CN102877736A - Control mode switching device of automatic door and automatic door utilizing the same - Google Patents

Abstract

The invention provides a control mode switching device of an automatic door and the automatic door utilizing the same, which can cope with the adding and change of the number of the modes. A mode switching switch (100)is the mode switching switch used for selecting the mode of the automatic door (500) arranged at the opening of a building, and comprises a key-controlled selection switch (300) which can carry out mode switching on operation via a key (350) and can select the mode of the automatic door (500) based on at least one of connecting point connection number and connecting point connection time.

Description

The control mode switch device of automatic door and the automatic door that has utilized it

Technical field

The present invention relates to control the mode-changeover device of unlatching Closed control pattern of automatic door and the automatic door that has utilized it.

Background technology

From in the past, various exploitations have been carried out about the control of automatic door.For example, following automatic door opening and closing device being disclosed in patent documentation 1: door is automatically opened be closed into the position of Set arbitrarily, and can be closed into the position of Set arbitrarily, can carry out simply such setting in addition.

In the automatic door opening and closing device of patent documentation 1 record, comprising: be arranged between the supporting mass of door and supporting door and be used for making door to open closed driver part from full-application position in the other direction to the full open position and to it; Be arranged on the automatic door opening fan switch on door or the supporting mass; The memory of the setting release position of storage door; And control device, it has and is electrically connected to each Constitution Elements, by automatic door opening fan switch, make driver part work, thereby the automatic semi-open control circuit of the setting release position that a unlatching is closed to store in memory utilizes the operation board as shown in Figure 2 such as patent documentation 1 to come switching controls.

And then, in patent documentation 2, disclose and the open amplitude of automatic door can have been changed to the arbitrarily automatic door of amplitude.

The automatic door of patent documentation 2 is to possess the door controller of the action that can be controlled at the door leaf body that architectural openings section arranges and the automatic door of the remote controller that can communicate with this door controller, in the remote controller except disposing the button that can select common unlatching closed mode and one-way trip pattern, the value that also comprises open amplitude that can be when being equivalent to the door leaf body and having opened architectural openings section changes to the arbitrarily adjusting of value (volume) switch, output and the control assembly that passes through the by-pass cock corresponding alteration command of value after changing, door controller changes open amplitude according to alteration command.

[patent documentation 1] (Japan) Unexamined Patent 06-42258 communique

[patent documentation 2] (Japan) JP 2008-008082 communique

But, in automatic door, such as the complete closure maintenance of automatic door, full open maintenance, common unlatching closure, semi-open closure (so-called pharmacy pattern), one-way trip etc., unlatching Closed control pattern (below, referred to as pattern) a plurality of branches are arranged, and, their combination, with they with constantly combination after the customer demand such as to control also be various.

And then according to the place respectively is set, it is comparatively desirable can only selecting necessary pattern, but fastens in the pass of manufacturing and stock control, and present situation is exactly to become the pattern that will generally utilize all to be included in interior control mode switch device.

That is, unwanted pattern also can be selected for some client, and the time of the pattern that selection needs increases, and faulty operation might occur.

On the contrary, if want to append new model, then need to increase switch, but existing hardware and software can not be continued to use all.And then corresponding to the switch that appends, it is large that mode-changeover device will become.

Summary of the invention

The object of the present invention is to provide a kind of control mode switch device of the automatic door that appends and change that can tackle easily model number and the automatic door that has utilized it.

(1) according to the control mode switch device of the automatic door of an aspect, switch in the unlatching Closed control pattern of the automatic door of architectural openings section setting, it comprises: switch portion, based on connection number of times and at least one party in turn-on time or the both sides of switch, select the unlatching Closed control pattern of automatic door; And key section, make the operation of switch portion become possible or impossible by key.

At this moment, hold key by the manager of building only, thereby can prevent that on one side the unlatching Closed control pattern of automatic door from being switched by the third party because of carelessness, on one side the manager can be easily with its switching.In addition, can based on connection number of times or at least one party of turn-on time or the both sides of switch, select the unlatching closed mode of automatic door.

Its result, can select to open the Closed control pattern by the connection number of times of switch, perhaps can be by the selected Closed control pattern of the opening turn-on time of switch, therefore even in the situation that the unlatching Closed control pattern of automatic door increases, also can not increase the switch number of switch portion and tackle.Its result only just can tackle client's hope flexibly with the change of software, and mode-changeover device can not maximize, so the implementation space is saved.

