22 of the second sliding component 20, press the input part GU2 of generator unit GU with power F3.Generator unit GU utilizes the mechanical energy inputted from described input part GU2 to produce electric power.

Then, with reference to Fig. 3, the frame for movement of the remote control of embodiments of the present invention and electric structure are described.Fig. 3 is the block diagram of the remote control representing embodiments of the present invention.

As mentioned above, when user presses any button of main button groups MB, power is passed to the second sliding component 20 by the first sliding component 10, and when pressing any button of secondary button groups SB, power is directly passed to the second sliding component 20.Second sliding component 20 utilizes the power transmitting to slide, and then power is passed to generator unit GU.

Generator unit GU has spring mechanism GS and power facility GG.The elastic energy of the mechanical energy inputted from the second sliding component 20 as spring can store and discharge by spring mechanism GS.If spring mechanism GS discharges the mechanical energy stored, then described mechanical energy is delivered to the power facility GG of generator unit GU, is converted to electric energy and produces electric power at this.

The electric power that generator unit GU produces is supplied to capacitor 30.Capacitor 30 power charge of supply.

The lead-out terminal of capacitor 30 is connected with control unit 40.Control unit 40 comprises microcomputer 42, high-frequency signal produces circuit 44 and emitter 46.Microcomputer 42 accepts the electric power supply of sufficient power from capacitor 30 and starts, and controls high-frequency signal generation circuit 44 and emitter 46.But until the charge volume testing circuit 32 be connected with capacitor 30 detects that the electric power that capacitor 30 charges reaches more than the amount of benchmark, microcomputer 42 can not start.Specifically, charge volume testing circuit 32, according to the voltage of capacitor 30, detects the electric power of charging.

Each button of main button groups MB and secondary button groups SB, connects with corresponding sense switch MS1 ~ MS4, SS1 ~ SS4 respectively.Whether these sense switches are given as security down by user for detecting corresponding each button.

The result that any button of main button groups MB and secondary button groups SB is pressed, when the amount that the electric power charged in capacitor 30 reaches benchmark is above, microcomputer 42 accepts the electric power supply of sufficient power from capacitor 30 and starts, and obtains information (being which button is pressed) from sense switch.Then microcomputer 42 makes high-frequency signal produce circuit 44 and generates the high-frequency signal corresponding with the described information obtained, and sends afterwards from emitter 46 to toilet device WA.

Then, with reference to Fig. 4, the push action of each button and the detection of button are described.Fig. 4 is the elevational schematic view of the action of the button of the remote control representing embodiments of the present invention.

In Fig. 4 the face side of remote control RC upward, rear side represents down.The action when left side one list shows that stop button MB1 is pressed.In addition, the action when button of the main button groups MB that a middle list is shown beyond stop button MB1 is pressed, here for anus cleaning button MB2.In addition, the action when button of the right one row vice button groups SB is pressed, here for strong button SB1.The upper strata of each row all represents that user starts to press the state of each button, and lower floor all represents that each button is by the state of pressing on earth.

Shown in the left side one as Fig. 4 arranges, the central portion at the back side of stop button MB1 has central protrusion MB1a, extends to the first sliding component 10 side.On the other hand, the first sliding component 10 has projection 131, extends in the mode relative with central protrusion MB1a, and be formed with inclined plane MB1b, inclined plane 151 on the opposed faces respectively.In addition, the sidepiece at the back side of stop button MB1 has side extensions MB1c, extends to the first sliding component 10 side.The end of the rear side of described side extensions MB1c also forms inclined plane MB1d.Further, leaving on the position of the rear side of distance L1 from described inclined plane MB1d, sense switch MS1 is configured with.

After the finger H of user applies power F1 to stop button MB1, stop button MB1 is pressed to arrow A 3 direction.Then, after abutting with the inclined plane 151 of the first sliding component 10 by the inclined plane MB1b to stop button MB1, the first sliding component 10 is by the power be subject on inclined plane 151 subsequently, starts to slide to arrow A 4 direction.

