KR102446006B1 - Cooling and heating apparatus for elevator - Google Patents

Abstract

The present invention is installed on the back surface of the ceiling (2) of the elevator (1), one side and the other side, respectively, the air intake 11 and the air outlet 12 is formed in the case 10; The elevator is provided in the case 10 and communicates with the air intake 11 of the case 10 and the vent hole 3 on one side formed at the edge of the ceiling 2 of the elevator 1 through the air intake pipe 13. (1) an air intake unit 20 for sucking the internal air; a heating/cooling unit 30 provided in the case 10 and cooling or heating the air sucked through the air suction unit 20; It is provided in the case 10, and the air cooled or heated by the air conditioning unit 30 is supplied with the air outlet 12 of the case 10 and the other side vent hole 3 of the ceiling 2 of the elevator 1 and an air discharge unit 40 for discharging into the interior of the elevator 1 through the communicating air discharge pipe 14; an acceleration sensor (50) provided in the case (10) and measuring a change in acceleration according to the elevation of the elevator (1); and a control module 60 for controlling the operation of the air intake unit 20 , the air conditioning unit 30 , and the air discharge unit 40 according to the physical quantity of the change in the acceleration of the elevator 1 measured by the acceleration sensor 50 . ); is a heating and cooling system for an elevator, characterized in that it includes.

Description

Cooling and heating apparatus for elevator

The present invention relates to a heating and cooling system for an elevator, and more particularly, to a heating and cooling system for an elevator that can provide more comfort to passengers riding in the future while minimizing power loss even when there are no passengers in the elevator.

In general, elevators are installed in various buildings so that users can move to the desired floor more conveniently without using stairs. is installing The conventional air conditioner for an elevator is controlled to operate when the temperature inside the elevator reaches a set temperature.

However, the conventional operating method of the air conditioner for an elevator has a problem in that the amount of power loss is large because the air conditioner continues to operate according to the temperature inside the elevator even when no person is on the elevator. In particular, there is a problem in that the amount of power loss is further increased when no one is riding the elevator on a holiday or at night. In addition, as the number of high-rise buildings increases in recent years, there is a problem in that a large amount of power is unnecessarily lost when the elevator located on the top floor is moved to the bottom floor without a person on it. However, if the air conditioner is stopped when no person is on the elevator, the temperature inside the elevator rises, so that when a person gets on the elevator in this state, it is possible to feel the steamy heat. As described above, since the operation of the air conditioner cannot be unconditionally stopped just because no person is on the elevator, there is a need to provide a comfortable environment to passengers while reducing power loss.

Korean Public Utility Model Publication No. 20-2009-0009555

The present invention is to solve the above problems, and an object of the present invention is to reduce power loss by stopping the operation when there are no passengers in the elevator by using a single module so that the elevator operates when the elevator is operated, so that the passengers boarding later It is possible to provide a more comfortable environment for passengers and, moreover, to prevent unnecessary power loss by detecting the moving distance of the elevator, thereby reducing power loss more effectively and providing a more comfortable environment for subsequent passengers. The goal is to provide a cooling and heating system for an elevator that can provide a comfortable environment while reducing power loss in all four seasons by allowing both cooling and heating using a single module.

According to a feature of the present invention, it is installed on the rear surface of the ceiling (2) of the elevator (1), one side and the other side, respectively, the air intake (11) and the air outlet (12) formed in the case 10; The elevator is provided in the case 10 and communicates with the air intake 11 of the case 10 and the vent hole 3 on one side formed at the edge of the ceiling 2 of the elevator 1 through the air intake pipe 13. (1) an air intake unit 20 for sucking the internal air; a heating/cooling unit 30 provided in the case 10 and cooling or heating the air sucked through the air suction unit 20; It is provided in the case 10, and the air cooled or heated by the air conditioning unit 30 is supplied with the air outlet 12 of the case 10 and the other side vent hole 3 of the ceiling 2 of the elevator 1 and an air discharge unit 40 for discharging into the interior of the elevator 1 through the communicating air discharge pipe 14; an acceleration sensor (50) provided in the case (10) and measuring a change in acceleration according to the elevation of the elevator (1); and a control module 60 for controlling the operation of the air intake unit 20 , the air conditioning unit 30 , and the air discharge unit 40 according to the physical quantity of the change in the acceleration of the elevator 1 measured by the acceleration sensor 50 . ); is provided for an elevator air-conditioning device, characterized in that it includes.