In addition, even in the situation that the unlatching Closed control pattern of automatic door reduces, the switch number of switch portion is also constant, therefore as long as change software just can utilize essentially identical hardware.

By more than, can tackle easily appending and changing of model number.

The control mode switch device of the automatic doors of (2) the 2nd inventions is in the control mode switch device according to the automatic door aspect, and switch portion and key section also can be arranged integratedly.

At this moment, because switch portion and key section arranged integratedly, saving space that therefore can the implementation pattern switching device shifter.In addition, operator (manager of building) can enough actions make switch portion can operate and open the switching of Closed control pattern.

The control mode switch device of the automatic door of (3) the 3rd inventions is in the control mode switch device of the automatic door of the 2nd invention, switch has two contacts, when a contact is connected, opening Closed control pattern order according to the rules is changed, when another contact is connected, open the Closed control pattern and be changed according to the order with the reversed in order of stipulating.

At this moment, the manager of building can select to open the Closed control pattern at short notice.In addition, suppose also can select to open the Closed control pattern by utilizing another contact that does not break down, so the utilization of automatic door not to be hindered in the situation that a contact of mode selector switch breaks down.

The control mode switch device of the automatic door of (4) the 4th inventions is in the mode selector switch of the 3rd invention, and switch portion has the initial point resetting-mechanism, and this initial point resetting-mechanism produces for the power that described two contacts are disconnected under the state that contact is connected.

At this moment, because switch portion has the initial point resetting-mechanism, so switch realizes that automatically initial point resets.Its result, manager carry out the operation of switch portion easily, and easy identifying operation number of times.

The control mode switch device of the automatic doors of (5) the 5th inventions is in the control mode switch device according to the automatic door aspect, display part comprises opens the light emitting diode that the Closed control pattern arranges to each, only lights the light emitting diode corresponding with the unlatching Closed control pattern of selecting by switch portion.

At this moment, each pattern configurations light emitting diode to showing on the display part.And, only have with the corresponding light emitting diode of unlatching Closed control pattern of selecting by switch portion to be lit, therefore the unlatching Closed control pattern of current selection is very clear, even and also can identify from afar the Closed control pattern of opening.

The control mode switch device of the automatic doors of (6) the 6th inventions is in the control mode switch device according to the automatic door aspect, comprise the liquid crystal display part that can carry out the demonstration corresponding with opening the Closed control pattern, in liquid crystal display part, carry out the demonstration corresponding with the unlatching Closed control pattern of selecting by switch portion.

At this moment, owing on liquid crystal display part, only show selected unlatching Closed control pattern, saving space that therefore can the implementation pattern change-over switch.That is, and a plurality of unlatching closed modes are all compared in the situation shown in the mode selector switch, owing to only show selected unlatching closed mode, therefore can be with the mode selector switch miniaturization.

The automatic doors of (7) the 7th inventions are the automatic doors that comprise according to the control mode switch device of the automatic door of an aspect.

At this moment, can select to open the Closed control pattern by the connection number of times of switch, perhaps can be by the selected Closed control pattern of the opening turn-on time of switch, therefore even in the situation that the unlatching Closed control pattern of automatic door increases, also can not increase the switch number of switch portion and tackle.Its result only just can tackle client's hope flexibly with the change of software, and mode-changeover device can not maximize, so the implementation space is saved.

Description of drawings

Fig. 1 be the mode selector switch of expression with present embodiment automatic door summary schematically illustrate figure.

Fig. 2 is the pie graph of explanation main each one that arranges in the crosspiece of automatic door.

Fig. 3 is the schematic diagram of an example of expression mode selector switch.

Fig. 4 is the schematic diagram of an in-built example of explanation mode selector switch.

Fig. 5 is the flow chart of an example of the action of explanation control circuit.

Fig. 6 is the flow chart of an example of the action of the control circuit of explanation AUTO pattern when chosen.

Fig. 7 is the flow chart of an example of the action of the control circuit of explanation ONEWAY pattern when chosen.

Fig. 8 is the flow chart of an example of the action of the control circuit of explanation F-OPEN pattern when chosen.