When described stop button MB1 is pressed L1 in arrow A 3 direction, sense switch MS1 is pressed by the inclined plane MB1d of described side extensions MB1c, thus can detect that stop button MB1 is pressed.

Subsequently user stop button MB1 can be pressed into and abut with block MBS till (left side one arranges lower floor).Namely arrive by by before position on earth at stop button MB1, sense switch MS1 just can detect that stop button MB1 is pressed.

Shown in centre one as Fig. 4 arranges, for the button of the main button groups MB beyond stop button MB1, its basic formation is identical with stop button MB1 with action, unlike the inclined plane MB2d of side extensions MB2c and the distance of sense switch MS2, is set greater than the L2 of L1.That is, by the be pressed into amount less than the button of the main button groups MB beyond stop button MB1, can detect that stop button MB1 is pressed.

Shown in the right one as Fig. 4 arranges, for the button of secondary button groups SB, its basic comprising is identical with stop button MB1 with action, unlike the inclined plane SB1d of side extensions SB1c and the distance of sense switch SS1, is set as the L3 larger than L2.In addition unlike, limit the block SBS of the maximum amount of being pressed into of each button, be configured in the block MBS more backrest surface side than main button groups MB.Therefore, when each button pressing secondary button groups SB makes generator unit GU produce electric power, need to press by a larger margin than each button of main button groups MB.

Then, with reference to Fig. 5 and Fig. 6, the electric power generation in generator unit GU is described.Fig. 5 is the front schematic view of the spring mechanism of the remote control representing embodiments of the present invention, and Fig. 6 is the side schematic view of the power facility of the remote control representing embodiments of the present invention.

(A) of Fig. 5 represents the state that any button of main button groups MB and secondary button groups SB is not all pressed, and (B) of Fig. 5 represents the state that any button is pressed, and (C) of Fig. 5 represents that state on earth pressed by button by user.The spring mechanism GS be built in generator unit GU comprises wedge G2, the first spring G4 and the second spring G7.

Wedge G2 is the bar-shaped component extended at the width of remote control RC, and its underpart has projection G2b.In addition, a part for the upper surface of wedge G2 is formed with tooth bar G2c.One end of second spring G7 is fixed on the pedestal G6 of the inside being arranged on generator unit GU.

Under the state shown in (A) of Fig. 5, by the other end of described second spring G7, directed force F 7 is applied to the end face G2a of wedge G2, and projection G2b is abutted with the block G3 of the inside being arranged on generator unit GU, thus make wedge G2 static.In addition, one end of the first spring G4 is fixed on block G3, and the other end is fixed in the recess G2d of wedge G2.Under the state shown in (A) of Fig. 5, the length of the first spring G4 is roughly natural length, applies active force hardly to wedge G2.

As shown in Figure 6, power facility GG possesses gear G9, axis of rotation G10, permanent magnet G11, coil G13 and lead-out terminal G15.

Gear G9 is configured in the top (with reference to Fig. 5) of wedge G2, and the multiple tooth G9a being arranged on the periphery of described gear G9 engages with a part of the tooth bar G2c of wedge G2.Axis of rotation G10 becomes the center of rotation of gear G9, and rotates together with gear G9.In addition, axis of rotation G10 is fixed with permanent magnet G11.Around permanent magnet G11, be provided with the coil G13 of the drum substantially coaxial with axis of rotation G10.

In the generator unit GU of above structure, consider the situation that any button in main button groups MB and secondary button groups SB is pressed.If described button is pressed, the second sliding component 20 starts to slide, then the input part GU2 of generator unit GU is pressed (with reference to Fig. 2) as mentioned above.Now, as shown in (B) of Fig. 5, the end G2e of wedge G2 is subject to power F9.The power that input part GU2 is subject to, transmits by the end G2e of not shown lockable mechanism to wedge G2.Like this, wedge G2 moves to the direction of arrow A 10, while be subject to power F11 limit to compress the second spring G7, and limit is subject to power F10 limit stretches the first spring G4.Like this, from the mechanical energy that the second sliding component 20 inputs, the elastic energy brought because of the distortion of the first spring G4 and the second spring G7 is saved as.

