JPH0479953B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a control device for an escalator equipped with an automatic entry prevention fence, and particularly to a control device suitable for preventing danger to passengers.

[Background of the invention]

Escalators installed on parts of outdoor public roads and escalators installed as a means of communication with subways are often used as stairs when escalators are not in operation at night, and equipment malfunctions can occur due to tampering or the introduction of foreign objects. There are many things. For this reason, in order to prevent the escalator from being used as a staircase when the escalator is out of operation, it has been considered to provide a barrier to prevent entry to the escalator. However, in Figure 1,
As shown in FIG. 2, an upper automatic entry prevention fence consisting of an upper entry prevention device 2 and an upper entrance prevention gate 3 is provided on the upper and lower sides of the escalator 1, respectively, and a lower entry prevention device 4 and a lower entry prevention gate are provided. If a lower automatic entry prevention fence is provided, if the escalator is operated even though the automatic entry prevention fence is closed, it may endanger passengers.

[Purpose of the invention]

The present invention has been made in view of the above, and its purpose is to prevent danger to passengers by linking the escalator operation with the opening and closing of the upper and lower automatic entry prevention fences. The purpose of the present invention is to provide a control device for an escalator equipped with a rail.

[Summary of the invention]

The present invention is characterized by two gate closing detection means each detecting the closing of the entry prevention gate of each automatic entry prevention fence, and the closing of the entry prevention gate to which the gate closing detection means corresponds on the opposite side to the driving direction of the escalator. and when the gate closing detection means in the driving direction does not detect the closing of the corresponding entry prevention gate, means for stopping the escalator after a predetermined time, and means for stopping the gate closing detection means in the driving direction. and means for immediately stopping the escalator when the closing of the corresponding entry prevention gate is detected, even if the gate closing detection means on the opposite side to the driving direction does not detect the closing of the corresponding entry prevention gate. The point lies in the structure.

[Embodiments of the invention]

The present invention will be explained in detail below using the embodiments shown in FIGS. 3 to 8.

FIG. 3 is an explanatory diagram showing an example of the arrangement of the gate closing detection switch required in the control device of the present invention, and FIG.
LGS, Figure 3b is the upper gate closed detection switch
This shows the arrangement of the UGS, which detects and closes when the lower automatic entry prevention gate 5 of the lower automatic entry prevention fence or the upper automatic entry prevention gate 3 of the upper automatic entry prevention fence closes, respectively. It is being structured as follows.

4 and 5 are circuit diagrams showing an embodiment of the escalator operation stop command circuit of the control device of the present invention, FIG. 6 is a circuit diagram showing an embodiment of the escalator main motor operation circuit, and FIG. 8 are circuit diagrams showing an embodiment of the operating circuit of the upper and lower gate operating motors, respectively.

In Figures 4 and 5, _S1 is an escalator stop switch, _S2 is an escalator safety switch, U is an escalator upward operation switch, and D is an escalator safety switch.
11 is the escalator descending operation switch, 11 is the ascending operation command relay, 11 ₁ , 11 ₃ , 11 ₄ ,
11 ₅ is its normally open contact, 11 ₂ is its normally closed contact, 1
2 is a relay for descending operation command, 12 ₁ , 12 ₃ , 1
2 ₄ and 12 ₅ are the normally closed contacts, 12 ₂ is the normally closed contacts, TS ₁ and TS ₂ are the switches for escalator test operation, T is the delay timer, T ₁ is the normally closed contacts, and UO is the upper gate opener. Door command relay, UO ₁
is its normally open contact, UO ₂ and UO ₃ are its normally closed contacts,
UC is the relay for commanding the upper gate to close, UC ₁ is its normally open contact, UC ₂ and UC ₃ are its normally closed contacts, LO is the relay for commanding the lower gate to open, LO ₁ is its normally open contact, LO ₂ , LO ₃ is its normally closed contact, LC is the lower gate closing command relay, LC ₁ is its normally open contact,
LC ₂ and LC ₃ are the normally closed contacts, UOS is the switch for commanding the upper gate to open, UCS is the switch for commanding the closing of the upper gate, LOS is the switch for commanding the opening of the lower gate, and LCS is the switch for commanding the closing of the lower gate. ,
UOLS is the upper gate opening completion detection switch,
UCLS is the upper gate closing completion detection switch,
LOLS is the lower gate opening completion detection switch,
LCLS is lower gate closing completion detection switch, UGS
is the upper gate closed detection switch, LGS is the lower gate closed detection switch, GU is the upper gate closed detection relay, and GU ₁ , GU ₃ , and GU ₄ are their normally closed contacts,
GU ₂ and GU ₅ are their normally open contacts, GL is the lower gate closed detection relay, and GL ₁ , GL ₂ , and GL ₄ are their normally closed contacts.
GL ₃ and GL ₅ are normally open contacts, P and N are operating power supplies, and these are connected as shown.