Fig. 9 is the flow chart of an example of the action of the control circuit of explanation CLOSE pattern when chosen.

Figure 10 is the flow chart of an example of the action of the control circuit of explanation P-OPEN pattern when chosen.

Figure 11 is the schematic diagram of other examples of the mode selector switch of presentation graphs 3.

Figure 12 is the schematic diagram of another other examples of the mode selector switch of presentation graphs 3 and Figure 11.

Figure 13 is the flow chart of other examples of the action of explanation control circuit shown in Figure 5.

Label declaration

100 mode selector switch

210,220,230,240,250 patterns show

211、221、231、241、251?LED

270 downward order press buttones

280 upstream sequence press buttones

300 keying selector switches

350 keys

400 liquid crystal display pictures

500 automatic doors

P1, P2, P3 contact

The specific embodiment

Below, utilize the description of drawings embodiments of the present invention.

(the 1st embodiment)

Fig. 1 be the mode selector switch 100 of expression with present embodiment automatic door 500 summary schematically illustrate figure, Fig. 2 is that explanation is at the pie graph of each one of the crosspiece 11 interior main settings of automatic door 500.

Such as Fig. 1 and shown in Figure 2, automatic door 500 is arranged on the peristomes such as access of building.In the present embodiment, illustration door leaf body 120 describes with respect to the closed mobile single moving door of fanning movable type of fixed gate fan body 130 unlatchings.

In addition, in the present embodiment, illustration the portable moving door of single fan, but be not limited to this, also can be applied to the portable moving door of two fans, vertical hinged door, sliding door, accordion door, revolving door, retractable door, other arbitrarily door, windows etc.

As shown in Figure 2, automatic door 500 has mode selector switch 100, door controller 510, motor 520, the outside (outdoor) start sensor 610, inboard (indoor) start sensor 620, electric lock 530 etc.

These door controllers 510, motor 520, the outside (outdoor) start sensor 610, inboard (indoor) start sensor 620, electric lock 530 etc. are received in the crosspiece 110 of automatic door shown in Figure 1 500.

The outside (outdoor) start sensor 610 passes through to detect in the regulation zone of the outside of peristome area sensor (for example, the infrared ray sensor) formation of people or object.Similarly, inboard (indoor) start sensor 620 consists of by the area sensor (for example, infrared ray sensor) that detects people or object in the regulation zone of the indoor of peristome.

The movement of electric lock 530 limiting door fan bodies 120, door controller 510 is based on from the indication of mode selector switch 100 and control the driving of motor 520.

In the present embodiment, mode selector switch 100 is configured on the wall of peristome side.In addition, when mail/distribution room or management place etc. are arranged, also configuration mode change-over switch 100 therein.

(the action summary of automatic door 500)

For example, mode selector switch 100 is based on the inspection signal from the outside (outdoor) start sensor 610 or inboard (indoor) start sensor 620, provide locking release index signal to electric lock 530, perhaps door controller 510 is provided and open closed index signal.Door controller 510 is provided as enabling signal or the semi-open signal (comprising halt instruction) that drives instruction based on opening closed index signal to motor 520.In addition, enabling signal, semi-open signal can be used as contact point signal and transmit by wiring separately, also can be used as signal transmission and transmit by a wiring.

(mode selector switch 100)

Fig. 3 is the schematic diagram of an example of expression mode selector switch 100, and Fig. 4 is the schematic diagram of an example of the internal construction of explanation mode selector switch 100.

As shown in Figure 3, mode selector switch 100 is mainly by keying selector switch 300, LED(light emitting diode) 211,221,231,241,251 and pattern show that 210,220,230,240,250 consist of.

As shown in Figure 3, the pattern demonstration has AUTO pattern demonstration 210, CLOSE pattern demonstration 220, P-OPEN pattern demonstration 230, the demonstration 240 of ONEWAY pattern and F-OPEN pattern demonstration 250.Explanation about this pattern will be narrated in the back.This pattern shows is installed to label etc., and the next door that shows in each pattern is provided with transparency window or through hole, and according to this transparency window or hole LED211,221,231,241,251 is set.