According to another feature of the present invention, the control module 60 includes a wireless communication unit 70 that wirelessly communicates with the terminal function unit 101 for controlling the control module 60 through an application of the mobile communication terminal 100 . There is provided a heating and cooling system for an elevator, characterized in that it is further provided.

According to another feature of the present invention, the control module 60 includes a floor number determination unit 80 that determines the current position according to the moving distance of the elevator 1 based on the measurement value of the acceleration sensor 50, When the current position of the elevator 1 determined by the floor number determination unit 80 passes the preset number of floors to be separated by a predetermined distance from the number of floors calling the elevator 1, the air intake unit 20, the air conditioning unit 30 and the air exhaust There is provided a heating and cooling system for an elevator, characterized in that it includes a drive control unit 90 for operating the unit (40).

As described above, according to the present invention, when there is no passenger in the elevator 1, the air conditioning system does not operate, and when the elevator 1 operates, the acceleration sensor 50 detects this and the air conditioning system operates, so that there are no passengers. Since heating and cooling is not performed in this state, electricity consumption is reduced and costs are reduced. At this time, the acceleration sensor 50 for detecting the operation of the elevator 1 is provided integrally with the case 10 of the heating and cooling device, so that it can be installed more conveniently in the existing elevator 1 that is not equipped with a heating and cooling device. In addition, compared to the system that detects the operation of the elevator by connecting the elevator call button and the elevator, the present invention does not require replacement of the call button, so it can be easily installed without stopping the operation of the elevator 1, so that the heating and cooling system can be installed It is convenient because the user does not have to use the stairs during installation.

And since the heating and cooling device can be controlled using the mobile communication terminal 100, the user can easily and quickly adjust the temperature inside the elevator 1, which is lifted before boarding the elevator 1, to the desired temperature, When the user boards, the inside of the elevator 1 is heated and cooled to a temperature desired by the user, so that the user can feel more comfortable.

On the other hand, when the heating and cooling device passes the preset number of floors close to the number of floors called by the user, the control module 60 controls the elevator 1 through the measurement value of the acceleration sensor 50 so that heating and cooling is performed. As the number of floors on which the elevator 1 moves non-stop in a high-rise building increases, it is effectively prevented that the interior of the elevator 1 moves without passengers on board is unnecessarily heated and heated early. That is, as the elevator 1 goes up and down, heating and cooling is not performed immediately, but heating and cooling is performed in the number of floors adjacent to the number of floors called, so that heating and cooling is not performed unnecessarily, further reducing power consumption and further reducing costs.

1 is a perspective view showing an embodiment of a heating and cooling device for an elevator according to the present invention;
2 is a side view showing in detail the installation state of the embodiment;
3 is a view schematically showing the configuration of the embodiment;
4 is a view schematically showing the heating and cooling unit of the embodiment;
5 is a schematic diagram showing control by the mobile communication terminal of the embodiment;
6 is a schematic diagram showing control by a central server in the embodiment;
7 is a flowchart showing the operation of the embodiment;

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, a preferred embodiment of the present invention will be described based on the accompanying drawings.

1 to 7 are views showing a heating/cooling device for elevating according to an embodiment of the present invention. As shown, the heating/cooling device for elevating according to an embodiment of the present invention includes a case 10, an air intake unit 20, a heating/cooling unit 30, an air discharge unit 40, an acceleration sensor 50, and control. module 60 . At this time, as is well known, the vent hole 3 through which the outside air flows is formed at the edge of the ceiling 2 of the elevator 1 .

The case 10 is installed on the rear surface of the ceiling 2 of the elevator 1, and an air inlet 11 and an air outlet 12 are formed on one side and the other side, respectively. 1 and 2, the case 1 is made of a hexahedral shape, and the air intake 11 is formed on the front surface and the air outlet 12 is formed on the upper surface.

The air suction part 20 is provided in the case 10, and the internal air of the elevator 1 through the air suction pipe 13 that communicates the air intake 11 of the case 10 and the inside of the elevator 1 inhale As shown in FIG. 2 , the air intake pipe 13 is preferably connected to one side vent hole 3 formed at the edge of the ceiling 2 of the elevator 1 . The air suction unit 20 is composed of a suction fan (not shown) to suck the internal air of the elevator (1).

