CN111960226A - Elevator internal environment adjusting system based on data acquisition - Google Patents

Abstract

The invention discloses an elevator internal environment adjusting system based on data acquisition, which comprises a data acquisition module, a processor module, an execution module and a feedback module, and aims to provide the elevator internal environment adjusting system based on the data acquisition, which is used for solving the problem that the existing elevator internal environment cannot be accurately adjusted; according to the invention, the temperature value and the illuminance value are collected and the temperature adjusting value and the illuminance adjusting value are calculated for the elevator, so that the temperature and the illuminance in the elevator can be conveniently adjusted, and the situation that the outgoing and riding experience of residents is influenced due to improper elevator adjustment is avoided.

Description

Elevator internal environment adjusting system based on data acquisition

Technical Field

The invention relates to an environment adjusting system, in particular to an elevator internal environment adjusting system based on data acquisition, and belongs to the technical field of elevator intelligent adjustment.

Background

An elevator is a transportation device that transports pedestrians or goods vertically. The elevator serves a building of a prescribed floor, and the vertical lift elevator has a cage which runs between at least two rows of vertical or rigid guide rails having an inclination angle of less than fifteen degrees, and is convenient for passengers to get in and out or load and unload goods, and can be divided into a low-speed elevator, a high-speed elevator and a high-speed elevator according to the speed. With the continuous aggravation of the competition of the elevator industry, the co-purchasing integration and capital operation among large elevator enterprises become more and more frequent, and the excellent elevator production enterprises in China increasingly attach importance to the research on the industry market, particularly the deep research on the trend change of the development environment and the customer demand of the enterprises. The entrance of the foreign capital brands brings international technical standards, management concepts and operation modes for the industry, so that the domestic elevator rapidly enters the international ranks.

At present, most of researchers dedicated to elevator research are only researching one aspect of the elevator, and the research is not comprehensive, for example, some improvements on the elevator only focus on aspects such as variable speed regulation, running speed, parallel control, and special use for various elevators, and the research on elevator intelligent identification control, temperature regulation systems, automatic illumination regulation and the like is less, and with the increasingly prominent energy problems and the higher requirements of people on life quality, the research and application on the aspects of elevator energy saving technology and safety and comfort are targets of numerous elevator manufacturers. Pure energy-saving technology such as the latest energy-saving regenerator only reuses the mechanical potential energy of the elevator, and does not relate to the redundant energy consumption of the elevator.

Disclosure of Invention

The invention aims to provide an elevator internal environment adjusting system based on data acquisition, which is used for solving the problem that the existing elevator internal environment cannot be accurately adjusted; according to the invention, the temperature value and the illuminance value are collected and the temperature adjusting value and the illuminance adjusting value are calculated for the elevator, so that the temperature and the illuminance in the elevator can be conveniently adjusted, and the situation that the outgoing and riding experience of residents is influenced due to improper elevator adjustment is avoided.

The purpose of the invention can be realized by the following technical scheme:

an elevator internal environment adjusting system based on data acquisition comprises a data acquisition module, a processor module, an execution module and a feedback module;

the data acquisition module is used for acquiring the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator and sending the values to the processor module, the processor module is used for analyzing and processing the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator, and the specific analysis and processing steps are as follows:

the method comprises the following steps: the data acquisition module acquires an elevator external temperature value, the elevator external temperature value is marked as Ti, i is 1, … … and n, and the elevator external temperature value acquired by the data acquisition module is sent to the processor module; the data acquisition module acquires the temperature value in the elevator, marks the temperature value in the elevator as Pi, and sends the temperature value in the elevator acquired by the data acquisition module to the processor module;

step two: the data acquisition module acquires the number of people in the elevator, marks the number of people in the elevator as Ri, and sends the number of people in the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires the volume value of the residual space in the elevator, marks the volume value of the residual space in the elevator as Vi, and sends the volume value of the residual space in the elevator acquired by the data acquisition module to the processor module;

