CN106354047A - Visual multi-state controller - Google Patents

Abstract

The invention relates to a visual multi-state controller. The visual multi-state controller comprises a set circuit module, a control module, an output circuit module and a display module, wherein the set circuit module is used for sending set signals according to the state switching of a switch; the control module is used for outputting control signals corresponding to the set signals when the corresponding set signals are triggered; the output circuit module is used for outputting driving signals corresponding to the control signals, and the driving signals are used for driving a load; and the display module comprises a plurality of display regions, the display regions are in one-to-one correspondence with different set signals and are used for respectively visually presenting different working state information, and the display module is used for displaying the working state information corresponding to the set signals in the corresponding display regions under the control of the corresponding set signals. Therefore, the current working state of equipment can be accurately identified, and the identification error can be reduced, so that the operation of a user is facilitated, and the personal safety of the user is guaranteed.

Description

Visualization multiposition controller

Technical field

The present invention relates to equipment control field is and in particular to visualize multiposition controller to a kind of.

Background technology

In equipment control field, need driver such as motor to rotate forward, invert and to realize equipment operating mode is controlled System.In prior art, the positive and negative rotating controller for control device or the display floater of the time relay show for display lamp, Corresponding working condition shows corresponding display lamp, and for user, especially first user only recognizes work by display lamp State operates to equipment, identification mistake easily thus leading to maloperation in some instances it may even be possible to threaten the person peace of user Entirely.

Therefore, how exactly the working condition of identification apparatus reduces Identification Errors and becomes problem demanding prompt solution.

Content of the invention

The technical problem to be solved in the present invention is the working condition of more intuitively identification apparatus.

For this reason, present example provides a kind of visualization multiposition controller, comprising:

Setting circuit module, sends corresponding setting signal for switching by multiple switch state；Control module, is used for Export corresponding control signal under the triggering of corresponding setting signal；Output circuit module, for responsive control signal, exports Drive signal corresponding with control signal, drive signal is used for driving load and executes corresponding operation；Display module, including multiple Viewing area, is corresponded from different control signals respectively, and multiple viewing areas are used for visualization respectively and assume different works Make the persistent period of status information and corresponding working state, display module is used under the control of corresponding control signal, right The viewing area answered shows the persistent period of work state information corresponding with control signal and corresponding working state.

Alternatively, multiple viewing areas include: working condition viewing area, for the driving of control signal in working order The lower information showing for characterizing current operating state；Timing viewing area, works as display under the control of timing control signals The persistent period of front working condition.

Alternatively, display module includes: working condition transistor, connect to control module and working condition viewing area it Between, working condition transistor is used for turning on when its control pole receives working state control signal, to drive working condition to show Show that region shows the information for characterizing current operating state；Clocked transistors, connect to setting circuit module and the second display Between region, clocked transistors are used for turning on when its control pole receives timing control signals, to drive timing viewing area The persistent period of display current operating state.

Alternatively, working condition viewing area includes: energising viewing area, for aobvious under the driving of power control signal Show the information for characterizing energising；

Disconnect viewing area, for showing for characterizing the information disconnecting under the driving disconnecting control signal.

Alternatively, working condition viewing area also includes: rotates forward viewing area, under the driving rotating forward control signal Show for characterizing the information rotating forward working condition；Reverse display region, for showing use under the driving of reverse control signal In the information characterizing reversion working condition；Stop viewing area, stop for characterizing for showing under the driving stopping control number The only information of state.

Alternatively, output module is arranged between control module and load, and including the first relay, the first relay is used for Action under power control signal drives, so that load energising；First relay is used for action under disconnecting control signal driving, So that load power down.

Alternatively, output module includes: rotates forward output unit, is arranged between control module and load, continues including second Electrical equipment, the second relay is used for rotating forward action under control signal drives, and is rotated forward with driving load；Reversion output unit, setting Between control module and load, including the 3rd relay, the 3rd relay is used for action under reverse control signal drives, with Driving load inverts.