In addition, as shown in Figure 3, keying selector switch 300 injects keyholes with key (key) 350, and the wherein side about key 350 forwarded to, thereby contact (P2, P3) is connected.In addition, keying selector switch 300 has the initial point resetting-mechanism.The initial point resetting-mechanism is that handle is moved away behind the wherein side about key 350 is forwarded to, thereby the active force by built-in spring etc. turns back to the mechanism of neutral position shown in Figure 3 (P1).

(explanation of each pattern)

Each pattern of present embodiment is described here.

＜AUTO pattern 〉

At first, the AUTO pattern is basis is carried out the unlatching closed action of door leaf body 120 from the reception situation of the detection signal of inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 pattern.That is, be the pattern that usually can pass through ad lib at large.

＜F-OPEN pattern 〉

From the reception situation of the detection signal of inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 how irrespectively the F-OPEN pattern is with, with door leaf body 120 full open and with its pattern of keeping.That is, be the state that door leaf body 120 and fixed gate fan body 130 is overlapping.

＜ONEWAY pattern 〉

The ONEWAY pattern is that opposite house fan body 120 is opened closed pattern according to the reception situation of a side detection signal only from inboard (indoor) start sensor 620 and the outside (outdoor) start sensor 610.That is, only open closure according to a side detection signal opposite house fan body 120, the opposing party's detection signal is then ignored.In addition, in the present embodiment, only open closure according to the reception situation opposite house fan body 120 of the detection signal of inboard (indoor) start sensor 620.In addition, also comprise the pattern that to select the either party in the outside (outdoor) start sensor 610 and inboard (indoor) start sensor 620.

＜P-OPEN pattern 〉

The P-OPEN pattern be according to from inboard (indoor) start sensor 620 or the outside (outdoor) thus the unlatching closed action that the reception situation of the detection signal of start sensor 610 is carried out door leaf body 120 with door leaf body 120 move to predefined position (for example, the full open position half or 1/3 etc.) pattern.At this moment, door controller 510 receives semi-open signal and carries out the control of motor 520.

＜CLOSE pattern 〉

From the reception situation of the detection signal of inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 how irrespectively the CLOSE pattern is with, door leaf body 120 is maintained the pattern of complete closure state.That is, be the pattern that no through traffic.

(internal actions of mode selector switch 100)

As shown in Figure 4, mode selector switch 100 consists of by keying selector switch 300, control circuit 380 and with the corresponding LED211 of each pattern, 221,231,241,251.Built-in nonvolatile memory in the control circuit 380 (omitting diagram) also keeps various information even power supply is cut off.

(operating instruction)

At first, the wherein side about keying selector switch 300 forwarded to, thereby preference pattern.In the present embodiment, by keying selector switch 300 being forwarded to the left side (position of P3), thereby order (the counterclockwise order of Fig. 3) preference pattern according to AUTO pattern, CLOSE pattern, P-OPEN pattern, ONEWAY pattern, F-OPEN pattern, by keying selector switch 300 being forwarded to the right (position of P2), thereby according to order (the clockwise order of Fig. 3) preference pattern of AUTO pattern, F-OPEN pattern, ONEWAY pattern, P-OPEN pattern, CLOSE pattern.

In addition, LED211,221,231,241,251 repeats to light and extinguishes when pattern is selected, and the light emitting diode that only meets selected pattern demonstration is lighted.

The control circuit 380 of mode selector switch 100 receives the detection signal from the outside (outdoor) start sensor 610 or inboard (indoor) start sensor 620, and according to selected above-mentioned pattern, closed index signal or locking release index signal are opened in output.Below, utilize the concrete action of flowchart text control circuit 380.

(flow chart)

Fig. 5 is the flow chart of an example of the action of explanation control circuit 380.

At first, as shown in Figure 5, control circuit 380 built-in nonvolatile memory from control circuit 380 is read selected pattern (step S1).

Then, control circuit 380 will set value corresponding LED and light with the pattern of the selected pattern of expression.Thus, the manager can identify current selected pattern.

Then, control circuit 380 judges whether the contact of keying selector switch 300 is switched on (ON) (step S3).

Here, when the contact that is judged to be keying selector switch 300 when control circuit 380 is switched on (ON) ("Yes" of step S3), and then judge whether the right contact of keying selector switch 300 connects (ON) (step S4).