step three: setting a temperature threshold, and marking the temperature threshold as Si;

obtaining a temperature threshold value Si by using a formula d (Si-Pi)2+ e (Pi-Si) + f ═ 0, and if Si is greater than 0, not performing temperature adjustment; if Si is less than 0, temperature adjustment is carried out, the processor module sends an adjustment instruction to the adjustment module, and d, e and f are preset adjustment factors;

step four: the adjusting module sets a temperature adjusting value and marks the temperature adjusting value as Ai;

using formulas

Obtaining a temperature adjusting value Ai, wherein a, b and c are preset adjusting factors;

step five: the adjusting module sends the temperature adjusting value to the processor module, the processor module sends an adjusting instruction to the executing module, and meanwhile, the processor module sends a secondary acquisition instruction to the feedback module;

step six: after the execution module receives the adjusting instruction, the execution module controls the intelligent air conditioner to adjust the temperature, after the feedback module receives a secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, the data acquisition module controls the internal temperature sensor to acquire the internal temperature of the elevator, and the internal temperature value is marked as Ki;

step seven: when Ki is Ti + Ai, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the intelligent air conditioner from operating after receiving the stop instruction.

The data acquisition module is also used for acquiring the illuminance value in the elevator and sending the illuminance value of the elevator to the processor module, the processor module is used for analyzing and processing the illuminance value inside and outside the elevator, and the specific analyzing and processing steps are as follows:

s1, the data acquisition module acquires an outside illumination value of the elevator, marks the outside illumination value of the elevator as Gi, i is 1, … … and n, and sends the outside illumination value of the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires an illumination value in the elevator, marks the illumination value in the elevator as Hi, and sends the illumination value in the elevator acquired by the data acquisition module to the processor module;

s2, setting a light illumination adjusting value Li by the adjusting module;

using formulas

Obtaining a temperature regulating value Li, wherein lambda, mu, m and n are preset regulating factors;

s3, the adjusting module sends the illuminance adjusting value Li to the processor module, the processor module sends an adjusting instruction to the executing module, and the processor module sends a secondary acquisition instruction to the feedback module;

s4, after receiving the adjusting instruction, the execution module controls the adjustable illuminating lamp to adjust the illuminance, after receiving the secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, and the data acquisition module controls the internal illuminance sensor to acquire the illuminance inside the elevator and marks the internal illuminance as Pi;

and S5, when Pi is Gi + Li, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the operation of the adjustable lighting lamp after receiving the stop instruction.

Preferably, the execution module comprises an intelligent air conditioner, an adjustable illuminating lamp and a power module, and the power module supplies power to the intelligent air conditioner and the adjustable illuminating lamp.

Preferably, the data acquisition module comprises a temperature sensor, an illuminance sensor and a direct current power supply module, wherein the temperature sensor and the illuminance sensor are used for acquiring an internal temperature value and an external temperature value and an illuminance value of the elevator, and the direct current power supply module supplies power to the temperature sensor and the illuminance sensor.

Preferably, the feedback module is configured to receive a secondary acquisition instruction of the processor module, and send the acquisition instruction to the data acquisition module after receiving the secondary acquisition instruction.

Compared with the prior art, the invention has the beneficial effects that:

1. the data acquisition module comprises a temperature sensor, a illuminance sensor and a direct-current power supply module, the temperature sensor and the illuminance sensor are directly powered by the direct-current power supply module, the influence of public alternating current on the condition that the temperature sensor and the illuminance sensor cannot be directly powered is avoided, the execution module comprises an intelligent air conditioner, an adjustable illuminating lamp and a power supply module, the power supply module is also adopted to directly power the intelligent air conditioner and the adjustable illuminating lamp, the interference on the running power consumption of the elevator is avoided, and the normal running of the elevator is influenced, so that the riding experience of residents and passengers is influenced.