The air conditioning unit 30 is installed inside the case 10 and is connected to the air intake unit 20 to cool or heat the air introduced into the air intake unit 20 . As shown in FIG. 4 , the air conditioning unit 30 includes a compressor 31 , a condenser 32 , an expansion valve 33 , an evaporator 34 , and a condensate remover 35 , as is well known. The compressor 31 consists of a compressor that compresses the refrigerant, and the condenser 32 condenses the compressed refrigerant and cools it. The expansion valve 33 expands the condensed refrigerant, and the evaporator 34 evaporates the expanded refrigerant to generate cold air. The condensate remover 35 is installed around the evaporator 34, and the condensed water generated around the evaporator 34 by cold air generated in the evaporator 34 during cooling is evaporated by spraying it to the outside of the elevator.

The air outlet 40 is installed in the case 10, and is cooled in the air conditioning unit 30 through an air outlet pipe 14 that communicates the air outlet 12 of the case 10 and the inside of the elevator 1 Alternatively, the heated air is discharged into the elevator (1). As shown in FIG. 2 , the air discharge pipe 14 is preferably connected to the other side vent hole 3 formed at the edge of the ceiling 2 of the elevator 1 . Accordingly, as shown in FIG. 2 , the air intake pipe 13 and the air exhaust pipe 14 are positioned at opposite edges of the ceiling 2 of the elevator 1, so that the air inside the elevator 1 is moved to the air intake pipe 13. And it can be circulated more effectively by the air discharge pipe (14). The air discharge unit 40 is composed of a discharge fan (not shown) to rapidly discharge cooled or heated air.

The acceleration sensor 50 is provided in the elevator 1 or the case 10 and measures a change in acceleration according to the elevation of the elevator 1 . As shown in FIG. 2 , a form in which the acceleration sensor 50 is integrally provided with the case 10 is exemplified, and accordingly, only the case 10 needs to be installed in the elevator 1 that is not equipped with an air-conditioning device. This is improved.

The control module 60 controls the operation of the air intake unit 20 , the air conditioning unit 30 , and the air discharge unit 40 . The control module 60 operates the air intake unit 20 , the air conditioning unit 30 , and the air discharge unit 40 according to the physical quantity of the acceleration change measured by the acceleration sensor 50 . The control module 60 cools and cools the inside of the elevator 1 in the following manner.

As shown in Fig. 7, when the elevator 1 is lifted by calling the elevator 1 at a predetermined number of floors and the physical amount of the change in acceleration measured by the acceleration sensor 50 exceeds the threshold value, the heating and cooling is driven by the control unit 60, i.e. , the air intake unit 20, the air conditioning unit 30 and the air discharge unit 40 are operated. In this case, the threshold value may be given as an acceleration at the time when the elevator 1 starts to be lifted. As such, when the elevator 1 is lifted, the air inside the elevator 1 is sucked into the case 10, cooled or heated, and then discharged into the elevator 1, so that the inside of the elevator 1 is cool in summer and cool in winter. is in a warm state, and a passenger waiting for the elevator 1 can board the elevator 1 in a comfortable state in summer and warm in winter.

And when the elevator 1 stops at the number of floors called, the physical quantity measured by the acceleration sensor 50 becomes less than the threshold, but the elevator 1 goes up and down again after a passenger boards, so it does not exceed a certain time, The cooling and heating operation continues without stopping. On the other hand, when the elevator 1 stops at the number of floors desired by the passenger, the physical quantity measured by the acceleration sensor 50 becomes less than the threshold value, and the passenger gets off and the elevator 1 stops without going up or down exceeds a certain time. The cooling and heating operation stops. As such, when the elevator 1 is stopped in a state where there are no passengers, heating and cooling are not performed, so unnecessary power consumption is prevented.