When control circuit 380 is judged to be right contact connection (ON) ("Yes" of step S4), switch to the pattern (step S5) of the adjacent setting in right side.For example, in Fig. 3, pattern switches to the F-OPEN pattern from the AUTO pattern, switches to the P-OPEN pattern from the ONEWAY pattern.

Then, control circuit 380 extinguishes the LED corresponding with selected pattern up to now, lights the LED corresponding with the pattern of new selection, the i.e. adjacent LED(step S6 in the right side of this LED that extinguishes).

On the other hand, when control circuit 380 is judged to be right contact and does not have to connect (ON) ("No" of step S4), switch to the pattern (step S15) of the adjacent setting in left side.For example, in Fig. 3, pattern switches to the CLOSE pattern from the AUTO pattern, switches to the ONEWAY pattern from the P-OPEN pattern.

Then, control circuit 380 extinguishes the LED corresponding with selected pattern up to now, lights the LED corresponding with the pattern of new selection, the i.e. adjacent LED(step S16 in the left side of this LED that extinguishes).

Then, after the processing of the processing of step S6 or step S16, control circuit 380 is saved in nonvolatile memory built-in in the control circuit 380 (step S7) with the pattern of current selection, and turns back to the processing of step S3.

In addition, when the contact that is judged to be keying selector switch 300 when control circuit 380 is not switched on (ON) ("No" of step S3), judge from the contact of keying selector switch 300 disconnects (OFF) whether passed through the stipulated time (step S20).

Here, the stipulated time for example is 3 seconds.In addition, the stipulated time also can be between 1 second to 30 seconds, also can be other arbitrarily time.

When control circuit 380 is judged to be ("Yes" of step S20) when having passed through the stipulated time from the contact of keying selector switch 300 disconnects (OFF), implement described later and each pattern and open accordingly Closed control (step S30), and turn back to the processing of step S3.

On the other hand, when control circuit 380 is judged to be ("No" of step S20) when not passing through the stipulated time from the contact of keying selector switch 300 disconnects (OFF), turn back to the processing of step S3.

So, disconnect from contact, be the EO through after the stipulated time, implement the new control model of selecting, therefore can not select to implement not have in the operation in control model the control model of plan.

(opening accordingly Closed control with each pattern)

Below, illustrate with each pattern and open accordingly Closed control.

＜AUTO pattern 〉

Fig. 6 is the flow chart of an example of the action of the control circuit 380 of explanation AUTO pattern when chosen.

At first, control circuit 380 determines whether from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 and has inputted detection signal (step S41).

Being judged to be ("Yes" of step S41) when having inputted detection signal from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610, with electric lock 530 releases (step S42).Then, the time that control circuit 380 is transfused to according to detection signal, door controller 510 is exported enabling signals as opening closed index signal (step S43).

Then, control circuit 380 with electric lock 530 lockings (step S44), turns back to the processing of step S41 behind door leaf body 120 complete closures.In addition, in the present embodiment, thereby the complete closure state is by obtaining the positional information judgement complete closure from the door leaf body 120 of door controller 510.In addition, also can be provided in addition the sensor arbitrarily such as limit switch of the full-application position of detecting gate fan body 120.

On the other hand, when being judged to be not from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 input detection signal ("No" of step S41), control circuit 380 turned back to the processing of step S41 before the processing of the step S3 that carries out Fig. 5.In addition, in the present embodiment, make electric lock work, but also can not allow for the life-span that prolongs electric lock its work.

＜ONEWAY pattern 〉

Fig. 7 is the flow chart of an example of the action of the control circuit 380 of explanation ONEWAY pattern when chosen.In addition, as mentioned above, the ONEWAY pattern only illustrates the state of the one-way trip from Indoor environment to outdoor direction in the present embodiment.

At first, control circuit 380 determines whether from inboard (indoor) start sensor 620 and has inputted detection signal (step S51).Here, even (outdoor) start sensor 610 has been inputted detection signal from the outside, control circuit 380 also can be ignored this signal.

Control circuit 380 is being judged to be ("Yes" of step S51) when having inputted detection signal from inboard (indoor) start sensor 620, with electric lock 530 releases (step S52).Then, the time that control circuit 380 is transfused to according to detection signal, door controller 510 is exported enabling signals as opening closed index signal (step S53).

Then, control circuit 380 with electric lock 530 lockings (step S54), turns back to the processing of step S51 behind door leaf body 120 complete closures.

