CN217516458U - Elevator control system - Google Patents

Abstract

The application relates to an elevator control system, which comprises a controller, a clock module, an infrared detection module and a lighting device; the controller is respectively connected with the clock module, the infrared detection module and the lighting device; the lighting device comprises a main lighting lamp and an auxiliary lighting lamp which are different in power, and the main lighting lamp and the auxiliary lighting lamp are both connected with the controller; the infrared detection module is used for outputting a first detection signal when a passenger is detected; the clock module is used for outputting a clock signal in real time; the controller is used for receiving a first detection signal and a clock signal, and outputting a first illumination signal when the clock signal reflects time in a first preset time interval; the lighting device receives the first lighting signal and starts the main lighting lamp to work in response to the first lighting signal. The passenger riding experience improving method and device have the effect of improving the passenger riding experience.

Description

Elevator control system

Technical Field

The application relates to the field of elevator technology, in particular to an elevator control system.

Background

With the development of the building industry and the continuous construction of high-rise buildings, elevators become indispensable building equipment of the high-rise buildings and public places, the arrangement of the elevators can facilitate passengers to pass through, but the existing elevators and equipment such as lighting equipment in elevator cars work according to fixed power, and the elevator riding experience is poor for a long time.

With respect to the related art in the above, the inventor believes that there is a defect that the elevator cannot intelligently adjust the internal brightness, resulting in uncomfortable riding experience.

SUMMERY OF THE UTILITY MODEL

In order to improve the riding experience of an elevator, the application provides an elevator control system.

The application provides an elevator control system adopts following technical scheme:

an elevator control system comprises a controller, a clock module, an infrared detection module and a lighting device; the controller is respectively connected with the clock module, the infrared detection module and the lighting device; the lighting device comprises a main lighting lamp and an auxiliary lighting lamp which are different in power, and the main lighting lamp and the auxiliary lighting lamp are both connected with the controller;

the infrared detection module is used for outputting a first detection signal when a passenger is detected;

the clock module is used for outputting a clock signal in real time;

the controller is used for receiving a first detection signal and a clock signal, and outputting a first illumination signal when the clock signal reflects time in a first preset time interval;

the lighting device receives the first lighting signal and starts the main lighting lamp to work in response to the first lighting signal.

By adopting the technical scheme, the infrared detection module detects a passenger and outputs a first detection signal, the clock module outputs a clock signal, the controller receives the clock signal and the first detection signal, and outputs a first illumination signal when the time reflected by the clock signal is within a first preset time interval, and the illumination device receives the first illumination signal and responds to the first illumination signal to start the main illumination lamp to work; when the time reflected by the clock signal is within a second preset time interval, the controller outputs a second illumination signal; the lighting device receives the second lighting signal and responds to the second lighting signal to start the auxiliary lighting lamp to work; when the infrared detection module detects that no person exists, a second detection signal is output, the controller receives the second detection signal and outputs a closing signal, and the lighting device receives the closing signal and closes; thereby realizing the integral regulation and control of the brightness in the elevator and improving the riding comfort.

Optionally, the power of the main illuminating lamp is greater than that of the auxiliary illuminating lamp.

By adopting the technical scheme, the power of the main illuminating lamp is greater than that of the auxiliary illuminating lamp, and the main illuminating lamp is started in daytime to enable the internal and external brightness of the elevator to be similar; the auxiliary illuminating lamp is turned on at night, so that the brightness difference inside and outside the elevator is reduced, and the passenger experience is improved.

Optionally, the elevator further comprises a temperature sensor and an air conditioner, the temperature sensor and the air conditioner are both connected with the controller, the temperature sensor is used for detecting the temperature in the elevator in real time and outputting a temperature detection signal, the controller receives the temperature detection signal, when a temperature value reflected by the temperature detection signal is larger than a preset value, a refrigeration signal is output, and the air conditioner is used for receiving the refrigeration signal and responds to the refrigeration signal to work.

By adopting the technical scheme, the temperature sensor is used for detecting the temperature in the elevator in real time and outputting a temperature detection signal, the controller receives the temperature detection signal, when the temperature value reflected by the temperature detection signal is greater than a first preset value, a refrigeration signal is output, and the air conditioner receives the refrigeration signal and responds to the refrigeration signal to work; when the temperature is lower than a second preset value, outputting a heating signal; the air conditioner receives the heating signal and responds to the heating signal to work, so that the regulation and control of the temperature inside the elevator are realized, and the riding comfort of the elevator is improved.