In addition, by making wedge G2 move to the direction of arrow A 10, tooth G9a and tooth bar G2c meshed gears G9 rotates to the direction of arrow R1.Like this, the permanent magnet G11 be fixed on axis of rotation G10 rotates to the direction of arrow R1, and produces electric power by electromagnetic induction in coil G13.The electric power produced is drawn by the lead-out terminal of coil G13, charges to capacitor 30.

If user presses button further, button is pressed to abuts with block (with reference to Fig. 4 lower floor), then the lockable mechanism (not shown) between input part GU2 and the end G2e of wedge G2 is released.Like this, as shown in (C) of Fig. 5, even if keep the state abutted with block at button under, wedge G2 is subject to power F13, power F14 from the first spring G4 that will restore, the second spring G7, thus moves to the direction of arrow A 12 respectively.Like this, the elastic energy brought as the distortion by the first spring G4 and the second spring G7 and the mechanical energy stored are released.

Now, moved to arrow A 12 direction by wedge G2, gear G9 rotates to arrow R2 direction.Like this, permanent magnet G11 rotates to arrow R2 direction and produces electric power in coil G13, and described electric power charges to capacitor 30.Because the first spring G4 and the second spring G7 Fast Restoration, so permanent magnet G11 is to the rotary speed in arrow R2 direction, be greater than its rotary speed to above-mentioned arrow R1 direction.

Then, with reference to Fig. 7 and Fig. 8, the flow process that signal when being pressed to each button of remote control generates and sends is described.Fig. 7 is the chart of the rheological parameters' change with time of the condenser voltage of the remote control representing embodiments of the present invention, and Fig. 8 is that the signal of the remote control representing embodiments of the present invention generates, the flow chart of transmission flow.

The horizontal axis representing time t of Fig. 7, the longitudinal axis represents the voltage V of the capacitor 30 that charge volume testing circuit 32 detects.Specifically, illustrate and first press anus cleaning button MB2, then press strong button SB1, the time dependent change of voltage V when finally pressing stop button MB1.In addition, when Fig. 8 represents that any button of main button groups MB and secondary button groups SB is pressed, to the generation of signal with send relevant control treatment.

First, at the t0 of Fig. 7, user after an action of the bowels starts to press anus cleaning button MB2 with finger, and the mechanical energy storage inputted thus is to spring mechanism GS.Now, owing to simultaneously producing electric power at power facility GG, so accept the supply of described electric power and the voltage V of capacitor 30 that charges rises to V1 (Fig. 7: t0 ~ t1).

Then, anus is cleaned button MB2 and is pressed into when abutting with block MBS by user, and the mechanical energy being stored in spring mechanism GS is released.Like this, produce electric power at power facility GG, rise to V2 (Fig. 7: t1 ~ t3) with the voltage V of the capacitor 30 of described power charge.

Herein, due to (Fig. 7: t0 ~ t1) electric power (being equivalent to the electric power of the voltage V1 of capacitor 30) of producing when user presses anus cleaning button MB2, the speed pressed is relied on, so relatively little.To this, after finger is taken away from anus cleaning button MB2 by user (Fig. 7: t1 ~ t2), because the Fast Restorations such as the first spring G4 make permanent magnet G11 High Rotation Speed, so produce relatively large electric power (being equivalent to the electric power of the voltage V2-V1 of capacitor 30).

By pressing anus cleaning button MB2, after starting the charging of capacitor 30, charge volume testing circuit 32 judges whether the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 8: S101).Then, when detecting that the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 7: t2, Fig. 8: S101-is), start to supply electric power from capacitor 30 to microcomputer 42, thus start microcomputer 42 (Fig. 8: S102).