On the other hand, when being judged to be not from inboard (indoor) start sensor 620 input detection signal ("No" of step S51), control circuit 380 turned back to the processing of step S51 before the processing of the step S3 that carries out Fig. 5.

＜F-OPEN pattern 〉

Fig. 8 is the flow chart of an example of the action of the control circuit 380 of explanation F-OPEN pattern when chosen.

At first, control circuit 380 is with electric lock 530 releases (step S61).Then, control circuit 380 continues the output enabling signal as opening closed index signal (step S62).Then, wait for until carry out the processing of the step S3 of Fig. 5.

＜CLOSE pattern 〉

Fig. 9 is the flow chart of an example of the action of the control circuit 380 of explanation CLOSE pattern when chosen.

At first, control circuit 380 stops to export enabling signal or semi-open signal as opening closed index signal (step S71), and with electric lock 530 releases (step S72).Then, wait for until carry out the processing of the step S3 of Fig. 5.

＜P-OPEN pattern 〉

Figure 10 is the flow chart of an example of the action of the control circuit 380 of explanation P-OPEN pattern when chosen.

At first, control circuit 380 determines whether from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 and has inputted detection signal (step S81).

Being judged to be ("Yes" of step S81) when having inputted detection signal from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610, with electric lock 530 releases (step S82).Then, the time that control circuit 380 is transfused to according to detection signal, door controller 510 is exported semi-open signal as opening closed index signal (step S83).

Then, control circuit 380 with electric lock 530 lockings (step S84), turned back to the processing of step S81 before the processing of the step S3 that carries out Fig. 5 behind door leaf body 120 complete closures.

On the other hand, when being judged to be not from inboard (indoor) start sensor 620 or the outside (outdoor) start sensor 610 input detection signal ("No" of step S81), control circuit 380 turned back to the processing of step S81 before the processing of the step S3 that carries out Fig. 5, become holding state.In addition, in the present embodiment, make electric lock work, but also can not allow for the life-span that prolongs electric lock its work.

Change software as mentioned above, in mode selector switch 100, even in the situation that model number increases, do not need to increase the contact of keying selector switch 300, as long as just can be tackled client's hope neatly yet.And then, because mode selector switch 100 does not maximize, therefore can save the space.

In addition, even in the situation that pattern reduces, the contact number of keying selector switch 300 is also constant, and therefore only changing software just can utilize essentially identical hardware.

And then, even just in case one of them of a plurality of contacts (P2, P3) of mode selector switch 100 breaks down, can come preference pattern by utilizing another contact, so the utilization of automatic door can not hindered yet.

In addition, because keying selector switch 300 has the initial point resetting-mechanism, therefore automatically reset to initial point (contact P1).Its result, it is easy that the operation of mode selector switch 100 becomes.

(other examples)

Figure 11 is the schematic diagram of other examples of the mode selector switch 100 of presentation graphs 3.

Mode selector switch 100a shown in Figure 11 is made of keying selector switch 300 and liquid crystal display picture 400.

Keying selector switch 300 and Fig. 3 similarly inject keyholes with key 350, and the wherein side about key 350 forwarded to, thereby contact is connected.In addition, the keying selector switch 300 of Figure 11 also has the initial point resetting-mechanism.

As shown in figure 11, the wherein side about forwarding to by keying selector switch 300, thus the pattern of liquid crystal display picture 400 shows 210, ~, 250 are switched.

Specifically, by keying selector switch 300 is turned left, order according to CLOSE pattern, P-OPEN pattern, ONEWAY pattern, F-OPEN pattern from the AUTO pattern that shows is switched, by keying selector switch 300 is turned right, the order according to F-OPEN pattern, ONEWAY pattern, P-OPEN pattern, CLOSE pattern from the AUTO pattern that shows is switched.

In addition, keying selector switch 300 also can utilize two contact switches.That is, also can be can only turn to about a side type wherein.

Therefore as mentioned above, in mode selector switch 100a, liquid crystal display picture 400 only shows selecteed pattern, compares with mode selector switch 100, saving space that can implementation pattern change-over switch 100a.

(another other examples)

Figure 12 is the schematic diagram of another other examples of the mode selector switch 100 of presentation graphs 3 and Figure 11.