Optionally, the system further comprises a gas detection module and an exhaust fan, wherein the gas detection module and the exhaust fan are both connected with the controller, the gas detection module is used for detecting the content of the gas to be detected in the elevator in real time and outputting a content detection signal, the controller receives the content detection signal, and when the content of the gas to be detected reflected by the content detection signal is higher than a preset content, the controller outputs a ventilation signal; the exhaust fan is used for receiving the ventilation signal and responding to the ventilation signal to work.

By adopting the scheme, the gas detection module is used for detecting the content of the gas to be detected in the elevator in real time and outputting a content detection signal, the controller receives the content detection signal, and when the content of the gas to be detected reflected by the content detection signal is higher than the preset content, a ventilation signal is output; the exhaust fan is used for receiving the ventilation signal and responds to the ventilation signal to work, so that the replacement of gas in the elevator car is realized, and the riding comfort of the elevator is improved.

Optionally, the elevator monitoring system further comprises a camera and a monitoring platform, the controller is connected with the camera and the monitoring platform respectively, the camera is used for collecting image information in the elevator and outputting image collecting signals, the controller receives the image collecting signals and outputs display signals, and the monitoring platform receives the display signals and displays the display signals.

Through adopting above-mentioned technical scheme, can monitor elevator inside, improve the security of elevator, and then improve passenger's the experience of taking.

Optionally, the monitoring platform further comprises a wireless communication module, the wireless communication module is connected with the controller, and the controller is in communication connection with the monitoring platform through the wireless communication module.

Through adopting above-mentioned technical scheme, the controller passes through wireless communication module with the supervision platform and is connected, has reduced the maintenance cost of laying cost and later stage.

Optionally, the lighting system further comprises a control panel, the control panel is connected to the controller, the control panel is used for inputting a first lighting instruction, and the controller receives the first lighting instruction and outputs a first lighting signal.

Through adopting above-mentioned technical scheme, the passenger can be through control panel initiative regulation light or air conditioner temperature and take a breath, has improved passenger's the experience of taking.

Optionally, the elevator system further comprises a standby power supply, wherein the standby power supply is used for supplying power to electric equipment in the elevator.

Through adopting above-mentioned technical scheme, when elevator trouble or power failure, stand-by power supply can improve the reliability of elevator for equipment power supply.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the infrared detection module can detect passengers, when the passengers take the elevator, the controller starts different illuminating lamps according to the implementation signal of the clock module and according to a preset time period, and the illuminating lamps are not started to save energy when no people exist, so that the brightness in the elevator is adjusted, and the riding experience of the passengers is improved;

2. the temperature sensor, the controller and the air conditioner can automatically adjust the temperature in the elevator car, so that the riding experience of passengers is improved;

3. the passenger passes through control panel can manual regulation in the elevator car light, temperature and take a breath, has improved passenger's the experience of taking.

Drawings

Fig. 1 is a system schematic diagram of a part of an elevator control system according to an embodiment of the present application.

Fig. 2 is an overall system schematic diagram of an elevator control system according to an embodiment of the present application.

Description of reference numerals: 1. a controller; 2. a clock module; 3. an infrared detection module; 4. an illumination device; 41. a main lighting lamp; 42. a secondary illuminating lamp; 51. a temperature sensor; 52. an air conditioner; 61. a gas detection module; 62. an exhaust fan; 7. a camera; 8. a monitoring platform; 9. a wireless communication module; 10. a control panel; 11. a standby power supply.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is further described in detail below with reference to fig. 1-2 and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The embodiment of the application discloses an elevator control system. Referring to fig. 1 and 2, an elevator control system includes a controller 1, a clock module 2, an infrared detection module 3, and a lighting device 4; the lighting device 4 comprises a main lighting lamp 41 and an auxiliary lighting lamp 42, and the controller 1 is respectively connected with the clock module 2, the infrared detection module 3, the main lighting lamp 41 and the auxiliary lighting lamp 42. The main illuminating lamp 41 and the auxiliary illuminating lamp 42 are both connected with the controller 1, and the power of the main illuminating lamp 41 is greater than that of the auxiliary illuminating lamp 42;