Then, the microcomputer 42 of startup obtains information (which button is pressed) (Fig. 8: S103) from sense switch, judges whether the button pressed by user is stop button MB1 (Fig. 8: S104).Here, because user presses is anus cleaning button MB2, so microcomputer 42 is judged as it not being stop button MB1 (Fig. 8: S104-is no), and next step is transferred to.

Then, microcomputer 42 makes high-frequency signal produce circuit 44 generation and cleans high-frequency signal corresponding to button MB2 (hereinafter referred to as " water spray signal ") (Fig. 7: t3 ~ t4, Fig. 8: S105) with anus.Then, primary water spray signal (Fig. 7: t4 ~ t5, Fig. 8: S105) is sent from emitter 46 to toilet device WA.

Then, microcomputer 42 judges whether the number of times sending water spray signal reaches the number of times (secondary) (Fig. 7: t5 ~ t6, Fig. 8: S106) preset.In the described stage, owing to only have sent once (Fig. 8: S106-is no), so send secondary water spray signal (Fig. 7: t6 ~ t7, Fig. 8: S105) from emitter 46.

Toilet device WA is by receiving at least one of the described water spray signal of transmission twice, and making nozzle N2 enter in the pelvic part CBb of toilet CB, sprays water in the local started afterwards to user.

Remote control RC, after the secondary water spray signal of transmission (Fig. 7: t7, Fig. 8: S106-is), makes microcomputer 42 stop (Fig. 8: S107).

Herein, the electric power (being equivalent to the electric power of the voltage V2-V1 of capacitor 30) power facility being produced by spring mechanism GS release mechanical energy, is greater than control unit 40 for generating and sending the electric power needed for twice water spray signal.In other words, control unit 40 is used only in a part for the electric power stored in (Fig. 7: t3) capacitor 30 when starting to generate water spray signal, carries out generation and the transmission of water spray signal.Therefore, after the secondary water spray signal of transmission, remaining in capacitor 30 have the electric power being equivalent to voltage V3.

Then, consider under the state of spraying water from the nozzle N2 of toilet device WA, user presses the situation of pressure button SB1 for strengthening the water yield.

At the t8 of Fig. 7, user starts to press pressure button SB1 with finger, and the mechanical energy storage inputted thus is to spring mechanism GS.Now, owing to simultaneously producing electric power at power facility GG, so accept the supply of described electric power and the voltage V of capacitor 30 that charges rises to V4 (Fig. 7: t8 ~ t9).That is, transmission water spray signal after remain on capacitor 30, be equivalent to, on the electric power of voltage V3, charge further.

Then, when strong button SB1 is pressed into and abuts with block SBS by user, the mechanical energy being stored in spring mechanism GS is released.Like this, produce electric power at power facility GG, rise to V5 (Fig. 7: t9 ~ t11) with the voltage V of the capacitor 30 of described power charge.

By pressing pressure button SB1, after starting the charging of capacitor 30, charge volume testing circuit 32 judges whether the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 8: S101).Then, when detecting that the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 7: t10, Fig. 8: S101-is), start to supply electric power from capacitor 30 to microcomputer 42, thus start microcomputer 42 (Fig. 8: S102).

Then, the microcomputer 42 of startup obtains information (which button is pressed) (Fig. 8: S103) from sense switch, judges whether the button pressed by user is stop button MB1 (Fig. 8: S104).Here, because user presses is strong button SB1, so microcomputer 42 is judged as it not being stop button MB1 (Fig. 8: S104-is no), and next step is transferred to.

Then, microcomputer 42 makes high-frequency signal produce circuit 44 and generates the high-frequency signal (hereinafter referred to as " change signal ") (Fig. 7: t11 ~ t12, Fig. 8: S105) corresponding with strong button SB1.Then, primary change signal (Fig. 7: t12 ~ t13, Fig. 8: S105) is sent from emitter 46 to toilet device WA.