In FIG. 6, 11 ₆ and 11 ₇ are normally open contacts of the relay 11 for ascending operation command in FIG. 4, and 12 ₆ and 12 ₇
is the normally open contact of the descending operation command relay 12 in Fig. 4, IM is the main motor for the escalator, R ₁ , S ₁ ,
_T1 is a power source, and these are connected as shown.

In Figures 7 and 8, UO ₄ and UO ₅ are the normally open contacts of the upper gate opening command relay UO in Figure 4;
UC ₄ and UC ₅ are the normally open contacts of the upper gate closing command relay UC in Figure 4, UDM is the electric motor for operating the upper gate, and LO ₄ and LO ₅ are the lower gate opening command relay LO in Figure 4. Normally open contacts, LC ₄ and LC ₅ are normally open contacts of lower gate closing command relay LC in Figure 4, LDM
is the lower gate operating motor, and R ₂ , ₃ , S ₂ , ₃ , T ₂ , ₃ are power sources, and these are connected as shown.

Now, assuming that the escalator has stopped and both the upper and lower automatic entry prevention fences are closed, the upper entrance prevention gate 3 is closed, so the upper gate closing detection switch UGS is closed (3rd
In FIG. 5, the upper gate closing detection relay GU is turned on, its contacts GU ₂ and GU ₅ are closed, and its contacts GU ₁ , GU ₃ and GU ₄ are opened. In addition, since the lower entry prevention gate 5 is also closed, the lower gate closing detection switch LGS is closed (the third
In FIG. 5, the lower gate closing detection relay GL is turned on, its contacts GL ₃ and GL ₅ are closed, and its contacts GL ₁ , GL ₂ and GL ₄ are opened. In this state, in order to operate the escalator upward,
Even if you turn on the upward operation switch U (this switch closes only when you press it and opens when you release it), P-S ₂ -S ₁ -U-12 ₂ -11-GU ₁ -GL ₁
Since the contacts GU ₁ and GL ₁ of the -N circuit are open, the upward operation command relay 11 is not turned on, and the escalator cannot be operated upward.

Next, in the case of upward operation, assuming that the upper entry prevention fence is closed and the lower entry prevention fence is opened, in Fig. 5, the upper gate closing detection switch UGS is closed and the upper Since the gate closing detection relay GU is turned on, its contact GU ₁ is opened, and P-S ₂ -S ₁ -11-12 ₂ -11-GU ₁
-GL ₁ -N circuit is not formed, and in this case as well, the escalator cannot be operated upward, and the safety of passengers can be ensured.

Contrary to the above, if the upper intrusion prevention fence is open and the lower intrusion prevention fence is closed in the case of upward operation, in Figure 5, the lower gate closing detection switch LGS is When the circuit is closed, the lower gate closing detection relay GL turns on, so its contact
GL ₁ opens, P-S ₂ -S ₁ -U-12 ₂ -11-
The circuit GU ₁ -GL ₁ -N is not formed, and in this case as well, the escalator cannot be operated upward.

Next, if both the upper and lower entry prevention fences are open, the upper and lower gate closing detection relay GU,
Since GL is turned off, its contacts GU ₁ and GL ₁ are closed, and P-S ₂ -S ₁ -U-12 ₂ -11-GU ₁ -
A circuit of GL ₁ -N is formed, allowing the escalator to operate upward. At the same time, the contacts 11 ₃ , 11 ₄ , 11 ₅ are closed by turning on the upward operation command relay 11, and the contact GL ₂ is closed. The escalator is self-maintained by a circuit that allows the escalator to continue upward operation.

Next, the operation when stopping the escalator will be explained. Now, if the upper entry prevention fence closes while the escalator is in ascending mode, Since the contact GU ₁ of the circuit is opened, the above circuit cannot be formed and the escalator immediately stops operating. Therefore, passengers riding the escalator will not be stuck at the upper entry prevention barrier.