2. The data acquisition module, the processor module and the execution module are used for monitoring and smoothly adjusting the internal and external environments of the elevator, the feedback module is used for confirming the adjustment capability and the adjustment result, the feedback module receives the adjustment instruction and sends a secondary acquisition instruction to the data acquisition module at the same time, the functions of the intelligent air conditioner and the adjustable lighting lamp are checked, and meanwhile, the situation that the elevator environment is worse due to the fact that the temperature is excessively adjusted because the intelligent air conditioner and the adjustable lighting lamp are operated all the time and the riding experience is influenced is prevented.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an elevator internal environment adjusting system based on data acquisition includes a data acquisition module, a processor module, an execution module, and a feedback module;

the data acquisition module is used for acquiring the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator and sending the values to the processor module, the processor module is used for analyzing and processing the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator, and the specific analysis and processing steps are as follows:

the method comprises the following steps: the data acquisition module acquires an elevator external temperature value, the elevator external temperature value is marked as Ti, i is 1, … … and n, and the elevator external temperature value acquired by the data acquisition module is sent to the processor module; the data acquisition module acquires the temperature value in the elevator, marks the temperature value in the elevator as Pi, and sends the temperature value in the elevator acquired by the data acquisition module to the processor module;

step two: the data acquisition module acquires the number of people in the elevator, marks the number of people in the elevator as Ri, and sends the number of people in the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires the volume value of the residual space in the elevator, marks the volume value of the residual space in the elevator as Vi, and sends the volume value of the residual space in the elevator acquired by the data acquisition module to the processor module;

step three: setting a temperature threshold, marking the temperature threshold as Si, obtaining the temperature threshold Si by using a formula d (Si-Pi)2+ e (Pi-Si) + f as 0, and if Si is greater than 0, not performing temperature adjustment; if Si is less than 0, temperature adjustment is carried out, the processor module sends an adjustment instruction to the adjustment module, and d, e and f are preset adjustment factors;

step four: the adjusting module sets a temperature adjusting value and marks the temperature adjusting value as Ai;

using formulas

Obtaining a temperature adjusting value Ai, wherein a, b and c are preset adjusting factors;

step five: the adjusting module sends the temperature adjusting value to the processor module, the processor module sends an adjusting instruction to the executing module, and meanwhile, the processor module sends a secondary acquisition instruction to the feedback module;

step six: after the execution module receives the adjusting instruction, the execution module controls the intelligent air conditioner to adjust the temperature, after the feedback module receives a secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, the data acquisition module controls the internal temperature sensor to acquire the internal temperature of the elevator, and the internal temperature value is marked as Ki;

step seven: when Ki is Ti + Ai, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the intelligent air conditioner from operating after receiving the stop instruction.

The data acquisition module is also used for acquiring the illuminance value in the elevator and sending the illuminance value of the elevator to the processor module, the processor module is used for analyzing and processing the illuminance value inside and outside the elevator, and the specific analyzing and processing steps are as follows:

s1, the data acquisition module acquires an outside illumination value of the elevator, marks the outside illumination value of the elevator as Gi, i is 1, … … and n, and sends the outside illumination value of the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires an illumination value in the elevator, marks the illumination value in the elevator as Hi, and sends the illumination value in the elevator acquired by the data acquisition module to the processor module;

s2, setting a light illumination adjusting value Li by the adjusting module;

using formulas

Obtaining a temperature regulating value Li, wherein lambda, mu, m and n are preset regulating factors;

s3, the adjusting module sends the illuminance adjusting value Li to the processor module, the processor module sends an adjusting instruction to the executing module, and the processor module sends a secondary acquisition instruction to the feedback module;

s4, after receiving the adjusting instruction, the execution module controls the adjustable illuminating lamp to adjust the illuminance, after receiving the secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, and the data acquisition module controls the internal illuminance sensor to acquire the illuminance inside the elevator and marks the internal illuminance as Pi;

and S5, when Pi is Gi + Li, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the operation of the adjustable lighting lamp after receiving the stop instruction.