Then, microcomputer 42 judges whether send the number of times changing signal reaches the number of times (secondary) (Fig. 7: t13 ~ t14, Fig. 8: S106) preset.In the described stage, owing to only have sent once (Fig. 8: S106-is no), so send secondary change signal (Fig. 7: t14 ~ t15, Fig. 8: S105) from emitter 46.

Toilet device WA, by receiving at least one of the described change signal of transmission twice, adjusts the water supply mechanism be built in main part WAa, thus strengthens the water yield of nozzle N2 ejection.

Remote control RC, after the secondary change signal of transmission (Fig. 7: t15, Fig. 8: S106-is), makes microcomputer 42 stop (Fig. 8: S107).

As mentioned above, control unit 40 is used only in the part starting to generate the electric power stored in (Fig. 7: t11) capacitor 30 when changing signal, carries out generation and the transmission of changing signal.In addition, being pressed the electric power (being equivalent to the electric power of the voltage V5-V3 of capacitor 30) of pressure button SB1 generation by user, being greater than control unit 40 for generating and sending the electric power (being equivalent to the electric power of the voltage V5-V6 of capacitor 30) needed for twice change signal.Like this, send and change electric power (being equivalent to voltage V6) remaining in capacitor 30 after signal, be greater than and send (Fig. 7: t7) after water spray signal remaining electric power.

Then, consider under the state of spraying water with the strong water yield from the nozzle N2 of toilet device WA, the situation of user for stopping water spray pressing stop button MB1.

At the t16 of Fig. 7, user starts to press stop button MB1 with finger, and the mechanical energy storage inputted thus is to spring mechanism GS.Now, owing to simultaneously producing electric power at power facility GG, so accept the supply of described electric power and the voltage V of capacitor 30 that charges rises to V7 (Fig. 7: t16 ~ t17).That is, transmission change to remain in after signal on capacitor 30, be equivalent to, on the electric power of voltage V6, charge further.

Then, when stop button MB1 is pressed into and abuts with block MBS by user, the mechanical energy being stored in spring mechanism GS is released.Like this, produce electric power at power facility GG, rise to V8 (Fig. 7: t17 ~ t19) with the voltage V of the capacitor 30 of described power charge.

As mentioned above, user presses the electric power (being equivalent to the electric power of the voltage V8-V6 of capacitor 30) that stop button MB1 produces, and is less than the electric power (being equivalent to the electric power of the voltage V2 of capacitor 30) that pressing anus cleaning button MB2 produces.

By pressing stop button MB1, after starting the charging of capacitor 30, charge volume testing circuit 32 judges whether the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 8: S101).Then, when detecting that the voltage V of capacitor 30 reaches more than a reference value Vm (Fig. 7: t18, Fig. 8: S101-is), start to supply electric power from capacitor 30 to microcomputer 42, thus start microcomputer 42 (Fig. 8: S102).

Then, the microcomputer 42 of startup obtains information (which button is pressed) (Fig. 8: S103) from sense switch, judges whether the button pressed by user is stop button MB1 (Fig. 8: S104).Here, what microcomputer 42 was judged as that user presses is stop button MB1 (Fig. 8: S104-is), and transfers to next step.

Then, microcomputer 42 makes high-frequency signal produce circuit 44 and generates the high-frequency signal (hereinafter referred to as " sealing signal ") (Fig. 7: t19 ~ t20, Fig. 8: S115) corresponding with stop button MB1.Then, primary sealing signal (Fig. 7: t20 ~ t21, Fig. 8: S115) is sent from emitter 46 to toilet device WA.

