KR20050104576A - Condensation water drain device of elevator air-conditioner and drain method thereof - Google Patents

Abstract

The present invention provides a condensate removal device and a removal method of an elevator air conditioner including a condensate storage tank which collects condensate discharged from an air conditioner installed in an elevator that moves up and down along a lifting passage of a building and has a condensate discharge pipe facing a drain hole at the bottom of the lifting passage. The present invention relates to a water level sensor for detecting a full level and a low level of condensate collected in the condensate storage tank, an solenoid valve installed in the condensate discharge pipe, and a detection signal transmitted from the level sensor and a controller of the elevator. The elevator service control signal is transmitted to the controller of the elevator according to the elevator running signal, and when the detection signal is a full water level signal and the elevator descends to the lowermost part of the lifting passage, the solenoid valve until the low water level signal is detected. Opening up It is characterized by a control unit.

Thereby, a condensate removal apparatus and a removal method of an elevator air conditioner which can easily and safely remove condensate generated in an elevator air conditioner are provided.

Description

Condensation Water Drain Device of Elevator Air-conditioner And Drain Method Thereof}

The present invention relates to a condensate removal device and a removal method of an elevator air conditioner.

In general, when installing an air conditioner in the elevator to maintain the comfort of the internal environment of the elevator, it is necessary to consider the installation of a condensate removal device for treating the condensate generated from the air conditioner.

In the conventional condensate removal structure of the elevator air conditioner, as shown in Figure 1, the air conditioner 203 is installed on the elevator 200, the condensate storage in one area of the elevator 200 corresponding to the lower area of the air conditioner 203 The tank 110 is provided, and the lower part of the elevator hoisting passage 208 of the building has a configuration in which a drain hole 209 is formed outside the hoisting passage 208 or toward the outside of the building. In this case, the drain 209 may be directly connected to the sewer outside the building, it may be connected to the drain tank provided separately in the building.

And, the air conditioner 203 and the condensate storage tank 110 is connected by a hose 207, the condensate toward the drain 209 formed in the lower portion of the elevator lift passage 208 in the lower portion of the condensate storage tank 110 The discharge pipe 113 is provided to be opened and shut off by the valve 131.

Looking at the condensate removal method by the condensate removal configuration of the conventional elevator air conditioner, the condensate generated in the air conditioner 203 while the elevator 200 is running is collected in the condensate storage tank 110 through the hose 207.

Then, when the condensate storage tank 110 is full, when the operator lowers the elevator 200 to the lowest floor and opens the valve 131 of the condensate discharge pipe 113, the condensate collected in the condensate storage tank 110, the elevator Through the drain 209 of the lifting passage 208 is to be discharged to the outside of the building or to a separate building drain tank.

However, in the conventional condensate removal configuration and removal method of the elevator air conditioner, the elevator manager has to check the amount of water collected in the condensate storage tank periodically, there is a problem that the elevator operation and air conditioning management is very inconvenient.

In addition, when the condensate storage tank is checked, if the amount of condensate collection is large, after stopping the elevator operation, the operator directly enters the inside of the elevator hoistway while operating the elevator controller and lowers the valve of the condensate storage tank. Since only the open condensate can be discharged, there is a problem in that it is not safe and the condensate discharge operation is very inconvenient.

Accordingly, an object of the present invention is to provide a condensate removal device and a method for removing an elevator air conditioner that can easily and safely remove condensate generated in an elevator air conditioner.

The object is, according to the present invention, the condensate of an elevator air conditioner comprising a condensate storage tank for collecting the condensate discharged from the air conditioner installed in the elevator to move along the lifting passage of the building and having a condensate discharge pipe toward the drain of the bottom of the lifting passage In the removal apparatus, the water level sensor for detecting the full and low water level of the condensate collected in the condensate storage tank, the solenoid valve installed in the condensate discharge pipe, the detection signal transmitted from the water level sensor and the controller of the elevator The elevator service control signal is transmitted to the controller of the elevator according to the elevator driving signal transmitted, and when the detection signal is a full water level signal and the elevator descends to the bottom of the lifting passage, the electronic device until the low water level signal is detected. Opening the valve Be achieved by the condensed water removing device of an elevator air conditioner characterized in that it comprises a control unit.

Here, the driving signal transmitted from the elevator is whether the operating floor selection button operating in the elevator; The service control request signal may be a signal for requesting normal operation to the elevator controller when the driving signal is not detected, the lowering request signal for requesting the elevator to descend to the lower part of the lifting passage, and the low water level signal being transmitted.