Mode selector switch 100b shown in Figure 12 mainly shows 210 by pattern, ~, 250, LED211,221,231,241,251, order press button 270, upstream sequence press button 280 and keying selector switch 300 consist of downwards.

Keying selector switch 300 in another other examples and Fig. 3 and keying selector switch 300 shown in Figure 11 are different, be comprise initial point only connect two contact (P1, the P2) switches that disconnect, do not have the initial point reset function.

Pattern shown in Figure 12 show according to the AUTO pattern show 210, the CLOSE pattern shows 220, the F-OPEN pattern shows 230, the P-OPEN pattern show 240 and the ONEWAY pattern show that 250 order is from vertical direction to towards vertical lower to configuration.

In addition, this pattern demonstration is configured in label etc., and the next door that shows in each pattern is provided with transparency window or through hole, and according to this window or hole LED211,221,231,241,251 is set.

(operating instruction)

In addition, as shown in figure 12, keying selector switch 300 injects keyholes with key 350, and key 350 is forwarded to right-hand, thereby contact (P2) is connected.In addition, keying selector switch 300 does not have the initial point resetting-mechanism, though therefore after forwarding key 350 to left handle move away, also keep this position (P2).

At this moment, by downward one of them of order press button 270, upstream sequence press button 280 of pressing operation, thereby carry out the switching of pattern.

For example, when pressing downward order press button 270 next time, the AUTO pattern switches to the CLOSE pattern, and the CLOSE pattern switches to the F-OPEN pattern.

On the other hand, when pressing upstream sequence press button 280 next time, the AUTO pattern switches to the ONEWAY pattern, and the F-OPEN pattern switches to the CLOSE pattern.

When the selected end of pattern, forward keying selector switch 300 to left, turn back to neutral position shown in Figure 12 (P1).Thus, determine selected pattern.

As mentioned above, in mode selector switch 100b, at the next door of each pattern configuration LED211,221,231,241,251.And, owing to only have the LED of the pattern of selecting by downward order press button 270 or upstream sequence press button 280 to be lit, even therefore from afar also can recognition mode.

(another other examples)

Figure 13 is the flow chart of other examples of the action of explanation control circuit 380 shown in Figure 5.

Below, the difference of the action of the action of control circuit shown in Figure 13 380 and control circuit 380 shown in Figure 5 mainly is described.

Keying selector switch 300 in the mode selector switch 100 is in the position that turns left (position of the P3 of Fig. 3) when having kept the stipulated time for example, and the timing of automatically carrying out keying selector switch 300 increases.That is, under the state that turns left, kept the stipulated time for example 2 seconds the time, switched to the CLOSE pattern from the AUTO pattern, if kept again 1 second then switch to the P-OPEN pattern, if kept again 1 second then switch to the ONEWAY pattern, sequentially automaticallyed switch.

Similarly, (position of the P2 of Fig. 3) automatically carries out the timing increase of keying selector switch 300 when having kept the stipulated time in the position that turns right.That is, under the state that turns right, kept the stipulated time for example 2 seconds the time, switched to the F-OPEN pattern from the AUTO pattern, if kept again 1 second then switch to the ONEWAY pattern, if kept again 3 seconds then switch to the P-OPEN pattern, sequentially automaticallyed switch.

Then, description of flow diagram.As shown in figure 13, the processing of the processing from step S1 to step S6, step S15, S16, S20, S30 is identical with Fig. 5, and therefore description thereof is omitted.

As shown in figure 13, control circuit 380 is judged whether the contact of keying selector switches 300 continues to connect and (ON) stipulated time (step S6a).Here, when the contact that is judged to be keying selector switch 300 when control circuit 380 continue to be connected and (ON) stipulated time ("Yes" of step S6a), begin reprocessing from the processing of step S4.

On the other hand, do not continue to connect (ON) during the stipulated time ("No" of step S6a) at the contact that is judged to be keying selector switch 300, control circuit 380 is saved in nonvolatile memory built-in in the control circuit 380 (step S7) with the pattern of switching, and turns back to the processing of step S3.

As mentioned above, in the mode selector switch 100 of present embodiment, 100a, 100b, only have the manager to hold key 350, so the third party can't arbitrarily change pattern, only have the manager can change easily each pattern of automatic door 500.In addition, can connect number of times or set at least one party of turn-on time or both sides and select the pattern of automatic door 500 based on the contact of keying selector switch 300.