Then, microcomputer 42 to judge in the capacitor 30 after sending sealing signal whether also remainingly have the electric power (Fig. 7: t21 ~ t22, Fig. 8: S116) that can send sealing signal.In the described stage, there is the electric power (Fig. 8: S116-is no) that can send sealing signal, so microcomputer 42 sends secondary sealing signal (Fig. 7: t22 ~ t23, Fig. 8: S115) due to also remaining in capacitor 30.

Such remote control RC is not until have the electric power (Fig. 7: t27 that can send sealing signal in capacitor 30, Fig. 8: S116-is), send third time (Fig. 7: t24 ~ t25,, four (Fig. 7: t26 ~ t27 Fig. 8: S115), sealing signal after, microcomputer 42 stopped (Fig. 8: S107) Fig. 8: S115).

As mentioned above, control unit 40, when a pressing anus cleaning button MB2 or strong button SB1, sends twice water spray signal respectively or changes signal.On the other hand, when a pressing stop button MB1, send four sealing signals, improve transmission precision.

Toilet device WA is by receiving at least one of the described sealing signal of transmission four times, and the water supply mechanism making main part WAa built-in stops supplying water, and nozzle N2 is retreated in the pelvic part CBb of toilet CB, stops water spray action.

In addition, the remote control RC of embodiments of the present invention, improves transmission precision by sending four sealing signals, but also can be meanwhile, make it send with the signal strength signal intensity being greater than water spray signal and change signal by the signal strength signal intensity strengthening sealing signal, thus raising send precision.

As mentioned above, remote control RC according to the embodiment of the present invention, the user of toilet device WA is first by carrying out the push action to spraying button WB (being anus cleaning button MB2) here, electric power is remained in capacitor 30, thus described electric power is used for generation and the transmission of sealing signal subsequently.Like this, even if the electric power produced in the push action by stop button MB1 is less, also can sends precision with height and send sealing signal.Further, the transmission precision of the operability of stop button MB1 and the high sealing signal of importance degree can be improved.

In addition, do not start microcomputer 42 until the voltage V of capacitor 30 that charge volume testing circuit 32 detects reaches more than voltage Vm, do not send water spray signal, so send the situation of water spray signal under the state preventing the electric power not having q.s in capacitor 30, and precision transmission sealing signal can be sent with height.

In addition, due to until the voltage V of capacitor 30 that charge volume testing circuit 32 detects reaches more than voltage Vm and does not start microcomputer 42, thus can prevent in capacitor 30 not remaining have electric power and water spray signal can not be sent state under start microcomputer 42 and wastes power.Like this, the electric power produced by pressing spraying button WB (being anus cleaning button MB2) can be made here to be stored into further in capacitor 30.

In addition, the electric power that power facility GG discharges mechanical energy by spring mechanism GS and produces, is greater than control unit 40 for generating and sending the electric power needed for water spray signal.Therefore, do not rely on the speed generation electric power that user presses anus cleaning button MB2, the remaining electric power being equivalent to more than voltage Vm in capacitor 30 can be guaranteed.

In addition, arrive by by before position on earth at stop button MB1, sense switch MS1 can detect that stop button MB1 is pressed, so can send sealing signal with less pressing of stop button MB1.

In addition, pressed the electric power (being equivalent to the electric power of the voltage V8-V6 of capacitor 30) of stop button MB1 generation by user, be less than the electric power (being equivalent to the electric power of the voltage V2 of capacitor 30) that pressing anus cleaning button MB2 produces.Like this, reduce stop button MB1 and arrive by by the power needed for position on earth, therefore, it is possible to improve operability.

In addition, press the electric power that strong button SB1 produces, being greater than for generating and sending the electric power changed needed for signal, therefore electric power remaining in capacitor 30 can being made not reduce after generating and sending change signal.In addition, by pressing pressure button SB1, adding electric power remaining in large capacitor 30 further, sealing signal can be sent with higher transmission precision subsequently.