The execution module comprises an intelligent air conditioner, an adjustable illuminating lamp and a power module, and the power module supplies power to the intelligent air conditioner and the adjustable illuminating lamp.

The data acquisition module comprises a temperature sensor, an illuminance sensor and a direct-current power supply module, wherein the temperature sensor and the illuminance sensor are used for acquiring an internal temperature value and an external temperature value and an illuminance value of the elevator, and the direct-current power supply module supplies power to the temperature sensor and the illuminance sensor.

The feedback module is used for receiving a secondary acquisition instruction of the processor module and sending the acquisition instruction to the data acquisition module after receiving the secondary acquisition instruction.

The above formulas are all quantitative calculation, the formula is a formula obtained by acquiring a large amount of data and performing software simulation to obtain the latest real situation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The working principle of the invention is as follows: the data acquisition module is used for acquiring the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator and sending the values to the processor module; setting a temperature threshold Si, calculating the temperature threshold Si by using a formula, and if Si is greater than 0, not adjusting the temperature; if Si is less than 0, temperature adjustment is carried out, and the processor module sends an adjustment instruction to the adjustment module; the adjusting module sets a temperature adjusting value, and obtains the temperature adjusting value by using a formula; the adjusting module sends the temperature adjusting value to the processor module, the processor module sends an adjusting instruction to the executing module, and meanwhile, the processor module sends a secondary acquisition instruction to the feedback module; after the execution module receives the adjusting instruction, the execution module controls the intelligent air conditioner to adjust the temperature, after the feedback module receives a secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, the data acquisition module controls the internal temperature sensor to acquire the internal temperature of the elevator, and the internal temperature value is marked as Ki; when Ki is Ti + Ai, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the intelligent air conditioner from operating after receiving the stop instruction.

The data acquisition module is also used for acquiring the illumination value in the elevator and sending the illumination value of the elevator to the processor module, and the data acquisition module acquires the illumination value outside the elevator and sends the illumination value outside the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires the illumination value in the elevator and sends the illumination value in the elevator acquired by the data acquisition module to the processor module; the adjusting module sets a light illumination adjusting value and obtains a temperature adjusting value by using a formula; the adjusting module sends the illuminance adjusting value to the processor module, the processor module sends an adjusting instruction to the execution module, and meanwhile the processor module sends a secondary acquisition instruction to the feedback module; after the execution module receives the adjusting instruction, the execution module controls the adjustable illuminating lamp to adjust the illuminance, the feedback module receives a secondary acquisition instruction of the processor module and then sends the secondary acquisition instruction to the data acquisition module, and the data acquisition module controls the internal illuminance sensor to acquire the illuminance inside the elevator and marks the internal illuminance as Pi; when Pi is Gi + Li, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the operation of the adjustable lighting lamp after receiving the stop instruction.

According to the invention, the temperature value and the illuminance value are collected and the temperature adjusting value and the illuminance adjusting value are calculated for the elevator, so that the temperature and the illuminance in the elevator can be conveniently adjusted, and the situation that the outgoing and riding experience of residents is influenced due to improper elevator adjustment is avoided.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (4)

1. An elevator internal environment adjusting system based on data acquisition is characterized by comprising a data acquisition module, a processor module, an adjusting module, an execution module and a feedback module;

the data acquisition module is used for acquiring the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator and sending the values to the processor module, the processor module is used for analyzing and processing the internal and external temperature values of the elevator, the volume value of the residual space in the elevator and the number value of the personnel in the elevator, and the specific analysis and processing steps are as follows:

the method comprises the following steps: the data acquisition module acquires an elevator external temperature value, the elevator external temperature value is marked as Ti, i is 1, … … and n, and the elevator external temperature value acquired by the data acquisition module is sent to the processor module; the data acquisition module acquires the temperature value in the elevator, marks the temperature value in the elevator as Pi, and sends the temperature value in the elevator acquired by the data acquisition module to the processor module;

