CN103122654A - Integrating management module of sanitary device - Google Patents

Abstract

The invention discloses an integrating management module of a sanitary device. The integrating management module of the sanitary device is suitable for different flushing management devices of different sanitary devices. The integrating management module of the sanitary device comprises a circuit board body, a microprocessing unit, a sensing signal bus, a flushing control bus, a first wireless transmission unit and other preset buses. The microprocessing unit is arranged on the circuit board body, receives a sensing signal through the sending signal bus and outputs a flushing control signal through the flushing control bus. The flushing control signal controls a flushing valve to flush the sanitary device, and the first wireless transmission unit is in electric connection with the microprocessing unit. The first wireless transmission unit receives sensing data from the microprocessing unit and performs wireless transmission. One or a plurality of other buses or interfaces can be preset on the circuit board body so as to transmit certain data and signals. The integrating management module of the sanitary device achieves remote data searching and device control of multiple sanitary devices, hardware architecture of the integrating management module has high degree sharing elasticity, and the integrating management module of the sanitary device can be implemented on different sanitary devices.

Description

The integration management module of sanitary installation

Technical field

The present invention relates to a kind of control module, espespecially a kind of module of controlling sanitary installation flushing mechanism and output sensing data, even exporting multi-medium data or voice data of integrating.

Background technology

For reaching the purpose of cleaning, the urine funnel top that is arranged at sanitary space usually can connect one and rinse controlling organization; This rinses controlling organization and has inductor, but measuring station stands on the front user of urine funnel.In use procedure, inductor detects the user after the some time, and the flushing controlling organization is namely opened flushing valve, the specific water yield of release is rinsed for the first time to urine funnel, this namely so-called " preshoot ".Leave when sensor detects the user, namely the user go to toilet complete after, rinse controlling organization and namely control flushing valve and open once again, to discharge another specific water yield, urine funnel is rinsed for the second time this namely so-called " backlash ".The basic model above-mentioned when being single user, that flushing control mechanism is washed by water and controlled.When a plurality of users used urine funnel continuously, can there be corresponding adjustment preshoot or backlash time, with the amount of conserving water.

But, what existing flushing control mechanism can provide is take factory setting as main to aqueous mode, is difficult for change; Even can change setting, also must carry out in the scene, very inconvenient.Moreover, on-the-spot number of users, urine amount number, use interval time and frequency etc., variable too much is difficult for measuring following the trail of.Therefore the fixing aqueous mode of giving, and can't suit on-the-spot behavior in service fully; Secondly, fail to obtain the sense data of inductor, bath is set lacked enough reference frames.For different demands for control, different control device is set also Cost Problems.

Summary of the invention

In view of this, the purpose of this invention is to provide a kind of integration management module, be difficult for change with what the existing flushing control mechanism of solution prior art can provide to aqueous mode; Set the technical problem of inconvenience.

The present invention adopts following technical scheme:

A kind of integration management module of sanitary installation is washed by water in order to a flushing valve of controlling a sanitary installation, comprises:

One circuit board body;

One sensing signal bus, transmission is from a sensing signal of this sanitary installation;

One bath control bus is to this flushing valve transmission one bath control signal;

One microprocessing unit, be positioned on this circuit board body, be electrically connected this sensing signal bus and this bath control bus, this microprocessing unit receives this sensing signal and an exportable sense data, and this microprocessing unit produces this bath control signal, to control this flushing valve to this sanitary installation bath; And

One first wireless transmission unit is electrically connected with this microprocessing unit, and this first wireless transmission unit receives this sense data and carries out wireless transmission.

Further, also comprise at least one memory, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit.

Further, this first wireless transmission unit is positioned at this circuit board, and this is external, is electrically connected at this microprocessing unit in external mode.

Further, also comprise a microcontroller, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit by this sensing signal bus and this bath control bus; This microprocessing unit receives this sensing signal and transmits this bath control signal by this microcontroller.

Further, comprise that also one shows control bus, be positioned on this circuit board body, and be electrically connected at this microprocessing unit.

Further, also comprise a multimedia transmission bus, it is positioned on this circuit board body, and is electrically connected with this microprocessing unit.

Further, also comprise an audio transmission bus, it is positioned on this circuit board body, and is electrically connected with this microprocessing unit.

Further, also comprise a cable network bus, it is positioned on this circuit board body, and is electrically connected with this microprocessing unit.

Further, also comprise a memory card bus, it is positioned on this circuit board body, and is electrically connected with this microprocessing unit.

Another embodiment of the present invention provides a kind of integration management module of sanitary installation, washes by water in order to a flushing valve of controlling a sanitary installation, and it comprises:

One circuit board body;

At least one sensing signal bus, transmission is from a sensing signal of this sanitary installation;

At least one bath control bus is to this flushing valve transmission one bath control signal;

One microprocessing unit, be positioned on this circuit board body, be electrically connected this sensing signal bus and this bath control bus, this microprocessing unit receives this sensing signal and an exportable sense data, and this microprocessing unit produces this bath control signal, to control this flushing valve to this sanitary installation bath;

At least one the first wireless transmission unit is electrically connected with this microprocessing unit, and this first wireless transmission unit receives this sense data and carries out wireless transmission, and can receive a plurality of multi-medium datas; And

At least one video processing unit is electrically connected to this microprocessing unit by a multimedia transmission bus, and these multi-medium datas are controlled by this microprocessing unit, transfers to this video processing unit and processes rear output for playing.

Further, also comprise at least one memory, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit.

Further, this first wireless transmission unit is positioned at this circuit board, and this is external, is electrically connected at this microprocessing unit in external mode.

Further, also comprise a microcontroller, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit by this sensing signal bus and this bath control bus; This microprocessing unit receives this sensing signal and transmits this bath control signal by this microcontroller.

Further, this microcontroller receives the moving sensing signal from the outside, the mobile status of this this integration management module of moving sensing signal designation.

Further, this microcontroller receives the minute surface sensing signal from the outside, and this minute surface sensing signal indicates the last mirror position of this sanitary installation whether to sense a user.

Further, comprise that also one shows that control bus is positioned on this circuit board body, and be electrically connected at this microprocessing unit; This microprocessing unit shows control bus transmission one display control signal by this, to control the open and close of an outside playing module.

Further, also comprise a multimedia transmission bus and a video processing unit, this video processing unit is positioned on this circuit board body, and is electrically connected at this microprocessing unit by this multimedia transmission bus.

Further, also comprise an audio transmission bus and an audio treatment unit, this audio treatment unit is positioned on this circuit board body, and is electrically connected by this audio transmission bus and this microprocessing unit.

Further, also comprise a cable network bus and a wire transmission unit, this wire transmission unit is positioned on this circuit board body, and by this cable network bus and the electric connection of this microprocessing unit.