Alternatively, setting circuit module includes: toggle switch circuit, sends work for switching by toggle switch state To control module, control module exports corresponding control signal to drive display module to show corresponding work to state setting signal Status information；Toggle switch circuit is additionally operable to be switched by toggle switch state and sends timing setting signal to control module, controls Molding block exports corresponding timing control signals to drive the display module display current operating state persistent period.

Alternatively, setting circuit module also includes: when base setting circuit, it includes touch-switch, for by touching out When off status switching sends, base setting signal is to control module, with drive control module output Time -based Control signal to showing mould Block.

Alternatively, visualization multiposition controller also includes: power module of voltage regulation, for providing power supply.

The positive and negative rotating controller that present example provides, by arranging circuit module, for being sent out by off state switching Send setting signal；Control module, for output under the triggering of corresponding setting signal and the setting corresponding control signal of signal； Output circuit module, for responsive control signal, exports drive signal corresponding with control signal, and drive signal is used for driving negative Carry；Display module, including multiple viewing areas, is corresponded from different setting signals respectively, and multiple viewing areas are used for dividing Different work state informations Ke Shihua not assumed, display module is used under the control of corresponding setting signal, corresponding Viewing area shows and the setting corresponding work state information of signal, it is thus possible to the work at present shape of identification apparatus exactly State reduce Identification Errors and then, convenient use person operate, ensure user personal safety.

Brief description

In order to be illustrated more clearly that the specific embodiment of the invention or technical scheme of the prior art, below will be to concrete In embodiment or description of the prior art the accompanying drawing of required use be briefly described it should be apparent that, below describe in Accompanying drawing is some embodiments of the present invention, for those of ordinary skill in the art, before not paying creative work Put, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 shows the visualization multiposition controller principle schematic of the present embodiment；

Fig. 2 shows the principle schematic visualizing display module in multiposition controller of the present embodiment；

Fig. 3 shows output circuit module principle schematic diagram in the visualization multiposition controller of the present embodiment；

Fig. 4 shows the visualization multiposition controller principle schematic of the present embodiment；

Fig. 5 show the present embodiment can another visualization multiposition controller in display module principle schematic；

When in the visualization multiposition controller of Fig. 6 the present embodiment, base arranges the principle schematic of circuit；

Fig. 7 shows power module of voltage regulation principle schematic in the visualization multiposition controller of the present embodiment.

Specific embodiment

Below in conjunction with accompanying drawing, technical scheme is clearly and completely described with the enforcement it is clear that described Example is a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill The every other embodiment that personnel are obtained under the premise of not making creative work, broadly falls into the scope of protection of the invention.

In describing the invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or is integrally connected；Can To be to be mechanically connected or electrical connection；Can be to be joined directly together it is also possible to be indirectly connected to by intermediary, acceptable It is the connection of two element internals, can be wireless connection or wired connection.For those of ordinary skill in the art For, above-mentioned term concrete meaning in the present invention can be understood with concrete condition.

Embodiments provide a kind of visualization multiposition controller, visualization multiposition controller can continue the time Electrical equipment.

Illustrate in the present embodiment, in conjunction with Fig. 1, this visualization multiposition controller is permissible taking the time relay as a example Including:

Setting circuit module 110, for sending setting signal by off state switching.In the particular embodiment, if Circuits module 110 can include multiple switch, the corresponding setting signal of each on off state, when on off state switches, Export corresponding setting signal.Specifically, setting circuit can be configured to working condition, and every kind of working condition can be held The continuous time is configured it is also possible to be configured to the when base of time.For example, in the setting circuit module of the time relay, Can by toggle switch state switching setting "on" position, the on-delay time and corresponding with conduction time when base；And Off-state, the off delay time and corresponding with turn-off time when base.When alleged, base is the unit of timing time, for example, second S, point min or hour h.

Control module 120, for exporting corresponding control signal under the triggering of corresponding setting signal.