And an evaporation heater installed in the condensate storage tank and generating heat by power supply, and a heater power supply unit supplying power to the evaporation heater. The control unit may more effectively control the power supply of the heater power supply unit to be transmitted to the evaporation heater regardless of the elevator running signal if the high water level signal or the low water level signal is not transmitted from the water level sensor.

On the other hand, according to another field of the present invention, the condensate discharged from the air conditioner installed in the elevator to move along the lifting passage of the building is collected in the condensate storage tank is discharged to the drain of the bottom of the lifting passage through the condensate discharge pipe A method for removing condensate from an elevator air conditioner, comprising: detecting a full water level and a low water level of condensate collected in the condensate storage tank; Determining the detection signal transmitted from the water level sensor and the elevator operation signal transmitted from the controller of the elevator to transfer the elevator service control signal to the controller of the elevator, the detection signal is the full water level signal and the elevator is the lifting passage When lowered to the bottom, it is also achieved by the condensate removal method of an elevator air conditioner comprising the step of opening the solenoid valve installed in the condensate discharge pipe until the low water level signal is detected.

Here, the driving signal transmitted from the elevator is whether the operating floor selection button operating in the elevator; The service control request signal may be a signal for requesting normal operation to the elevator controller when the driving signal is not detected, the lowering request signal for requesting the elevator to descend to the lower part of the lifting passage, and the low water level signal being transmitted.

And an evaporation heater installed in the condensate storage tank and generating heat by power supply, and a heater power supply unit supplying power to the evaporation heater. If the high water level signal or the low water level signal is not transmitted from the water level sensor, it is effective to include a control such that power of the heater power supply unit is transmitted to the evaporation heater regardless of the elevator running signal.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2 is a view showing the condensate removal device of the elevator air conditioner according to the first embodiment of the present invention, Figure 3 is a control block diagram of the condensate removal device of the elevator air conditioner of FIG. As shown in these drawings, the condensate removal device 1 of an elevator air conditioner according to the present invention is a condensate storage tank 10 for collecting condensate generated in the air conditioner 203, and the water level inside the condensate storage tank 10. The water level sensor 20 for detecting the condensate, the condensate removal unit 30 for removing the condensate collected in the condensate storage tank 10, and the condensate removal unit according to the detection signal transmitted from the water level sensor 20 ( A control unit 40 for controlling the operation of the 30.

The condensate storage tank 10 is manufactured in a tubular shape having a storage capacity capable of collecting condensate discharged from the elevator air conditioner 203 for a relatively long time, so that the outer surface of the elevator 200 corresponding to the lower area of the air conditioner 203 is provided. Is installed on.

In addition, a condensate inlet 11 connected to the condensate outlet 205 and the hose 207 of the air conditioner 203 is formed at the upper portion of the condensate storage tank 10, and the condensate stored at the bottom of the condensate storage tank 10 is stored. The condensate discharge pipe 13 for discharging is provided. At this time, at the bottom of the elevator elevating passage 208 corresponding to the installation region of the condensate discharge pipe 13, a drain 209 connected to a sewer or outside the building is provided separately from the building drainage tank.

The water level sensor 20 is a low water level sensor 21 for detecting the condensate storage level in the upper region of the condensate storage tank 10 and a low water level for detecting the condensate storage level in the inner bottom region of the condensate storage tank 10. It has a sensing sensor 23. The water level sensor 20 detects the high or low water level of the condensate and transmits the signal to the controller 40. Here, the water level sensor 20 is described as a separate high water level sensor 21 and the low water level sensor 23, but the shape of the sensor may be of various forms.

The condensate removal unit 30 is provided with a solenoid valve 31 for opening and closing the condensate discharge pipe 13 of the condensate storage tank 10. The solenoid valve 31 opens and closes the condensate discharge pipe 13 in accordance with an open / close signal transmitted from the controller 40.

The control unit 40 transmits a service control request signal to the elevator controller 211 according to the detection signal transmitted from the water level sensor 20 and the operation signal of the elevator 200 transmitted from the elevator controller 211, and removes the condensate water unit. The operation of 30 is controlled.

Here, the detection signal transmitted from the water level sensor 20 is a low water level signal of the condensate storage tank 10 transmitted from the high water level sensor 21 and the low water level of the condensate storage tank 10 transmitted from the low water level sensor 23. It is a signal.