in order to improve the visual experience of passengers, lamps with different brightness are arranged in the elevator for illumination, so that the outdoor brightness is high in daytime, and the proper bright environment is a high-brightness environment when the passengers enter the elevator, so that the main illuminating lamp 41 is turned on for illumination, the clock module 2 outputs a clock signal in real time, and the controller 1 receives the clock signal; when the infrared detection module 3 detects a person, outputting a first detection signal; the controller 1 receives the first detection signal, and outputs a first illumination signal when the time reflected by the clock signal is within a first preset time interval, and the main illumination lamp 41 receives the first illumination signal and works in response to the first illumination signal; at night, the outdoor brightness is low, passengers enter a suitable bright environment of the elevator to be in a low-brightness environment, therefore, the auxiliary illuminating lamp 42 is turned on to illuminate, when the time reflected by the clock signal is within a second preset time interval, a second illuminating signal is output, and the auxiliary illuminating lamp 42 receives the second illuminating signal and responds to the second illuminating signal to work; when the infrared detection module 3 detects that no person exists, a second detection signal is output, the controller 1 receives the second detection signal and outputs a closing signal, and the lighting device 4 receives the closing signal and closes; the control of illumination in the elevator is realized, and the visual experience of passengers is improved.

Referring to fig. 1, in order to regulate the temperature in the elevator, a temperature sensor 51 and an air conditioner 52 are further included, the temperature sensor 51 is connected with the controller 1; the temperature sensor is used for detecting the temperature in the elevator and outputting a temperature detection signal; the controller 1 receives the temperature detection signal, outputs a refrigeration signal when the temperature value reflected by the temperature detection signal is greater than a first preset value, and the air conditioner 52 receives the refrigeration signal for refrigeration; when the temperature value reflected by the temperature detection signal is smaller than the second preset value, a heating signal is output, and the air conditioner 52 receives the heating signal for heating; the temperature in the elevator can be adjusted, the riding experience of passengers is improved, meanwhile, when the temperature is in the first preset temperature and the second preset temperature, the air conditioner 52 does not work, and energy consumption is reduced.

Referring to fig. 2, in order to realize automatic replacement of air in the elevator, the elevator further includes a gas detection module 61 and an exhaust fan 62, in this embodiment, the gas detection module 61 is a carbon dioxide sensor, and the carbon dioxide sensor is connected to the controller 1; the carbon dioxide sensor is used for detecting the content of carbon dioxide in the elevator and outputting a content detection signal; the controller 1 receives the content detection signal, and outputs a ventilation signal when the content of carbon dioxide reflected by the content detection signal is higher than a preset value; the exhaust fan 62 receives the ventilation signal and works in response to the ventilation signal, so that the replacement of air in the elevator is realized, and the riding experience of passengers is improved.

Referring to fig. 1, in order to enable a passenger to manually adjust the environment in the elevator car, the elevator car further includes a control panel 10, the control panel 10 is connected to the controller 1, and the passenger can manually adjust the temperature and light in the elevator car through the control panel 10 and operate the exhaust fan 62 to perform ventilation, thereby improving the riding experience of the passenger.

Referring to fig. 1, in order to improve the safety of the elevator, the embodiment of the present application further includes a camera 7, a monitoring platform 8 and a standby power supply 11; the controller 1 is respectively connected with the camera 7, the monitoring platform 8 and the help caller; the camera 7 is used for collecting image information in the elevator and outputting an image collecting signal, the controller 1 receives the image collecting signal and outputs a display signal, and the monitoring platform 8 receives and displays the display signal; the standby power supply 11 is connected with the controller 1, the clock module 2, the infrared detection module 3, the lighting device 4, the temperature detection module, the air conditioner 52, the gas detection module 61, the exhaust fan 62, the camera 7 and the control panel 10, so that power can be continuously supplied when the elevator fails or is in power failure, and the reliability of the elevator is improved; thereby improve the security of elevator, and then improve the taking experience of elevator.

Referring to fig. 1, in order to reduce the overall change of the elevator, the embodiment of the present application further includes a wireless communication module 9, where the wireless communication module 9 is connected to the controller 1, and is used to implement communication connection between the controller 1 and the monitoring platform 8, so as to reduce the wiring cost and the maintenance cost in the later period.