In the air conditioning system for an elevator according to an embodiment of the present invention, the control module 60 determines the current position according to the moving distance of the elevator 1 based on the measured value of the acceleration sensor 50. And, if the current position of the elevator 1 determined by the floor number determination unit 80 passes the preset number of floors in a position close to the number of floors calling the elevator 1, the air intake unit 20, the air conditioning unit 30 and a driving control unit 90 for operating the air discharge unit 40 . Here, the mirror set number of floors is, for example, if the number of floors on which the elevator 1 is called is one floor, the number of floors adjacent to the number of floors from which the elevator 1 is called in advance, such as the third floor in a position adjacent to the first floor. is set to At this time, the preset number of floors in a location close to the number of calling floors is the time the air intake unit 20, the air conditioning unit 30 and the air exhaust unit 40 are operated or the temperature is set by cooling and heating the air inside the elevator (1). The temperature may be determined in consideration of the time and the like.

In this way, when the elevator 1 starts to go up and down, the heating and cooling is not performed, but when the heating and cooling is made closer to the number of floors to be called, as the number of high-rise buildings increases, for example, the elevators on the first floor to the 50th floor are called. If there is a problem in that electricity is consumed while heating and cooling is performed unnecessarily while moving to the 50th floor, the present invention can solve such a problem.

The air conditioning system for an elevator according to an embodiment of the present invention is a wireless communication unit that wirelessly communicates with the terminal function unit 101 for controlling the control module 60 through the application of the mobile communication terminal 100 to the control module 60 (70) may be further provided. Accordingly, when the application is installed in the mobile communication terminal 100, the elevator 1 is called and the air intake unit 20, the air conditioning unit 30 and the air exhaust unit of the heating and cooling device through the mobile communication terminal 100 ( 40) can be operated and the temperature or air volume can be adjusted, so the user can control the desired degree of heating and cooling before boarding the elevator 1, so that the user can board the elevator 1 in a more comfortable environment. be able to do

The heating/cooling device for an elevator according to an embodiment of the present invention may further include a central server 120 for centrally controlling the heating/cooling devices installed in the plurality of elevators (1). The central server 120 is configured to communicate with the control module 60 of the air conditioning unit installed in the plurality of elevators 1 in a wired or wireless manner, and can control the operation of each air conditioning unit. The central server 120 may be used in a manner of installing a new program to the existing one provided for the operation of the elevator 1 .

In the heating and cooling apparatus for an elevator according to an embodiment of the present invention, the operation panel 110 may be further installed inside the elevator 1 . This operation panel 110 is designed to control the temperature, air volume, etc. of the air conditioning system, and can easily adjust the temperature desired by the passenger of the elevator 1 .

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

1: Elevator 2: Ceiling
10: case 20: air intake
30: air conditioning unit 40: air exhaust unit
50: acceleration sensor 60: control module
70: wireless communication unit 80: floor number determination unit
90: drive control unit 100: mobile communication terminal
110: operation panel 120: central server

Claims (3)

a case 10 installed on the rear surface of the ceiling 2 of the elevator 1 and having an air intake 11 and an air outlet 12 formed on one side and the other side, respectively;
The elevator is provided in the case 10 and communicates with the air intake 11 of the case 10 and the one-side vent hole 3 formed at the edge of the ceiling 2 of the elevator 1 through the air intake pipe 13. (1) an air intake unit 20 for sucking the internal air;
a heating/cooling unit 30 provided in the case 10 and cooling or heating the air sucked through the air suction unit 20;
The air outlet 12 of the case 10 and the other side vent 3 of the ceiling 2 of the elevator 1 and an air discharge unit 40 for discharging into the interior of the elevator 1 through the communicating air discharge pipe 14;
an acceleration sensor (50) provided in the case (10) and measuring a change in acceleration according to the elevation of the elevator (1); and
A control module (60) for controlling the operation of the air intake unit (20), the air conditioning unit (30) and the air discharge unit (40) according to the physical quantity of the change in the acceleration of the elevator (1) measured by the acceleration sensor (50) including;
The control module 60 includes a floor number determination unit 80 that determines the current position according to the moving distance of the elevator 1 based on the measurement value of the acceleration sensor 50, and the elevator determined by the floor number determination unit 80. When the current location of (1) passes the preset number of floors close to the number of floors calling the elevator (1), a drive control unit that operates the air intake unit 20, the air conditioning unit 30 and the air discharge unit 40 (90) Air conditioning system for elevators, characterized in that it comprises. According to claim 1, wherein the control module (60) is further provided with a wireless communication unit (70) for wireless communication with a terminal function unit (101) for controlling the control module (60) through an application of the mobile communication terminal (100) Heating and cooling system for an elevator, characterized in that it has been delete

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