Further, also comprise a memory card bus and a memory card connector, this memory card connector is positioned on this circuit board body, and is electrically connected by this memory card bus and this microprocessing unit, for reading an external memory card.

The integration management module of sanitary installation provided by the invention has realized collecting with device in the teledata of a plurality of sanitary installation and has controlled; And the hardware structure of integration management module possesses shared resources elasticity, to be implemented on different sanitary installation.

Description of drawings

Fig. 1 is the enforcement allocation plan of integration management module in one embodiment of the invention;

Figure 1A is the circuit box schematic diagram of integration management module in another embodiment of the present invention;

Figure 1B is the circuit box schematic diagram of integration management module in another embodiment of the present invention;

Fig. 2 is the circuit box schematic diagram of water saving integration management module in another embodiment of the present invention;

Fig. 3 is the circuit box schematic diagram of multimedia water saving integration management module in another embodiment of the present invention;

Fig. 4 is the circuit box schematic diagram of another multimedia water saving integration management module in another embodiment of the present invention;

Fig. 5 is the circuit box schematic diagram that is positioned at the multimedia water saving integration management module of minute surface integration management system in another embodiment of the present invention;

Fig. 6 is the circuit box schematic diagram that is positioned at another multimedia water saving integration management module of minute surface integration management system in another embodiment of the present invention;

Fig. 7 is the circuit box schematic diagram of another integration management module in another embodiment of the present invention;

Fig. 8 is the circuit box schematic diagram of another integration management module in another embodiment of the present invention; And

Fig. 9 is the circuit box schematic diagram of another integration management module in another embodiment of the present invention.

The specific embodiment

Please refer to Fig. 1, is the enforcement allocation plan of integration management module in one embodiment of the invention.In a sanitary space 10, be provided with eight sanitary installation 410/420/430/440/450/460/470/480; Wherein sanitary installation 410/420/430 is induction type bath urine funnel, and sanitary installation 440/450 is the induction type water closet, and sanitary installation 460/470/480 is three tanks on induction type flushing and washing platform.Sanitary space can be individual or public lavatory, setting is had nothing in common with each other according to actual demand: in another embodiment, the group that another sanitary space may be provided with induction type bath urine funnel, induction type water closet, induction type water closet makes up one of them or its any combination.

Each sanitary installation 410/420/430/440/450/460/470/480 has respectively corresponding flushing valve, and (Fig. 1 does not show; See follow-up each figure and explanation thereof for details), this flushing valve connects an external water source and is subjected to respectively the control of control signal of washing by water individually, and sanitary installation 410/420/430/440/450/460/470/480 is washed by water.Bath management devices 310/320/330/340/350/360/370/380 correspondence is arranged near sanitary installation 410/420/430/440/450/460/470/480, the indivedual baths of output control signal to the flushing valve of each sanitary installation 410/420/430/440/450/460/470/480 respectively, to control each flushing valve to the bath time length of its sanitary installation 410/420/430/440/450/460/470/480.

Please refer to Fig. 1 and Figure 1A.Figure 1A is the circuit box schematic diagram of integration management module 61.Integration management module 61 can be for (adopting the embodiment of integration management module 21 to please refer to Fig. 2 and related description) in the bath management devices 310 that is arranged in Fig. 1, washes by water in order to the sanitary installation 410 of 411 couples of Fig. 1 of flushing valve of controlling Figure 1A.Integration management module 61 mainly comprises circuit board body 600, microprocessing unit 610, the first wireless transmission unit 611 and a plurality of buses and the COM1 that is connected and connectivity port.

Circuit board body 600 is a printed circuit board (PCB) (Printed Circuit Board; PCB), can be for circuit layout (as bus) and necessary electronic component are set.

Microprocessing unit 610 is the arithmetic core of integration management module 61, may be the microprocessor of programmable logic controller (PLC) (Programmable Logic Controller) or other different brackets operation efficiency in different embodiment.Microprocessing unit 610 is arranged on circuit board body 200, can receive sensing signal and exportable bath control signal and sense data, and this meaning bath control signal can be controlled 410 baths of 411 pairs of sanitary installation of flushing valve.

Bath control bus 500 is arranged on circuit board body 200, is electrically connected microprocessing unit 610.Can be in bath control bus 500 end signalization connector (not shown)s, to be electrically connected flushing valve 411 on circuit board body 200.Thereby the bath control signal of microprocessing unit 210 outputs can be passed to flushing valve 411 through bath control bus 500.

Sensing signal bus 510 is arranged on circuit board body 200, is electrically connected microprocessing unit 610.Can be in sensing signal bus 510 end signalization connector (not shown)s, for being electrically connected sensing cell 412 on circuit board body 200; Sensing cell 412 can be by realizations such as infrared ray sensor, ultrasound sensors, optical sensor, heat sensor, image sensors, and it enters or leave its induction region in order to detect the user, and produces sensing signal.Thereby the sensing signal that sensing cell 412 produces can transfer to microprocessing unit 210 by sensing signal bus 510.

The first wireless transmission unit 611 is positioned on this circuit board body 600 (external mode also can), and is electrically connected with this microprocessing unit 610, to receive the sense data of microprocessing unit 610 outputs; The first wireless transmission unit 611 also is electrically connected the first antenna element 413, to carry out wireless transmission by the first antenna element 413 after processing sense data.the first wireless transmission unit 611 can be wireless chip or the wireless transceiver that is compatible with the IEEE 802.11b/g/n of the Institute of Electrical and Electronics Engineers (IEEE) (2.4-2.5GHz) or other IEEE 802.11 standards, in another embodiment, the first wireless transmission unit 611 can be compatible with other wireless transmission standards, as wireless image-sound transmission (Wireless AV), Bluetooth wireless transmission (Bluetooth), ultra wideband transmissions (Ultra-Wide Band, UWB), the Zigbee wireless transmission, Wi-Fi Direct wireless transmission, global intercommunication microwave access (Worldwide Interopeability for Microwave Access, WiMAX), mobile phone transmission (GSM, CDMA, WCDMA, CDMA2000, TDS-CDMA, ...), digital television transfer (DVB-Cable, Satellite, Terrestrial), anolog TV signals transmission (UHF, VHF), broadcast singal transmission (FM, AM), radio frequency identification system (Radio Frequency Identification, RF ID), near-field communication (Near Field Communication, NFC), Long Term Evolution (Long Term Evolution, LTE), Ultra Mobile Broadband (Ultra Mobile Broadband, UMB), wireless universal serial port (Wireless USB) ... etc.

in one embodiment, configuration with Fig. 1 illustrates, if the bath management devices 310/320/330/340/350/360/370/380 of sanitary installation 410/420/430/440/450/460/470/480 all is equipped with the integration management module 61 of Figure 1A, can the sense data of each sanitary installation 410/420/430/440/450/460/470/480 be spread out of distance supervisor by the first wireless transmission unit 611, also may be by the remote transmission control instruction to microprocessing unit 610, control respectively the discharging quantity of water of the flushing valve of sanitary installation 410/420/430/440/450/460/470/480.Simultaneously, shared resources and integration elasticity due to integration management module 61 make it can be applied in different environments for use and user demand.