The implementation principle of the elevator control system in the embodiment of the application is as follows: the clock module 2 outputs a clock signal in real time, and the controller 1 receives the clock signal; the infrared detection module 3 detects that the passenger outputs a first detection signal; the controller 1 receives the first detection signal, and outputs a first illumination signal when the time reflected by the clock signal is within a preset time interval; the main illumination lamp 41 receives the first illumination signal and operates in response to the first illumination signal; when the infrared detection module 3 detects that no person exists, outputting a second detection signal; the controller 1 receives the second detection signal and outputs a closing signal; the main illumination lamp 41 receives the turn-off signal to turn off; when the time reflected by the clock signal is not within a preset time interval, outputting a second illumination signal; the sub illumination lamp 42 receives the second illumination signal and operates in response to the second illumination signal; when the infrared detection module 3 detects that no person exists, outputting a second detection signal; the controller 1 receives the second detection signal and outputs a closing signal; the auxiliary illuminating lamp 42 receives the closing signal to be closed, so that the light is adjusted, and the riding experience of passengers is improved.

The foregoing is a preferred embodiment of the present application and is not intended to limit the scope of the application in any way, and any features disclosed in this specification (including the abstract and drawings) may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Claims (8)

1. An elevator control system characterized by: the device comprises a controller (1), a clock module (2), an infrared detection module (3) and a lighting device (4); the controller (1) is respectively connected with the clock module (2), the infrared detection module (3) and the lighting device (4); the lighting device (4) comprises a main lighting lamp (41) and an auxiliary lighting lamp (42) which are different in power, and the main lighting lamp (41) and the auxiliary lighting lamp (42) are both connected with the controller (1);

the infrared detection module (3) is used for outputting a first detection signal when a passenger is detected;

the clock module (2) is used for outputting a clock signal in real time;

the controller (1) is used for receiving a first detection signal and a clock signal, and outputting a first illumination signal when the clock signal reflects time in a first preset time interval;

the lighting device (4) receives the first lighting signal and starts the main lighting lamp (41) to work in response to the first lighting signal.

2. The elevator control system of claim 1, wherein: the power of the main illuminating lamp (41) is larger than that of the auxiliary illuminating lamp (42).

3. The elevator control system of claim 1, wherein: the elevator temperature control system is characterized by further comprising a temperature sensor (51) and an air conditioner (52), wherein the temperature sensor (51) and the air conditioner (52) are both connected with the controller (1), the temperature sensor (51) is used for detecting the temperature in the elevator in real time and outputting a temperature detection signal, the controller (1) receives the temperature detection signal, when the temperature value reflected by the temperature detection signal is larger than a preset value, a refrigeration signal is output, and the air conditioner (52) is used for receiving the refrigeration signal and works in response to the refrigeration signal.

4. The elevator control system of claim 1, wherein: the gas detection module (61) and the exhaust fan (62) are both connected with the controller (1), the gas detection module (61) is used for detecting the content of gas to be detected in the elevator in real time and outputting a content detection signal, the controller (1) receives the content detection signal, and when the content of the gas to be detected reflected by the content detection signal is higher than a preset content, a ventilation signal is output; the exhaust fan (62) is configured to receive the ventilation signal and operate in response to the ventilation signal.

5. The elevator control system of claim 1, wherein: the elevator monitoring system is characterized by further comprising a camera (7) and a monitoring platform (8), the controller (1) is connected with the camera (7) and the monitoring platform (8) respectively, the camera (7) is used for collecting image information in the elevator and outputting image collection signals, the controller (1) receives the image collection signals and outputs display signals, and the monitoring platform (8) receives the display signals and displays the display signals.

6. The elevator control system of claim 5, wherein: the monitoring platform is characterized by further comprising a wireless communication module (9), wherein the wireless communication module (9) is connected with the controller (1), and the controller (1) is in communication connection with the monitoring platform (8) through the wireless communication module (9).

7. The elevator control system of claim 1, wherein: the lighting control system is characterized by further comprising a control panel (10), wherein the control panel (10) is connected with the controller (1), the control panel (10) is used for inputting a first lighting instruction, and the controller (1) receives the first lighting instruction and outputs a first lighting signal.

8. The elevator control system of claim 1, wherein: the elevator system also comprises a standby power supply (11), wherein the standby power supply (11) is used for supplying power to electric equipment in the elevator.

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