In the particular embodiment, control module 120 is connected with setting circuit module 110.Each end of control module 120 Mouth receives and arranges the outfan corresponding setting signal of circuit output module 110, and exports control corresponding with arranging signal Signal.Specifically, the "on" position setting signal in the setting circuit module of the time relay, on-delay time setting signal And base setting signal when corresponding with conduction time；And off-position setting signal, power cut off delay time setting signal and with When power-off time is corresponding, base setting signal, sends to control module 120, trigger control module 120 output control energising shape State, on-delay time and the control signal with conduction time base when corresponding；And off-position, the power cut off delay time and with The control signal of base when power-off time is corresponding.For example, arrange in setting circuit, on-delay 20s, power cut off delay 30s, then Control module 20 output control on-delay 20s and power cut off delay 30s under on-delay 20s, the triggering of power cut off delay 30s Control signal.The state of alleged energising 20s and power cut off delay 30s is alternately.

Output circuit module 130 is used for responsive control signal, exports drive signal corresponding with control signal, and this driving is believed Number operate for driving load execution is corresponding.In the particular embodiment, the output circuit module 130 of the time relay and control Molding block 120 connects, and responds power control signal, so that load is energized under the control of power control signal, and response timing controls Signal, makes the load corresponding timing time of energising under the control of timing control signals, and for example, control signal is on-delay 20s, power cut off delay 30s, then output circuit module 30 accordingly above-mentioned control signal, make load on-delay 20s, power cut off delay 30s.

Display module 140, including multiple viewing areas, is corresponded from different control signals, multiple viewing areas respectively Domain is used for the persistent period that visualization respectively assumes different work state informations and corresponding working state, and display module is used for Under the control of corresponding control signal, show work state information corresponding with control signal and corresponding in corresponding viewing area The persistent period of working condition.In the particular embodiment, as shown in Fig. 2 display module 140 can include overall digital-scroll technique Pipe or many pixels display screen, are segmented into multiple viewing areas.Working condition viewing area can be included in the time relay 141, i.e. energising, off-state viewing area, specifically, power control signal can control working condition viewing area to show " t1 " or the printed words of " energising ".Or disconnection control signal can control working condition viewing area to show " t2 " or "off" word Sample, in the present embodiment, " t1 " " t2 " is alternately to show, corresponding to the working condition of relay.Timing viewing area 142, that is, The persistent period display of "on" position or the persistent period display of off-state.Specifically, timing control signals can control meter When viewing area show such as 0.1s-9.9s, 1s-99s, 0.1min-9.9min, 1min-99min, 0.1h-9.9h, 1h-99h In random time.When overall display, can show for example in viewing area, " t1 " " 20s " and " t2 " " 15s " is alternately aobvious Show, then can represent that "on" position is 20s, off-state 15s.In the present embodiment, the time that timing viewing area shows with The change of time and change.

In alternatively embodiment, as shown in Fig. 2 display module 140 may include that

Working condition transistor q1, connects between control module 120 and working condition viewing area 141, working condition Transistor q1 is used for turning on when its control pole receives working state control signal, to drive working condition viewing area to show For characterizing the information of current operating state.In the particular embodiment, the control pole of working condition transistor q1 and control mould The working state output terminal of block connects, and second pole of working condition transistor q1 is connected with the first power supply, working condition transistor 3rd pole of q1 is connected with the working condition viewing area 41 of display module 140.Working condition transistor in the time relay Q1 turns under the triggering of power control signal, and working condition viewing area shows " t1 " or " energising " printed words.In power control Turn under the triggering of signal, working condition viewing area shows " t2 " or "off" printed words.

Clocked transistors q2, connect to setting circuit module 110 and timing viewing area 142 between, clocked transistors q2 For turning on when its control pole receives timing control signals, to drive timing viewing area 142 display current operating state Persistent period.In the particular embodiment, the control pole of clocked transistors q2 and the timing outfan of control module 120 connect Connect, second pole of clocked transistors q2 is connected with the first power supply, the 3rd pole of clocked transistors q2 and the timing of display module 140 Viewing area 141 connects.Clocked transistors q2 in the time relay turns under the triggering of timing control signals, and timing shows Region shows the persistent period of current operating state.Alternatively, clocked transistors can be two, specifically, can be according to meter When viewing area in display tube number determine, for example, if timing time be 0-9s, need a display tube, display One digit number, then clocked transistors be one.If timing time is 0-99s, two display tubes are needed respectively double figures to be entered Row display, now, clocked transistors are two, respectively two display tubes are controlled.