Comprise also in Figure 1A that one or more volatility or non-volatility memorizer 631 are positioned on circuit board body 600, and be electrically connected at microprocessing unit 610; Whether the configuration of memory 631 reaches the quantity number depends on the actual computing demand of using of microprocessing unit 610.In case of necessity, the integration management module also can be set up a microcontroller (as the microcontroller 670 of Figure 1B), share the work of microprocessing unit 610, it can be positioned on circuit board body 600, and can be electrically connected at microprocessing unit 610 (not shown) by sensing signal bus 510 and bath control bus 520; So, microprocessing unit 610 can receive sensing signals, and transmission bath control signal by microcontroller 670.

In Figure 1A, integration management module 61 is reserved many buses and associated electronic components on circuit board body 600, in order to promote the shared elasticity of integration management module 61 and circuit board body 600 thereof, relatively Figure 1A and Figure 1B can find out this advantage.

For example, show that control bus 520 is positioned on circuit board body 600, and be electrically connected at microprocessing unit 610; Microprocessing unit 610 can be by showing control bus 520 transmission one display control signals, to control the open and close of an outside playing module (as the display module 325 of Fig. 1).Namely, when the sensing signal representative had detected the user at certain sanitary installation of use, microprocessing unit 610 just needed by display control signal, opens the playing module that is arranged on its sanitary installation.

Multimedia transmission bus 540 is reserved on circuit board body 600, and is electrically connected with microprocessing unit 610.Multi-medium data can receive by the first wireless transmission unit 611, leaves in memory 630 for playing.The video processing unit 640 of Figure 1B can be installed on video processing unit interface 641 (Figure 1A can be realized by a plurality of metallic contacts or chip joint seat), is electrically connected to microprocessing unit 620 by multimedia transmission bus 540; Multi-medium data is controlled by microprocessing unit 620, transfers to this video processing unit 640 and processes rear output for playing.In one embodiment, the multi-medium data specification after video processing unit 640 is processed is compatible with high-definition multimedia interface (HDMI; High Digital Video Interface) or low-voltage differential signal (Low-voltage differential signaling; LVDS), namely video processing unit 640 two specifications are compatible at least therewith.If necessary, a plurality of video processing units 640 and different images signal specification compatibility also can be set.

In Figure 1B, the first wireless transmission unit 621 is clearly to be positioned at outside circuit board body 600, is electrically connected at microprocessing unit 620 in external mode.Implementation method is for example reserved general-purpose serial bus (Universal Serial Bus on circuit board body 600; USB) and connector, as long as having USB interface, the first wireless transmission unit 621 can be external on integration management module 62.

The microcontroller 670 of Figure 1B is except the reception transmission of aforementioned sensing signal, bath control signal, also can pass through the distinct interface (not shown), be connected to (1) external played module 325/335/345/355/365/375 with the display control signal of transmission from microprocessing unit 621; Or be connected near the minute surface sensing cell 492 of mirror position (2) sanitary installation, to receive the minute surface sensing signal; Or be connected to (3) and be arranged at bath moving sensing unit 493 (for example being realized by microswitch, pressure inductor or what is called " G-senser (gravity sensor) "), its mobile status generation one moving sensing signal according to integration management module 620 in management devices, namely whether this moving sensing signal representative bath management devices or its integration management module are moved, if the yea-sayer may get for being damaged or being stolen.

The audio treatment unit 650 of Figure 1B can be installed on audio treatment unit interface 651 (Figure 1A can be realized by a plurality of metallic contacts or chip joint seat), is electrically connected to microprocessing unit 620 by audio transmission bus 570.If when having voice data to play, after can processing by audio treatment unit 650, output audio signal is play for audio frequency expansion instrument such as loudspeaker.

The wire transmission unit 660 of Figure 1B can be installed on wire transmission unit interface 661 (Figure 1A can be realized by a plurality of metallic contacts or chip joint seat), is electrically connected to microprocessing unit 620 by the cable network bus 580 on circuit board body 600.Generally speaking, playing module and integration management module are installed when upgrading to existing sanitary installation, be not easy to carry out the layout construction of cable network; But limit without this for newly-built sanitary installation.Therefore the integration management module also can be reserved with spider lines bus 580 and wire transmission unit interface 661, so namely has the shared elasticity of height.

In addition, consider memory limited on integration management module 62 630 capacity, also can reserve memory card bus 590 and memory card connector interface 681 (Figure 1A can be realized by a plurality of metallic contacts) at circuit board body 600, for memory card connector 680 is installed; Memory card connector 680 can supply to read external memory card, or sense data and multi-medium data, voice data are write on external memory card, enlarges 620 data volumes that can preserve of integration management module.

Integration management module in Figure 1A and Figure 1B also can be made of the electronic component of low order comparatively; The different aspects of implementing of other that following Fig. 2 to Fig. 9 is the integration management module.

At first, see also Fig. 1 and Fig. 2; Fig. 2 is the circuit box schematic diagram of water saving integration management module in another embodiment of the present invention.Be provided with integration management module 21 in bath management devices 310 in Fig. 1, wash by water in order to the sanitary installation 410 of 411 couples of Fig. 1 of flushing valve of control chart 2.Integration management module 21 mainly comprises circuit board body 200, microprocessing unit 210, the first wireless transmission unit 211 and a plurality of buses and the COM1 that is connected and connectivity port.

Circuit board body 200 is a printed circuit board (PCB) (Printed Circuit Board; PCB), can be for circuit layout (as bus) and necessary electronic component are set.

Microprocessing unit 210 is the arithmetic core of integration management module 21, may be the microprocessor of programmable logic controller (PLC) (Programmable Logic Controller) or other different brackets operation efficiency in different embodiment.Microprocessing unit 210 is arranged on circuit board body 200, can receive sensing signal and exportable bath control signal and sense data, and this meaning bath control signal can be controlled 410 baths of 411 pairs of sanitary installation of flushing valve.