And, the operating signal transmitted from the elevator 200 is the operation of the operating floor selection button in the elevator 200, the service control signal is the elevator 200 to the bottom of the elevating passage 208, if the operating signal is not detected On the other hand, when the low water level signal is transmitted from the low water level sensor 23, the low level signal is a signal for requesting normal operation to the elevator controller 211.

The condensate removal process of the elevator air conditioner having such a configuration will be described with reference to FIG. 4.

First, when condensate is generated in the air conditioner 203 by operating the air conditioner 203 during operation of the elevator 200, the condensate is discharged to the condensate outlet 205 of the air conditioner 203 and the condensate storage tank through the hose 207 ( 10) is collected. At this time, the control unit 40 determines whether the high water level signal is transmitted from the high water level sensor 21 while maintaining the closed solenoid valve 31 installed in the condensate water discharge pipe 13 of the condensate storage tank 10 (S01a) ( S01), if the full water level signal is not transmitted to the elevator controller 211 does not send a service control signal.

On the other hand, after a predetermined period of time, if the water level of the condensate is increased in the condensate storage tank 10 and the high water level signal is transmitted from the high water level sensor 21, the control unit 40 first starts the operation signal from the elevator controller 211. Check whether the transmission (S02), and when the driving signal is transmitted to maintain the closed state of the solenoid valve 31 (S01a).

And, if the operation signal is not transmitted from the elevator controller 211, the control unit 40 transmits a service control signal to the elevator controller 211 to allow the elevator 200 to descend to the lifting passage 208 bottom. (S03).

When the signal from the elevator controller 211 that the elevator 200 is lowered to the lowermost of the lifting passage 208 is transmitted (S04), the control unit 40 is a solenoid valve until the low water level signal is transmitted from the low water level sensor 23 (31) is opened (S05). Here, the falling signal in which the elevator 200 descends to the lower part of the elevating passage 208 is provided with a separate limit switch or an elevating detection sensor at the lower part of the elevating passage 208 and electrically connected to the control unit 40 so that the falling signal is lowered. It can also be delivered to the control unit 40 directly.

When the solenoid valve 31 is opened for a predetermined time, the condensate stored in the condensate storage tank 10 is discharged to the outside through the drain port 209 at the bottom of the lifting passage 208.

Then, when the low water level signal is transmitted from the low water level sensor 23 (S06), the control unit 40 closes the solenoid valve 31 (S07) and transmits a normal driving request signal to the elevator controller 211. Allow the elevator 200 to operate normally (S08). At this time, if the low water level signal is not transmitted in step S06, the control unit 40 maintains the solenoid valve 40 open state (S05).

On the other hand, Figure 5 is a view showing the condensate removal device configuration of the elevator air conditioner according to a second embodiment of the present invention, Figure 6 is a control block diagram of the condensate removal device of the elevator air conditioner of FIG. As shown in these figures, the condensate removal apparatus 1 'of the elevator air conditioner according to the present embodiment has a configuration other than the above-described first embodiment and the control operation of the condensate removal unit 30 and the control unit 40. Almost the same. Accordingly, hereinafter, description of the other components will be omitted, and only the control operations of the condensate removing unit 30 and the control unit 40 will be described.

The condensate removal unit 30 applied to the condensate removal device 1 of the elevator air conditioner according to the present embodiment has a solenoid valve for opening and closing the condensate discharge pipe 13 of the condensate storage tank 10 as in the first embodiment. 31) and an evaporation heater 33 provided inside the condensate storage tank 10 to generate heat by power supply, and a heater power supply 35 to supply power to the evaporation heater 33. At this time, the steam outlet 15 is formed on the upper surface of the condensate storage tank (10).

In addition, the controller 40 determines whether the high water level signal or the low water level signal is transmitted from the water level sensor 20 as shown in FIG. 7 during operation of the elevator 200 in the condensate removal method of the first embodiment (P01). Is not transmitted, the power of the heater power supply 35 is transferred to the evaporation heater 33 regardless of the elevator 200 driving signal while maintaining the closed state of the solenoid valve 31 to control the inside of the condensate storage tank 10. While evaporating the condensate (P01a), when the full water level signal is transmitted from the full water level sensor 21, the condensed water in the condensed water storage tank 10 is discharged through the control processes S01 to S08 as described above.

In the condensate removal apparatus 1 and the method of removing the air conditioner of the elevator air conditioner according to the present embodiment, since the condensate evaporation is performed inside the condensate storage tank 10 even while the elevator 200 is operating, the condensate can be collected for a relatively long time in proportion to the amount of evaporation. Can be.