Additionally, if the lower intrusion prevention fence is closed and the upper intrusion prevention shelf is open while the escalator is ascending, P-S ₂ -S ₁ -T ₁ -11 ₃ -11-
A circuit of GU ₁ -11 ₁ -N is formed, and at the same time P-
After the set time limit of the delay timer T has elapsed in the circuit GL ₅ -GU ₄ -11 ₅ -T-N, the delay timer T is turned on. When delay timer T turns on, its contact T ₁
is open, P-S ₂ -S ₁ -T ₁ -11 ₃ -11-GU ₁
-11 ₁ -N circuit is no longer formed, and the escalator will stop after a certain period of time has elapsed after the lower entry prevention fence closes. Therefore,
Even if the lower barrier to prevent entry is closed, passengers on the escalator can continue up the escalator, and the escalator will stop when there are no more passengers.

The above explanation is for upward operation, but
The same applies to the case of descending operation, so the explanation will be omitted here. Further, it is possible to make an emergency stop of the escalator during operation by opening the escalator stop switch _S1 or the escalator safety switch _S2 , and it goes without saying that the escalator will be stopped in any case. Furthermore, it is of course possible to operate and stop the escalator independently regardless of the operation of the upper and lower entry prevention fences.

According to the embodiment of the present invention described above, an upper gate closing detection switch UGS and a lower gate closing detection switch LGS are provided to detect the closing of the upper and lower automatic entry prevention fences, and the upper and lower automatic entry prevention fences are provided. Since the operation of the escalator is linked to the opening and closing of the entry prevention gate in the fence, it is possible to prevent danger to passengers.

〔Effect of the invention〕

As explained above, according to the present invention, since the escalator operation can be linked to the opening and closing of the upper and lower automatic entry prevention fences, it is possible to prevent danger to passengers.

[Brief explanation of the drawing]

Fig. 1 is a plan view of an escalator equipped with an automatic entry prevention fence, Fig. 2 is a side view of Fig. 1, and Fig. 3 is an example of the arrangement of the gate closing detection switch required by the control device of the present invention. An explanatory diagram showing Fig. 4,
Fig. 5 is a circuit diagram showing an embodiment of the escalator operation stop circuit of the escalator control device equipped with the automatic entry prevention fence of the present invention, and Fig. 6 is a circuit diagram showing an embodiment of the escalator main electric machine operating circuit. ,
FIGS. 7 and 8 are circuit diagrams showing one embodiment of the operating circuits of the upper and lower gate operating motors, respectively. 1...Escalator, 2...Upper entry prevention device, 3...Upper entry prevention gate, 4...Lower entry prevention device, 5...Lower entry prevention gate, UGS...
...Upper gate closing detection switch, LGS...Lower gate closing detection switch, U...Up operation switch, D...Down operation switch, 11...Relay for ascending operation command, 12...Relay for descending operation command,
T...delay timer, UO...relay for upper gate open command, UC...relay for upper gate close command, LO...relay for lower gate open command, LC...
...Relay for lower gate closing command, UOS: Switch for upper gate opening command, UCS: Switch for upper gate closing command, LOS: Switch for lower gate opening command, LCS: Lower gate closing command Switch, GU... Upper gate closed detection relay, GL... Lower gate closed detection relay, IM...
Main electric motor for escalators, UDM...motor for operating the upper gate, LDM...motor for operating the lower gate.

Claims (1)

[Claims] 1. In a control device for an escalator equipped with upper and lower automatic entry prevention fences, two gate closing detection means each detect the closing of the entry prevention gate of each automatic entry prevention fence, and a gate closure detection means on the opposite side to the driving direction of the escalator. the gate closing detection means detects the closing of the corresponding entry prevention gate;
When the gate closing detection means in the driving direction does not detect the closing of the corresponding entry prevention gate, means for stopping the escalator after a predetermined time; and the gate closing detection means in the driving direction detects the closing of the corresponding entry prevention gate. The escalator is characterized by comprising means for immediately stopping the escalator when the closing of the prevention gate is detected, even if the gate closing detection means on the opposite side to the driving direction does not detect the closing of the corresponding entry prevention gate. An escalator control device equipped with an automatic entry prevention fence.