Above, with reference to concrete example, embodiments of the present invention are illustrated.But, the invention is not restricted to above-mentioned concrete example.That is, those skilled in the art suitably apply the design of changing in these concrete examples, as long as possessed feature of the present invention, are also contained in scope of the present invention.Such as, each key element that aforesaid each concrete example possesses and configuration, material, condition, shape, size etc., be not limited to illustrate and can suitably change.In addition, each key element that aforesaid each embodiment possesses, can combine in the scope of technical permission, as long as these combinations are also contained in scope of the present invention containing feature of the present invention.

Claims (8)

1. a remote control, for operated from a distance toilet device, described toilet device has the nozzle to body local water spray, and the feature of described remote control is, comprising:

Selection portion, for making the user of described toilet device select the action of described toilet device by push action, described selection portion has: spraying button, for making described toilet device from described nozzle spray; And sealing button, stop from described nozzle spray for making described toilet device;

Power Generation Section, utilizes the mechanical energy inputted by the push action in described selection portion to produce electric power;

Reserve Power Division, stores the electric power that described Power Generation Section produces; And

Control part, utilizes the electric power stored in described Reserve Power Division, generates water spray signal and send to described toilet device when described spraying button is pressed, and generates sealing signal and send to described toilet device when described sealing button is pressed,

The electric power that described Power Generation Section produces when described spraying button is pressed, is greater than described control part for generating and sending the electric power needed for described water spray signal, and remaining in described Reserve Power Division after sending described water spray signal to make described control part have electric power,

When described sealing button is pressed, electric power remaining in the electric power that described control part utilizes described Power Generation Section to be produced by the push action of described sealing button and described Reserve Power Division, generates and sends described sealing signal.

2. remote control according to claim 1, it is characterized in that, until the amount of electric power that described Power Generation Section is pressed by described spraying button and produces reaches more than ormal weight, described control part does not send described water spray signal, and described ormal weight makes described Reserve Power Division remaining amount having electric power after described control part sends described water spray signal.

3. remote control according to claim 2, is characterized in that,

Also comprise charge capacity checkout gear, for detecting the electric power stored in described Reserve Power Division,

Described control part, until the electric power that described charge capacity checkout gear detects reaches more than described ormal weight, does not send described water spray signal.

4. remote control according to claim 3, is characterized in that,

Also comprise force storage device, during described spraying button is pressed to assigned position, store the mechanical energy of input, and in described spraying button by by when exceeding described assigned position, discharge the mechanical energy stored before this, make described Power Generation Section produce electric power thus

The electric power that the mechanical energy that described Power Generation Section is discharged by described force storage device produces, is greater than described control part and generates and sends electric power needed for described water spray signal.

5. remote control according to claim 3, is characterized in that,

Described control part comprises: signal generating unit, generates described water spray signal and sealing signal; Sending part, sends described water spray signal and the sealing signal of the generation of described signal generating unit to described toilet device; And microcomputer, described signal generating unit and sending part are controlled,

Described microcomputer is until electric power that described charge capacity checkout gear is pressed by described spraying button and detects reaches more than described ormal weight and do not start.

6. remote control according to claim 3, is characterized in that,

Also comprise the sealing button sense switch be pressed for detecting described sealing button,

Described sealing button sense switch can arrive by before the position of pressing on earth at described sealing button, detects that described sealing button is pressed.

7. remote control according to claim 3, is characterized in that, the peak discharge of the electric power that described Power Generation Section is pressed by described sealing button and produces, and is less than described Power Generation Section and is pressed by described spraying button and the peak discharge of the electric power produced.

8. remote control according to claim 3, is characterized in that,

Described selection portion has water spray Status Change button, for changing the water spray state of described nozzle,

When described water spray Status Change button is pressed, described control part utilizes the electric power stored in described Reserve Power Division, generates and changes signal and send to described toilet device,

When described water spray Status Change button is pressed, the electric power that described Power Generation Section produces is greater than described control part for generating and sending the electric power needed for described change signal, and remaining in described Reserve Power Division after sending described change signal to make described control part have electric power.