In an alternate embodiment of the invention, output module 130 is arranged between control module 120 and load, as shown in figure 3, defeated Go out module 130 and include the first relay k1, the first relay k1 is used for action under power control signal drives, so that load is logical Electricity；First relay k1 is used for action under disconnecting control signal driving, so that load power down.In the particular embodiment, One output unit includes the first relay k1, the first diode d1 in parallel with the first relay k1, and the first diode d1 is just Pole is connected with second source, and the negative pole of the first diode d1 is connected with the control pole of transistor q3, and second pole of transistor q3 is divided Do not connect the one end to the second electric capacity c2 and second resistance r2, the 3rd pole of transistor q3 is connected with the other end of the second electric capacity c2 Connect, and be grounded, the second resistance r2 other end connects to load.

In an alternate embodiment of the invention, setting circuit module 10 may include that toggle switch circuit, for by toggle switch State switching sends working condition setting signal to control module 120, and control module 120 exports corresponding control signal to drive Display module 140 shows corresponding work state information；Toggle switch circuit is additionally operable to be switched by toggle switch state and sends To control module 120, control module 120 exports corresponding timing control signals to drive display module 140 to timing setting signal The display current operating state persistent period.In the present embodiment, the toggle switch circuit of the time relay is additionally operable to by dial-up Base during on off state switching setting.

Embodiments provide a kind of visualization multiposition controller, visualization multiposition controller can also include Positive and negative rotating controller.

In the present embodiment, illustrate taking positive and negative rotating controller as a example, in conjunction with Fig. 4, this visualization multiposition controller May include that

Setting circuit module 210, for sending setting signal by off state switching.In the particular embodiment, if Circuits module 210 can include multiple switch, the corresponding setting signal of each on off state, when on off state switches, Export corresponding setting signal.Specifically, the setting circuit module 210 of positive and negative rotating controller and time relay in above-described embodiment Setting circuit module 110 function phase of device is same, in positive and negative rotating controller, can be rotated forward by arranging circuit module 210 setting State, inverted status, halted state, the persistent period of corresponding state；And the when base of persistent period.

Control module 220, for exporting corresponding control signal under the triggering of corresponding setting signal.Specifically, just The control module 220 of inversion controller is same with control module 120 function phase of the time relay in above-described embodiment.Rotating control The control module 220 of device processed arranges signal with the place of timely base setting signal in rotating forward setting signal, reversion setting signal, timing Find that output rotates forward control signal, reverse control signal, stops control signal, timing control signals and Time -based Control signal. Specifically may refer to the description for control module in the time relay in above-described embodiment.

Output circuit module 230 is used for responsive control signal, exports drive signal corresponding with control signal, and this driving is believed Number operate for driving load execution is corresponding.In the particular embodiment, the output circuit module 230 of positive and negative rotating controller can With driving load execution rotating forward action under the triggering rotating forward control signal, under the triggering of reverse control signal, driving load is held Row reversion action, under the triggering stopping control signal, driving load stops operating.

Display module 240, including multiple viewing areas, is corresponded from different control signals, multiple viewing areas respectively Domain is used for the persistent period that visualization respectively assumes different work state informations and corresponding working state, and display module is used for Under the control of corresponding control signal, show work state information corresponding with control signal and corresponding in corresponding viewing area The persistent period of working condition.In the particular embodiment, as shown in figure 5, the display module of positive and negative rotating controller may include that Rotate forward viewing area 241, for showing for characterizing the information rotating forward working condition under the driving rotating forward control signal.Example As " rotating forward " printed words can be shown rotating forward viewing area 241.Reverse display region 242, for the drive in reverse control signal Dynamic lower display is for characterizing the information of reversion working condition.For example, " reversion " printed words can be shown in reverse display region 242. Stop viewing area 243, for showing the information for characterizing halted state under the driving stopping control number.For example, stopping Only viewing area 243 can show " stopping " printed words.Timing viewing area 244 and the timing viewing area 142 of the time relay Identical, specifically may refer to the description of the timing viewing area 142 to the time relay in above-described embodiment.