Bath control bus 500 is arranged on circuit board body 200, is electrically connected bath and controls COM1 501 and bath control connection port 502.Wherein bath control COM1 501 comprises one or more line contacts (trace contact point), and one or more pin (pin) of microprocessing unit 210 is electrically connected bath control COM1 501, to be electrically connected with bath control bus 500.Bath control connection port 502 comprises one or more line contacts (can comprise a bath control connection device in another embodiment), for being electrically connected flushing valve 411.To control COM1 501, bath control bus 500, bath control connection port 502 and to be passed to flushing valve 411 through bath with the bath control signal of, microprocessing unit 210 outputs.

Sensing signal bus 510 is arranged on circuit board body 200, is electrically connected sensing signal COM1 511 and sensing signal connectivity port 512.Wherein sensing signal COM1 511 comprises one or more line contacts, and one or more pin of microprocessing unit 210 is electrically connected sensing signal COM1 511, to be electrically connected with sensing signal bus 510.Sensing signal connectivity port 512 comprises one or more line contacts (can comprise a sensing signal connector in another embodiment), for being electrically connected sensing cell 412; The realizations such as sensing cell 412 can infrared ray sensor, ultrasound sensors, optical sensor, heat sensor, image sensor, it enters or leaves its induction region in order to detect the user, and produces sensing signal.Be the sensing signal that produces with, sensing cell 412, can transfer to microprocessing unit 210 by sensing signal connectivity port 512, sensing signal bus 510, sensing signal connectivity port 512.

In another embodiment, the minute surface integration management system 400 in Fig. 1 is in whole sanitary space 10, the bath control core of all sanitary installation 410/420/430/440/450/460/470/480.The difficulty and the cost that complete afterwards, again be laid with spider lines due to sanitary space 10 infrastructure are higher, and various embodiments of the present invention only illustrate the various integration management modules enforcement aspects that can consist of wireless network (wireless network).

The first wireless transmission unit 211 is positioned on this circuit board body 200, and is electrically connected with this microprocessing unit 210, to receive the sense data of microprocessing unit 210 outputs; The first wireless transmission unit 211 also is electrically connected the first antenna element 413, to carry out wireless transmission by the first antenna element 413 after processing sense data.the first wireless transmission unit 211 can be wireless chip or the wireless transceiver that is compatible with the IEEE802.11b/g/n of the Institute of Electrical and Electronics Engineers (IEEE) (2.4-2.5GHz) or other IEEE 802.11 standards, in another embodiment, the first wireless transmission unit 211 can be compatible with other wireless transmission standards, as wireless image-sound transmission (Wireless AV), Bluetooth wireless transmission (Bluetooth), ultra wideband transmissions (Ultra-Wide Band, UWB), the Zigbee wireless transmission, Wi-Fi Direct wireless transmission, global intercommunication microwave access (Worldwide Interopeability for Microwave Access, WiMAX), mobile phone transmission (GSM, CDMA, WCDMA, CDMA2000, TDS-CDMA, ...), digital television transfer (DVB-Cable, Satellite, Terrestrial), anolog TV signals transmission (UHF, VHF), broadcast singal transmission (FM, AM), radio frequency identification system (Radio Frequency Identification, RF ID), near-field communication (Near Field Communication, NFC), Long Term Evolution (Long Term Evolution, LTE), Ultra Mobile Broadband (Ultra Mobile Broadband, UMB), wireless universal serial port (Wireless USB) ... etc.

In another embodiment, for collect the sense data of all sanitary installation in sanitary space by the integration management module with intercommunity framework, the integration management module needs the corresponding flushing valve that is mounted to each sanitary installation.In sanitary space, one of them integration management module can be used as the exclusive DCC of this sanitary space, as borrowing Fig. 2 explanation, be that integration management module 21 comprises that a Data Collection bus 530 is electrically connected this first wireless transmission unit 211, receive " the second sense data " (to distinguish the inner sense data that sends) of all " other " or " another " integration management module 21 outputs by the first antenna element 413, and by Data Collection COM1 531, Data Collection bus 530 and Data Collection connectivity port 532 outputs.In another embodiment, the sense data of output and the second sense data can be transmitted back to a main frame (not shown).

Data Collection bus 530 1 ends are electrically connected Data Collection COM1 531, and this Data Collection COM1 531 has one or more line contacts; One or more pin of the first wireless transmission unit 211 is electrically connected at Data Collection COM1 531, to be electrically connected with Data Collection bus 530.Data Collection bus 530 other ends are electrically connected Data Collection connectivity port 532, and this Data Collection connectivity port 532 can comprise one or more line contacts (can comprise a Data Collection connector in another embodiment), for connecting aforementioned main frame.For reaching the purpose of sharing, non-during as the exclusive DCC of sanitary space, general integration management module 21 is predeterminable this Data Collection bus 530 but do not use still.In one embodiment, Data Collection bus 530, Data Collection connectivity port 532 and Data Collection connectivity port 532 can be compatible with universal serial bus (Universal Serial Bus; USB) specification.

Secondly, though in Fig. 2, integration management module 21 does not connect any playing module, but for making in Fig. 2 in integration management module 21 and subsequent drawings the integration management module 22,23,24,25,26,27 of different enforcement states have similar framework, compatibility and have intercommunity (Interoperability) each other, perhaps for the facility on producing, cost consideration etc., still predeterminable on circuit board body 200 have the control bus of a demonstration bus relevant to a plurality of multimedias.

The demonstration control bus 520 that uses in Fig. 2 is controlled COM1 521 by demonstration and is electrically connected this microprocessing unit 210; The other end that shows control bus 520 is electrically connected at untapped demonstration control connection port 522.Show that wherein controlling COM1 521 comprises one or more line contacts, and one or more pin of microprocessing unit 210 is electrically connected demonstration control COM1 521, to be electrically connected with sensing signal bus 510.Untapped demonstration control connection port 522 comprises one or more line contacts (can comprise in another embodiment one show control connection device), when the playing module of connection is arranged in other enforcement state, and the transmission display control signal.In another embodiment, if all without the multimedia demand, presetting, each sanitary installation of sanitary space shows that control bus is not imperative on all integration management modules.

Still as seen multimedia bus such as multimedia transmission bus 540, multimedia transceiver bus 550 come source bus 560 and COM1 and connectivity port thereof all to use with multimedia to Fig. 2; If each sanitary installation of sanitary space is all without the multimedia demand, default multimedia bus is not imperative on all integration management modules.Please refer to the enforcement aspect of follow-up different integration management modules, come source bus 560 and COM1 and connectivity port thereof to have more to speak more bright for multimedia transmission bus 540, multimedia transceiver bus 550 and multimedia, wouldn't give unnecessary details in this.In other words, integration management module optionally default one or more untapped multimedia bus is positioned on the circuit board body, and this multimedia bus is selected from group's one or any combination wherein that multimedia transmission bus, multimedia transceiver bus and multimedia are come source bus.