In this way, it is possible to automatically remove the condensate generated from the elevator air conditioner and stored in the condensate storage tank, thereby facilitating elevator operation and air conditioner management, and the operator into the lifting passage to remove the condensate stored in the condensate storage tank. By not having to enter directly, safety accidents can be prevented.

As described above, according to the present invention, there is provided a condensate removal device and a method for removing an elevator air conditioner that can easily and safely remove the condensate generated in the elevator air conditioner.

1 is a view showing a condensate removal device configuration of a conventional elevator air conditioner,

2 is a view showing the condensate removal device configuration of an elevator air conditioner according to a first embodiment of the present invention,

3 is a control block diagram of the condensate removal device of the elevator air conditioner of FIG.

4 is a flowchart illustrating a condensate removal process of the condensate removal device of the elevator air conditioner of FIGS. 2 and 3;

5 is a view showing the condensate removal device configuration of an elevator air conditioner according to a second embodiment of the present invention,

6 is a control block diagram of the condensate removal device of the elevator air conditioner of FIG.

7 is a flowchart illustrating a condensate removal process of the condensate removal device of the elevator air conditioner of FIGS. 5 and 6;

* Explanation of symbols for the main parts of the drawings

 1: condensate removal device 10: condensate storage tank

20: level sensor 21: full level sensor

23: low water level sensor 31: solenoid valve

33: evaporation heater 35: heater power supply

40: control unit

Claims (6)

In the condensate removal device of an elevator air conditioner comprising a condensate storage tank for collecting condensate discharged from the air conditioner installed in the elevator to move up and down along the lifting passage of the building and having a condensate discharge pipe toward the drain of the bottom of the lifting passage, A water level sensor for detecting a full water level and a low water level of the condensate collected in the condensate storage tank; An electromagnetic valve installed at the condensate discharge pipe; The elevator service control signal is transmitted to the controller of the elevator according to the detection signal transmitted from the water level sensor and the elevator operation signal transmitted from the controller of the elevator, the detection signal is a full water level signal, and the elevator is at the bottom of the lifting passage. And a control unit which opens the solenoid valve until the low water level signal is detected. The method of claim 1, The driving signal transmitted from the elevator is whether the operating floor selection button is operated in the elevator; The service control request signal is a falling request signal for requesting the elevator to descend to the bottom of the elevating passage if the driving signal is not detected, and a signal for requesting normal operation to the elevator controller when the low water level signal is transmitted. Condensate removal device for elevator air conditioners. The method according to claim 1 or 2, An evaporator heater installed in the condensate storage tank and generating heat by power supply, and a heater power supply unit supplying power to the evaporator heater; The control unit removes the condensed water of the elevator air conditioner if the high water level signal or the low water level signal is not transmitted from the water level sensor so as to transmit the power of the heater power supply unit to the evaporation heater regardless of the elevator operation signal. Device. In the condensate removal method of an elevator air conditioner having a step of collecting the condensate discharged from the air conditioner installed in the elevator to move along the lifting passage of the building to the condensate storage tank and discharged to the drain of the bottom of the lifting passage through the condensate discharge pipe, Detecting a high water level and a low water level of condensate collected in the condensate storage tank; Determining the detection signal transmitted from the water level sensor and the elevator operation signal transmitted from the controller of the elevator to transfer the elevator service control signal to the controller of the elevator, the detection signal is the full water level signal and the elevator is the lifting passage When descending to the bottom, the condensate removal method of the elevator air conditioner comprising the step of opening the solenoid valve installed in the condensate discharge pipe until the low water level signal is detected. The method of claim 4, wherein The driving signal transmitted from the elevator is whether the operating floor selection button is operated in the elevator; The service control request signal is a falling request signal for requesting the elevator to descend to the bottom of the elevating passage if the driving signal is not detected, and a signal for requesting normal operation to the elevator controller when the low water level signal is transmitted. How to remove condensate from elevator air conditioners. The method according to claim 4 or 5, An evaporator heater installed in the condensate storage tank and generating heat by power supply, and a heater power supply unit supplying power to the evaporator heater; Condensate of an elevator air conditioner, if the water level sensor or the low water level signal is not transmitted in the water level detection sensor, the power supply of the heater power supply unit is transmitted to the evaporation heater irrespective of the elevator operation signal How to remove.