In an alternate embodiment of the invention, as shown in figure 5, display module 240 can also include:

Working condition transistor q4, the operation principle of working condition transistor q4 and connected mode in positive and negative rotating controller May refer in above-described embodiment to the operation principle of working condition transistor q1 in the time relay and retouching of connected mode State.In rotating control triggering working condition transistor q4 conducting signal be rotate forward control signal, reverse control signal or Stop control signal.

Clocked transistors q5, in positive and negative rotating controller, the operation principle of clocked transistors q5 and connected mode may refer to To the operation principle of clocked transistors q1 in the time relay and the description of connected mode in above-described embodiment.

In an alternate embodiment of the invention, output module 230 can also include:

Rotate forward output unit, rotating control rotates forward operation principle and the components and parts connected mode of output module 231 May refer to the description of the output module 30 to the time relay in above-described embodiment.Rotate forward output unit and rotate forward control signal Control under driving load rotate forward.

Reversion output unit, the operation principle and the components and parts connected mode that invert output module in rotating control are permissible Referring to the description to the output module 30 of the time relay in above-described embodiment.Reversion output unit is in the control of reverse control signal The lower driving load reversion of system.

In alternatively embodiment, setting circuit module 210 may include that

Toggle switch circuit, in rotating control, the operation principle of toggle switch circuit and components and parts connected mode are permissible Referring to the description to the toggle switch circuit of the time relay in above-described embodiment.

Because the working condition that rotating controls is many compared with the working condition of the time relay, for ensureing positive and negative rotating controller Simple for structure, in an alternate embodiment of the invention, such as Fig. 6 setting circuit module can also include:

When base setting circuit 211, it includes touch-switch s1, for by touch-switch s1 state switching send when base set Confidence number, to control module 220, exports Time -based Control signal to display module 240 with drive control module 230.

For ensureing the safety of modules and the stability of equipment, in alternatively embodiment, as shown in fig. 7, visually Change multiposition controller can also include: power module of voltage regulation 50, for providing power supply.In the particular embodiment, voltage stabilizing electricity Source module 50 includes: transformator t1, and the input of transformator t1 is connected with power supply, first output head grounding of transformator t；Rectification Bridge d2, its input is connected with second outfan of transformator t, for carrying out rectification to input power；3rd electric capacity c3, it One end is connected with first outfan of rectifier bridge d2, and the second end is connected with second outfan of rectifier bridge d2, and is grounded, for right Input power is filtered；Three terminal regulator u1, its input is passed through 3rd resistor r3 and is connected with first outfan of rectifier bridge d2 Connect, its outfan is connected with one end of the 4th electric capacity c4 and the 5th electric capacity c5, earth terminal is grounded, for carrying out surely to input power Pressure；The other end ground connection of the other end of the 4th electric capacity c4 and the 5th electric capacity c5, the 4th electric capacity c4 and the 5th electric capacity c5 is used for electricity Source is filtered further.Such that it is able to provide relatively stable power supply.

The positive and negative rotating controller that present example provides, by arranging circuit module, for being sent out by off state switching Send setting signal；Control module, for output under the triggering of corresponding setting signal and the setting corresponding control signal of signal； Output circuit module, for responsive control signal, exports drive signal corresponding with control signal, and drive signal is used for driving negative Carry；Display module, including multiple viewing areas, is corresponded from different setting signals respectively, and multiple viewing areas are used for dividing Different work state informations Ke Shihua not assumed, display module is used under the control of corresponding setting signal, corresponding Viewing area shows and the setting corresponding work state information of signal, it is thus possible to the work at present shape of identification apparatus exactly State reduce Identification Errors and then, convenient use person operate, ensure user personal safety.

Although being described in conjunction with the accompanying embodiments of the present invention, those skilled in the art can be without departing from this In the case of bright spirit and scope, various modification can be adapted and modification, and such modification and modification each fall within by claims Within limited range.