See also Fig. 1 and Fig. 3; Fig. 3 is the circuit box schematic diagram of multimedia water saving integration management module in another embodiment of the present invention.With reference to shown in Figure 3, be provided with in the bath management devices 320/330 of Fig. 1 and integrate control module 22/23, wash by water in order to 421/431 pair of Fig. 1 sanitary installation 420/430 of flushing valve of control chart 3.Integration management module 22/23 mainly comprises circuit board body 200, microprocessing unit 220/230, the first wireless transmission unit 221/231, the second radio receiving unit 222/232 and a plurality of buses and the COM1 that is connected and connectivity port.

Circuit board body 200 is basically identical with Fig. 2 with microprocessing unit 220/230, only stresses.Microprocessing unit 220/230 is arranged on circuit board body 200, can receive sensing signal, and exportable display control signal, bath control signal and sense data, the sanitary installation 420/430 that this bath control signal can be controlled 421/431 couple of Fig. 1 of flushing valve is washed by water.

To control COM1 501 similar to Fig. 2 with the control connection port 502 of washing by water and for ease of explanation due to bath control bus 500, bath, the bath control bus 500 of integration management module 22/23, bath are controlled COM1 501 and are only used single group figure number with bath control connection port 502, below only stress.One or more pin of microprocessing unit 220/230 is electrically connected bath and controls COM1 501, to be electrically connected with bath control bus 500.Bath control connection port 502 is for electrically connecting flushing valve 421/431.To control COM1 501, bath control bus 500, bath control connection port 502 and to be passed to flushing valve 421/431 through bath with the bath control signal of, microprocessing unit 210 outputs.

Similar to Fig. 2 to sensing signal connectivity port 512 and for ease of explanation due to sensing signal bus 510, sensing signal COM1 511, the sensing signal bus 510 of integration management module 22/23, sensing signal COM1 511 only used single group figure number with sensing signal connectivity port 512, below only stresses.Sensing signal COM1 511 comprises one or more line contacts, and one or more pin of microprocessing unit 220/230 is electrically connected sensing signal COM1 511, to be electrically connected with sensing signal bus 510.Sensing signal connectivity port 512 is for electrically connecting sensing cell 412; Sensing cell 422/432 enters or leaves its induction region in order to detect the user, and produces sensing signal.Thereby the sensing signal that sensing cell 412 produces can transfer to microprocessing unit 210 by sensing signal connectivity port 512, sensing signal bus 510, sensing signal connectivity port 512.

The first wireless transmission unit 221/231 is similar to the first wireless transmission unit 211 of Fig. 2, and it is positioned on this circuit board body 200, and is electrically connected with this microprocessing unit 220/230 respectively, to receive the sense data of microprocessing unit 220/230 output; The first wireless transmission unit 211 also is electrically connected the first antenna element 413, to carry out wireless transmission by the first antenna element 413 after processing sense data.

Data Collection bus 530, Data Collection COM1 531 follow Fig. 2 similar to Data Collection COM1 532, and Data Collection bus 530 1 ends are electrically connected by Data Collection COM1 531 and the first wireless transmission unit 221/231.Data Collection bus 530 other ends are electrically connected Data Collection connectivity port 532, and this Data Collection connectivity port 532 can only be preset and do not used, and also can supply external output sensing data.

Secondly, integration management module 22/23 is connected with playing module 325/335.Demonstration control bus 520 is controlled COM1 521 by demonstration and is electrically connected these microprocessing units 210; The other end that shows control bus 520 is electrically connected at demonstration control connection port 522, and shows that control connection port 522 can be electrically connected playing module 325/335.Show control bus 520, show and control COM1 521, demonstration control connection port 522, can be for the display control signal of transmission from microprocessing unit 220/230.

In one embodiment, the controlled record and broadcast amplification module 325/335 of the display control signal of microprocessing unit 220/230 output begins or stops showing multi-medium data.Playing module 325/335 has the display unit (not shown) at least, as liquid crystal display, display of organic electroluminescence or other flat-panel screens.So-called " stopping " showing multi-medium data, and embodiment can be the main power source of closing playing module 325/335, the back light member power supply of closing playing module 325/335 or play a screen protection program or made playing module 325/335 enter stand-by/sleep mode etc. by playing module 325/335.

The second radio receiving unit 222/232 is positioned on this circuit board body 200, can be connected with microprocessing unit 220/230 or not connect; The second radio receiving unit 222/232 is electrically connected the second antenna element 424/434, to receive the multi-medium data of wireless transmission.in one embodiment, the second radio receiving unit 222/232 can be wireless chip or the wireless transceiver that is compatible with the IEEE 802.11a/n of the Institute of Electrical and Electronics Engineers (IEEE) (5-5.8GHz) or other IEEE 802.11 standards, in another embodiment, the second radio receiving unit 222/232 can be compatible with other wireless transmission standards, as wireless image-sound transmission (Wireless AV), Bluetooth wireless transmission (Bluetooth), ultra wideband transmissions (Ultra-Wide Band, UWB), the Zigbee wireless transmission, Wi-Fi Direct wireless transmission, global intercommunication microwave access (Worldwide Interopeability for Microwave Access, WiMAX), mobile phone transmission (GSM, CDMA, WCDMA, CDMA2000, TDS-CDMA, ...), digital television transfer (DVB-Cable, Satellite, Terrestrial), anolog TV signals transmission (UHF, VHF), broadcast singal transmission (FM, AM), radio frequency identification system (Radio Frequency Identification, RF ID), near-field communication (Near Field Communication, NFC), Long Term Evolution (Long Term Evolution, LTE), Ultra Mobile Broadband (Ultra Mobile Broadband, UMB), wireless universal serial port (Wireless USB) ... etc.In another embodiment, the second radio receiving unit 222/232 can comprise hardware frequency hopping device or software frequency hopping program and carry out frequency hopping and set, and carries out the specific multi-medium data of wireless transmission to be received in special frequency channel.

Multimedia transmission bus 540 1 ends are electrically connected the second radio receiving units 222/232 by multimedia transmission COM1 541, and the other end is electrically connected outside playing modules 325/335 by multimedia transmission connectivity port 542.Simultaneously, multimedia transceiver bus 550 is received and dispatched COM1 551 by multimedia and is electrically connected the second radio receiving unit 222/232, and the other end is received and dispatched connectivity port 552 by multimedia and is electrically connected the second antenna element 424/434.Multimedia transmission COM1 541 can comprise respectively that with multimedia transmitting-receiving COM1 551 one or more line contacts and the second radio receiving unit 222/232 are electrically connected.Multimedia transmission connectivity port 542 can comprise one or more line contacts, or can be in another embodiment a multimedia transmission connector; Multimedia transmitting-receiving connectivity port 552 can comprise one or more line contacts, or can be in another embodiment a multimedia transmitting-receiving connector.In one embodiment, multimedia transmission bus 540, multimedia transmission COM1 541 can be compatible with composite video broadcast singal (Composite Video Broadcast Signal:CVBS) specification with multimedia transmission connectivity port 542.