Its result, even when the model number of automatic door 500 increases, also can only connect number of times with contact and select pattern, perhaps only with contact selected pattern turn-on time of stipulated time, the contact number that therefore need not increase keying selector switch 300 just can be tackled.

Namely, if model number increases, then being used for pattern selected switch or contact will need a plurality of, it is large that mode selector switch will become, but in the mode selector switch 100 of present embodiment, 100a, 100b, even model number increases, mode selector switch 100 can not maximize yet, and can keep and save the space.

With regard to enough arranging in the place, if change software then can provide the mode selector switch 100 that defines model number easily, therefore can not select unwanted pattern at usefulness model number still less.

In addition, each pattern of 5 kinds has been described in the present embodiment, but also can have utilized other arbitrary patterns.

At this moment, change represents each LED corresponding to the program of label and the control circuit 380 of which pattern with character or figure, and in the hole that sets in advance LED is set, thereby can change easily number of modes.Therefore, client's hope can be tackled neatly, versatility can be improved.In addition, about LED, also the maximum number of envisioning can be installed.Importantly only lighting the LED corresponding with the pattern of needs gets final product.

And then LED not necessarily wants same color, also can make it send light with the pattern respective color.The decreased number of the LED of actual installation thus can be dealt with more pattern with small-sized.

In the present invention, automatic door 500 is equivalent to automatic door, mode selector switch 100 is equivalent to the control mode switch device of automatic door, contact (the P2 of keying selector switch 300, P3), order press button 270 or upstream sequence press button 280 are equivalent to switch portion downwards, key 350 is equivalent to key, keying selector switch 300 is equivalent to key section, LED211,221,231,241,251 and liquid crystal display picture 400 be equivalent to display part, liquid crystal display picture 400 is equivalent to liquid crystal display part, LED211,221,231,241,251 are equivalent to light emitting diode, keying selector switch 300 is equivalent to switch portion and key section is wholely set, contact P2, P3 is equivalent to two contacts, and contact P2 connects and is equivalent to a contact connection, and contact P3 connects and is equivalent to another contact connection.

A preferred embodiment of the present invention as above but the invention is not restricted to this.Be to be understood that the various embodiments that to realize not breaking away from the spirit and scope of the present invention.And then, in the present embodiment, narrated effect and effect based on structure of the present invention, but these effects are an example, be not for limiting the present invention.

Claims (7)

1. the control mode switch device of an automatic door switches in the unlatching Closed control pattern of the automatic door that architectural openings section arranges, and it is characterized in that, comprising:

Switch portion based on connection number of times and at least one party in turn-on time or the both sides of switch, is selected the unlatching Closed control pattern of described automatic door;

Key section makes the operation of described switch portion become possible or impossible by key; And

Display part shows the unlatching Closed control pattern of selecting by described switch portion.

2. the control mode switch device of automatic door as claimed in claim 1 is characterized in that,

Described switch portion and described key section are arranged integratedly.

3. the control mode switch device of automatic door as claimed in claim 2 is characterized in that,

Described switch has two contacts,

When a described contact was connected, described unlatching Closed control pattern order according to the rules was changed,

When described another contact was connected, described unlatching Closed control pattern was changed according to the order with the reversed in order of described regulation.

4. the control mode switch device of automatic door as claimed in claim 3 is characterized in that,

Described switch has the initial point resetting-mechanism, under the state of a therein described contact connection of this initial point resetting-mechanism, produces the power that is used for making described two contacts disconnection.

5. such as the control mode switch device of each described automatic door of claim 1 to 4, it is characterized in that,

Described display part comprises the light emitting diode to each setting of described unlatching Closed control pattern, only lights the light emitting diode corresponding with the described unlatching Closed control pattern of selecting by described switch portion.

6. such as the control mode switch device of each described automatic door of claim 1 to 4, it is characterized in that,

Described display part comprises the liquid crystal display part that can carry out the demonstration corresponding with described unlatching Closed control pattern,

In described liquid crystal display part, carry out the demonstration corresponding with the described unlatching Closed control pattern of selecting by described switch portion.

7. an automatic door is characterized in that, comprises the control mode switch device of automatic door claimed in claim 1.

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