Claims (10)

1. a kind of visualization multiposition controller is it is characterised in that include:

Setting circuit module (110), sends corresponding setting signal for switching by multiple switch state；

Control module (120), for exporting corresponding control signal under the triggering of corresponding described setting signal；

Output circuit module (130), for responding described control signal, exports drive signal corresponding with described control signal, Described drive signal is used for driving load and executes corresponding operation；

Display module (140), including multiple viewing areas, is corresponded from different control signals, the plurality of display respectively Region is used for the persistent period that visualization respectively assumes different work state informations and corresponding working state, described display module (140) it is used under the control of corresponding control signal, show work corresponding with described control signal in corresponding viewing area Make the persistent period of status information and corresponding working state.

2. visualization multiposition controller as claimed in claim 1 is it is characterised in that the plurality of viewing area includes:

Working condition viewing area (141), shows under the driving for control signal in working order and is used for characterizing work at present The information of state；

Timing viewing area (142), for the persistent period controlling lower display current operating state of timing control signals.

3. visualization multiposition controller as claimed in claim 1 is it is characterised in that described display module (140) includes:

Working condition transistor (q1), connect to described control module (120) and described working condition viewing area (141) it Between, described working condition transistor (q1) is used for turning on when its control pole receives described working state control signal, to drive Move described working condition viewing area and show the information for characterizing current operating state；

Clocked transistors (q2), connect and arrange between circuit module (110) and described second viewing area (142) to described, institute State clocked transistors (q2) for turning on when its control pole receives described timing control signals, to drive described timing to show Region (142) shows the persistent period of current operating state.

4. visualization multiposition controller as claimed in claim 2 is it is characterised in that described working condition viewing area (141) include:

Energising viewing area, for showing the information for characterizing energising under the driving of power control signal；

Disconnect viewing area, for showing for characterizing the information disconnecting under the driving disconnecting control signal.

5. visualization multiposition controller as claimed in claim 2 is it is characterised in that described working condition viewing area is also wrapped Include:

Rotate forward viewing area (241), for showing for characterizing the letter rotating forward working condition under the driving rotating forward control signal Breath；

Reverse display region (242), for showing the letter for characterizing reversion working condition under the driving of reverse control signal Breath；

Stop viewing area (243), for showing the information for characterizing halted state under the driving stopping control number.

6. the visualization multiposition controller as described in claim 1-4 is it is characterised in that described output module (130) is arranged Between described control module (120) and described load, including the first relay (k1), described first relay (k1) is used for Described power control signal drives lower action, so that load energising；Described first relay (k1) is used for controlling in described disconnection Signal drives lower action, so that load power down.

7. the visualization multiposition controller as described in claim 1-3 or 5 any one is it is characterised in that described output mould Block (130) includes:

Rotate forward output unit, be arranged between described control module (120) and described load, including the second relay (k1), institute State the second relay (k1) for action under driving in described rotating forward control signal, rotated forward with driving load；

Reversion output unit, is arranged between described control module (120) and described load, including the 3rd relay (k1), institute State the 3rd relay (k1) for action under driving in described reverse control signal, with driving load reversion.

8. the visualization multiposition controller as described in claim 1-5 any one is it is characterised in that described setting circuit mould Block (110) includes:

Toggle switch circuit, sends working condition setting signal to described control module for switching by toggle switch state (120), described control module (120) exports corresponding control signal to drive described display module (140) to show corresponding work Make status information；Described toggle switch circuit is additionally operable to be switched by toggle switch state and sends timing setting signal to described control Molding block (120), described control module (120) exports corresponding timing control signals to drive described display module (140) to show Show the current operating state persistent period.

9. the visualization multiposition controller as described in claim 1-5 any one is it is characterised in that described setting circuit mould Block (110) also includes:

When base setting circuit (211), it includes touch-switch (s1), for by described touch-switch (s1) state switch send When base setting signal to described control module (120), to drive described control module (130) output Time -based Control signal to described Display module (140).

10. the visualization multiposition controller as described in claim 1-5 is it is characterised in that also include:

Power module of voltage regulation (50), for providing power supply.