In one embodiment, multi-medium data can be supplied by wireless transmission by the integration management module 26 that Fig. 5 is installed in minute surface integration management system 400, through the second antenna element 424/434 of Fig. 3, multimedia transmitting-receiving connectivity port 552, multimedia transceiver bus 550, multimedia transmitting-receiving COM1 551 received by the second radio receiving unit 222/232, and forwarding through multimedia transmission COM1 541, multimedia transmission bus 540, multimedia transmission connectivity port 542 to the playing module 325/335 of outside.In one embodiment, multi-medium data is not sent to microprocessing unit 220/230 and does special the processing, therefore microprocessing unit 220/230 does not need the high-effect multi-medium data of processing; In other words, arrange administration module 22/23 and only do the simple transmission of multi-medium data with its second radio receiving unit 222/232.

See also Fig. 1 and Fig. 4, Fig. 4 is the circuit box schematic diagram of another multimedia water saving integration management module in another embodiment of the present invention.Fig. 4 and Fig. 3 are very close, integration management module 24/25 is installed in bath management devices 340/350 in Fig. 1, mainly comprises circuit board body 200, microprocessing unit 240/250, the first wireless transmission unit 241/251, the second radio receiving unit 242/252 and a plurality of buses and the COM1 that is connected and connectivity port.

Microprocessing unit 240/250 is positioned on circuit board body 200, receives the sensing signal from sensing cell 442/452, controls the bath of the sanitary installation 440/450 of 441/451 couple of Fig. 1 of flushing valve in order to output bath control signal.

Microprocessing unit 240/250 can be through the first wireless transmission unit 241/251, the first antenna element 443/453 transmission sense data.Microprocessing unit 240/250 also an exportable display control signal to playing module 345/355.And by the second antenna element 444/454, the second radio receiving unit 242/252 can receive and the repeating multimedia data to playing module 345/355.

The Main Differences of Fig. 4 and Fig. 3 is, playing module 345/355 in Fig. 4 can be little projector (micro-projector), be arranged on the wall wall of sanitary installation 440/450 back side top in Fig. 1, and multi-medium data be projected between the lavatory of offside on door.In another embodiment, according to the difference of playing module 345/355 setting position, the projected position of multi-medium data is also relatively different.In addition, between the toilet that is provided with induction type toilet (sanitary installation 440/450) in, playing module 345/355 also may be realized with flat-panel screens.And sensing cell 442/452 also may be arranged on ceiling between toilet, and the setting of its sensing range needs to adjust separately.

With regard to the system architecture of Fig. 1, except the integration management module 26 (seeing Fig. 5) that is arranged on minute surface integration management system 400 needs to send multi-medium data to other integration management module 22/23 (Fig. 3), 24/25 (Fig. 4), 27 (Fig. 6), the multi-medium data that integration management module 22,23,25 only needs to receive wire transmission or wireless transmission gets final product.Therefore with regard to cost consideration, the second wireless transmission unit in Fig. 4 need not be set; But with regard to the sharing of integration management intermodule, still predeterminable associated bus lines communicates with port, connectivity port.

See also Fig. 1 and Fig. 5, Fig. 5 is the circuit box schematic diagram that is positioned at the multimedia water saving integration management module of minute surface integration management system in another embodiment of the present invention.Integration management module 26 is as the control core of media play and flushing mechanism in sanitary space 10, and it is installed near the playing module 365 of minute surface integration management system 400.Integration management module 26 mainly comprises circuit board body 200, microprocessing unit 260, the first wireless transmission unit 261, the second wireless transmission unit 262 and a plurality of buses and the COM1 that is connected and connectivity port.Except the second wireless transmission unit 262, the counter element of each element and previous embodiment is close, does not repeat them here.

In one embodiment, 460 baths of 461 pairs of sanitary installation of flushing valve may be controlled or do not controlled to integration management module 26, and the bath management devices of label 360 may be general induction tap, and its flushing mechanism may be irrelevant with integration management module 26.Integration management module 26 may receive or not receive the sensing signal from bath management devices 360, and in other words sensing cell 462 can be another sensing signal source that is installed in minute surface integration management system 400; Sensing cell 462 perhaps has different sensing ranges to be set, but the user who enters in sensing range can be detected, particularly is positioned near the person of sanitary installation 460/470, makes the broadcast of multi-medium data be able to the position linkage with the user.

After the sensing signal that microprocessing unit 260 receives from sensing cell 462, exportable sense data to the first wireless transmission unit 261.But the first wireless transmission unit 261 wireless transmission also receive inner sense data, also can receive the outside sense data (the second sense data) from other integration management module 21/22/23/24/25/27 and the first wireless transmission unit 211/221/231/241/251/271 (with reference to figure 2-Fig. 6) thereof.And inner sense data and outside the second sense data can export main frame 401 to by Data Collection COM1 531, Data Collection bus 530, Data Collection connectivity port 532 and converge whole and statistics.In one embodiment, Data Collection bus 530, Data Collection connectivity port 532 and Data Collection connectivity port 532 can be compatible with universal serial bus (Universal Serial Bus; USB) specification.

After the sensing signal that microprocessing unit 260 receives from sensing cell 462, exportable display control signal is controlled the demonstration of playing module 365 to playing module 365.In one embodiment, in sanitary space 10, the source of multi-medium data is main frame 401.In Fig. 5, multi-medium data need to be sent to other integration management module 21/22/23/24/25/27, therefore main frame 401 connectivity ports 562, output multi-medium data to multimedia source, come source bus 560, multimedia source COM1 561, the second wireless transmission unit 262, the second antenna element 464 through multimedia, and multi-medium data is wirelessly transmitted to other integration management module 21/22/23/24/25/27.

Multimedia comes source bus 560 to be electrically connected multimedia source COM1 561 and connectivity port 562, multimedia source.Multimedia source COM1 561 comprises one or more line contacts, and one or more pin of the second wireless transmission unit 262 is electrically connected multimedia source COM1 561, to come source bus 560 to be electrically connected with multimedia.Connectivity port 562, multimedia source comprises one or more line contacts (can comprise in another embodiment a multimedia come source connector), for being electrically connected the second antenna element 464.In one embodiment, connectivity port 562, multimedia source comes source bus 560, multimedia source COM1 561 can be compatible with composite video broadcast singal (Composite Video Broadcast Signal:CVBS) specification through multimedia.

The second wireless transmission unit 262 is positioned on this circuit board body 200, can be connected with microprocessing unit 260 or not connect; The second wireless transmission unit 262 is electrically connected the second antenna elements 464, with the wireless transmission multi-medium data.in one embodiment, the second wireless transmission unit 262 can be wireless chip or the wireless transceiver that is compatible with the IEEE 802.11a/n of the Institute of Electrical and Electronics Engineers (IEEE) (5-5.8GHz) or other IEEE 802.11 standards, in another embodiment, the second wireless transmission unit 262 can be compatible with other wireless transmission standards, as wireless image-sound transmission (Wireless AV), Bluetooth wireless transmission (Bluetooth), ultra wideband transmissions (Ultra-Wide Band, UWB), the Zigbee wireless transmission, Wi-Fi Direct wireless transmission, global intercommunication microwave access (Worldwide Interopeability for Microwave Access, WiMAX), mobile phone transmission (GSM, CDMA, WCDMA, CDMA2000, TDS-CDMA, ...), digital television transfer (DVB-Cable, Satellite, Terrestrial), anolog TV signals transmission (UHF, VHF), broadcast singal transmission (FM, AM), radio frequency identification system (Radio Frequency Identification, RF ID), near-field communication (Near Field Communication, NFC), Long Term Evolution (Long Term Evolution, LTE), Ultra Mobile Broadband (Ultra Mobile Broadband, UMB), wireless universal serial port (Wireless USB) ... etc.In another embodiment, the second wireless transmission unit 262 can comprise hardware frequency hopping device or software frequency hopping program and carry out frequency hopping and set, carry out the specific multi-medium data of wireless transmission to be received in special frequency channel.

Multi-medium data source as for playing module 365 directly exports playing module 365 to by video cables (as the VGA specification) by main frame.It is attainable installing the second radio receiving unit on the integration management module additional, the mode that provides of multi-medium data, be by the second antenna element 464 and the first radio receiving unit and receive the multi-medium data that the second wireless transmission unit 262 sends, but not pass through wired mode.In addition in one embodiment, whole sanitary space 10 may only have the unit (not shown) that amplifies, and the audio frequency of multi-medium data is play namely and may be realized by the unit that amplifies of main frame 401.

In above-mentioned several embodiment or graphic in, be not difficult to find out that the second radio receiving unit and the second wireless transmission unit share multimedia transceiver bus, multimedia transmitting-receiving COM1 and multimedia transmitting-receiving connectivity port transmitting multimedia data, this puts also can promote the sharing of circuit board body.

See also Fig. 1 and Fig. 6, Fig. 6 is the circuit box schematic diagram that is positioned at another multimedia water saving integration management module of minute surface integration management system in another embodiment of the present invention.Integration management module 27 is installed in minute surface integration management system 400 equally with integration management module 26, is positioned near playing module 375.Integration management module 27 mainly comprises circuit board body 200, microprocessing unit 270, the first wireless transmission unit 271, the second radio receiving unit 272 and a plurality of buses and the COM1 that is connected and connectivity port; The counter element of each element and previous embodiment is close, repeats no more in this.

In one embodiment, 470/480 bath of 471/481 pair of sanitary installation of flushing valve may be controlled or do not controlled to integration management module 27, and the bath management devices of label 370 may be general induction tap, and its flushing mechanism may be irrelevant with integration management module 27.Integration management module 27 may receive or not receive the sensing signal from bath management devices 370, and in other words sensing cell 472/482 can be other sensing signal source that is installed in minute surface integration management system 400; Sensing cell 472/482 perhaps has different sensing ranges to be set, but the user who enters in sensing range can be detected, particularly is positioned near the person of sanitary installation 470/480, makes the broadcast of multi-medium data be able to the position linkage with the user.

After the sensing signal that microprocessing unit 270 receives from sensing cell 472/482, exportable sense data to the first wireless transmission unit 271.But the first wireless transmission unit 271 wireless transmission sense datas are for integration management module 27 gather datas.

After the sensing signal that microprocessing unit 270 receives from sensing cell 472/482, exportable display control signal is controlled the demonstration of playing module 375 to playing module 375.The multi-medium data source of playing module 375 can directly export playing module 375 to by video cables (as the VGA specification) by main frame.It is attainable installing the second radio receiving unit 272 on integration management module 27 additional, the mode that provides of multi-medium data, be by the second antenna element 474 and the second radio receiving unit 272 and receive the multi-medium data of integration management module 26 (Fig. 5), but not pass through wired mode; Under this situation, integration management module 27 is similar to the integration management module 22/23/24/25 of Fig. 3-Fig. 4.

Please refer to Fig. 7, it is the circuit box schematic diagram of another integration management module in another embodiment of the present invention.Fig. 7 is substantially identical with Fig. 2, and different being in integration management module 28 comprises that one has the second wireless transmission unit 284 of wireless receiving sending function.In one embodiment, the second wireless transmission unit group of being selected from one second radio receiving unit and one second wireless transmission unit makes up one of them or its any combination.in one embodiment, the second wireless transmission unit 284 can be wireless chip or the wireless transceiver that is compatible with the IEEE 802.11a/n of the Institute of Electrical and Electronics Engineers (IEEE) (5-5.8GHz) or other IEEE 802.11 standards, in another embodiment, the second wireless transmission unit 284 can be compatible with other wireless transmission standards, as wireless image-sound transmission (Wireless AV), Bluetooth wireless transmission (Bluetooth), ultra wideband transmissions (Ultra-Wide Band, UWB), the Zigbee wireless transmission, Wi-Fi Direct wireless transmission, global intercommunication microwave access (Worldwide Interopeability for Microwave Access, WiMAX), mobile phone transmission (GSM, CDMA, WCDMA, CDMA2000, TDS-CDMA, ...), digital television transfer (DVB-Cable, Satellite, Terrestrial), anolog TV signals transmission (UHF, VHF), broadcast singal transmission (FM, AM), radio frequency identification system (Radio Frequency Identification, RF ID), near-field communication (Near Field Communication, NFC), Long Term Evolution (Long Term Evolution, LTE), Ultra Mobile Broadband (Ultra Mobile Broadband, UMB), wireless universal serial port (Wireless USB) ... etc.In another embodiment, the second wireless transmission unit 284 can comprise hardware frequency hopping device or software frequency hopping program and carry out frequency hopping and set, and carries out the specific multi-medium data of wireless transmission to be received in special frequency channel.

Please refer to Fig. 8, it is the circuit box schematic diagram of another integration management module in another embodiment of the present invention.Fig. 8 is substantially identical with Fig. 7, and different being in the first wireless transmission unit 221 and the second wireless transmission unit 284 of integration management module 29a forms an integration of wireless chip, and this integration of wireless chip is positioned on circuit board body 200.In one embodiment, this integration of wireless chip can be wireless chip or the wireless transceiver that is compatible with the IEEE 802.11b/g/n of the Institute of Electrical and Electronics Engineers (IEEE) (2.4-2.5GHz), IEEE 802.11a/n (5-5.8GHz) or other IEEE802.11 standard; In another embodiment, this integration of wireless chip can be compatible with other wireless transmission standards, as bluetooth (Bluetooth) module, ultra wideband transmissions (Ultra-Wide Band; UWB) module, Zigbee wireless transport module, Wi-Fi Direct etc.In another embodiment, this integration of wireless chip can comprise hardware frequency hopping device or software frequency hopping program and carry out frequency hopping and set, and carries out the specific multi-medium data of wireless transmission to be received in special frequency channel.In addition, antenna part can change the integrated dual-frequency antenna into.

Please refer to Fig. 9, it is the circuit box schematic diagram of another integration management module in another embodiment of the present invention.Fig. 9 is substantially identical with Fig. 8, and different microprocessing unit 220, the first wireless transmission unit 221 and the second wireless transmission unit 284 that is in integration management module 29b forms an integration system chip, and this integration system chip is positioned on circuit board body 200.

In like manner, the microprocessing unit in Fig. 2 210 and the first wireless transmission unit 211 also can be integrated and form a bath managing chip.

But the above person is only preferred embodiment of the present invention, when not limiting protection domain of the invention process with this.

Claims (20)

1. the integration management module of a sanitary installation, wash by water in order to a flushing valve of controlling a sanitary installation, it is characterized in that, comprises:

One circuit board body;

One sensing signal bus, transmission is from a sensing signal of this sanitary installation;

One bath control bus is to this flushing valve transmission one bath control signal;

One microprocessing unit, be positioned on this circuit board body, be electrically connected this sensing signal bus and this bath control bus, this microprocessing unit receives this sensing signal and an exportable sense data, and this microprocessing unit produces this bath control signal, to control this flushing valve to this sanitary installation bath; And

One first wireless transmission unit is electrically connected with this microprocessing unit, and this first wireless transmission unit receives this sense data and carries out wireless transmission.

2. integration management module as claimed in claim 1, is characterized in that, also comprises at least one memory, and it is positioned on this circuit board body, and be electrically connected at this microprocessing unit.

3. integration management module as claimed in claim 1, is characterized in that, this first wireless transmission unit is positioned at this circuit board, and this is external, is electrically connected at this microprocessing unit in external mode.

4. integration management module as claimed in claim 1, is characterized in that, also comprises a microcontroller, and it is positioned on this circuit board body, and be electrically connected at this microprocessing unit by this sensing signal bus and this bath control bus; This microprocessing unit receives this sensing signal and transmits this bath control signal by this microcontroller.

5. integration management module as claimed in claim 1, is characterized in that, comprises that also one shows control bus, is positioned on this circuit board body, and is electrically connected at this microprocessing unit.

6. integration management module as claimed in claim 1, is characterized in that, also comprises a multimedia transmission bus, and it is positioned on this circuit board body, and be electrically connected with this microprocessing unit.

7. integration management module as claimed in claim 1, is characterized in that, also comprises an audio transmission bus, and it is positioned on this circuit board body, and be electrically connected with this microprocessing unit.

8. integration management module as claimed in claim 1, is characterized in that, also comprises a cable network bus, and it is positioned on this circuit board body, and be electrically connected with this microprocessing unit.

9. integration management module as claimed in claim 1, is characterized in that, also comprises a memory card bus, and it is positioned on this circuit board body, and be electrically connected with this microprocessing unit.

10. the integration management module of a sanitary installation, wash by water in order to a flushing valve of controlling a sanitary installation, it is characterized in that, it comprises:

One circuit board body;

At least one sensing signal bus, transmission is from a sensing signal of this sanitary installation;

At least one bath control bus is to this flushing valve transmission one bath control signal;

One microprocessing unit, be positioned on this circuit board body, be electrically connected this sensing signal bus and this bath control bus, this microprocessing unit receives this sensing signal and an exportable sense data, and this microprocessing unit produces this bath control signal, to control this flushing valve to this sanitary installation bath;

At least one the first wireless transmission unit is electrically connected with this microprocessing unit, and this first wireless transmission unit receives this sense data and carries out wireless transmission, and can receive a plurality of multi-medium datas; And

At least one video processing unit is electrically connected to this microprocessing unit by a multimedia transmission bus, and these multi-medium datas are controlled by this microprocessing unit, transfers to this video processing unit and processes rear output for playing.

11. integration management module as claimed in claim 10 is characterized in that, also comprises at least one memory, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit.

12. integration management module as claimed in claim 10 is characterized in that, this first wireless transmission unit is positioned at this circuit board, and this is external, is electrically connected at this microprocessing unit in external mode.

13. integration management module as claimed in claim 10 is characterized in that, also comprises a microcontroller, it is positioned on this circuit board body, and is electrically connected at this microprocessing unit by this sensing signal bus and this bath control bus; This microprocessing unit receives this sensing signal and transmits this bath control signal by this microcontroller.

14. integration management module as claimed in claim 13 is characterized in that, this microcontroller receives the moving sensing signal from the outside, the mobile status of this this integration management module of moving sensing signal designation.

15. integration management module as claimed in claim 13 is characterized in that, this microcontroller receives the minute surface sensing signal from the outside, and this minute surface sensing signal indicates the last mirror position of this sanitary installation whether to sense a user.

16. integration management module as claimed in claim 10 is characterized in that, comprises that also one shows that control bus is positioned on this circuit board body, and is electrically connected at this microprocessing unit; This microprocessing unit shows control bus transmission one display control signal by this, to control the open and close of an outside playing module.

17. integration management module as claimed in claim 10, it is characterized in that, also comprise a multimedia transmission bus and a video processing unit, this video processing unit is positioned on this circuit board body, and is electrically connected at this microprocessing unit by this multimedia transmission bus.

18. integration management module as claimed in claim 10 is characterized in that, also comprises an audio transmission bus and an audio treatment unit, this audio treatment unit is positioned on this circuit board body, and is electrically connected by this audio transmission bus and this microprocessing unit.

19. integration management module as claimed in claim 10 is characterized in that, also comprises a cable network bus and a wire transmission unit, this wire transmission unit is positioned on this circuit board body, and by this cable network bus and the electric connection of this microprocessing unit.

20. integration management module as claimed in claim 10, it is characterized in that, also comprise a memory card bus and a memory card connector, this memory card connector is positioned on this circuit board body, and be electrically connected by this memory card bus and this microprocessing unit, for reading an external memory card.

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