step two: the data acquisition module acquires the number of people in the elevator, marks the number of people in the elevator as Ri, and sends the number of people in the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires the volume value of the residual space in the elevator, marks the volume value of the residual space in the elevator as Vi, and sends the volume value of the residual space in the elevator acquired by the data acquisition module to the processor module;

step three: setting a temperature threshold, and marking the temperature threshold as Si;

using the formula d (Si-Pi)²Determining the temperature threshold Si when + e (Pi-Si) + f is 0>0, no temperature regulation is carried out; if Si<0, adjusting the temperature, sending an adjusting instruction to an adjusting module by the processor module, wherein d, e and f are preset adjusting factors;

step four: the adjusting module sets a temperature adjusting value and marks the temperature adjusting value as Ai;

using formulas

Obtaining a temperature adjusting value Ai, wherein a, b and c are preset adjusting factors；

Step five: the adjusting module sends the temperature adjusting value to the processor module, the processor module sends an adjusting instruction to the executing module, and meanwhile, the processor module sends a secondary acquisition instruction to the feedback module;

step six: after the execution module receives the adjusting instruction, the execution module controls the intelligent air conditioner to adjust the temperature, after the feedback module receives a secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, the data acquisition module controls the internal temperature sensor to acquire the internal temperature of the elevator, and the internal temperature value is marked as Ki;

step seven: when Ki is Ti + Ai, the feedback module sends a stopping instruction to the processor module, and the processor module sends the stopping instruction to the execution module to stop the intelligent air conditioner from running after receiving the stopping instruction;

the data acquisition module is also used for acquiring the illuminance value in the elevator and sending the illuminance value of the elevator to the processor module, the processor module is used for analyzing and processing the illuminance value inside and outside the elevator, and the specific analyzing and processing steps are as follows:

s1, the data acquisition module acquires an outside illumination value of the elevator, marks the outside illumination value of the elevator as Gi, i is 1, … … and n, and sends the outside illumination value of the elevator acquired by the data acquisition module to the processor module; the data acquisition module acquires an illumination value in the elevator, marks the illumination value in the elevator as Hi, and sends the illumination value in the elevator acquired by the data acquisition module to the processor module;

s2, setting a light illumination adjusting value Li by the adjusting module;

using formulas

Obtaining a temperature regulating value Li, wherein lambda, mu, m and n are preset regulating factors;

s3, the adjusting module sends the illuminance adjusting value Li to the processor module, the processor module sends an adjusting instruction to the executing module, and the processor module sends a secondary acquisition instruction to the feedback module;

s4, after receiving the adjusting instruction, the execution module controls the adjustable illuminating lamp to adjust the illuminance, after receiving the secondary acquisition instruction of the processor module, the feedback module sends the secondary acquisition instruction to the data acquisition module, and the data acquisition module controls the internal illuminance sensor to acquire the illuminance inside the elevator and marks the internal illuminance as Pi;

and S5, when Pi is Gi + Li, the feedback module sends a stop instruction to the processor module, and the processor module sends the stop instruction to the execution module to stop the operation of the adjustable lighting lamp after receiving the stop instruction.

2. The system for regulating the internal environment of an elevator based on data acquisition according to claim 1, characterized in that: the execution module comprises an intelligent air conditioner, an adjustable illuminating lamp and a power module, and the power module supplies power for the intelligent air conditioner and the adjustable illuminating lamp.

3. The system for regulating the internal environment of an elevator based on data acquisition according to claim 1, characterized in that: the data acquisition module comprises a temperature sensor, an illuminance sensor and a direct current power supply module, wherein the temperature sensor and the illuminance sensor are used for acquiring the temperature value and the illuminance value inside and outside the elevator, and the direct current power supply module supplies power for the temperature sensor and the illuminance sensor.

4. The system for regulating the internal environment of an elevator based on data acquisition according to claim 1, characterized in that: the feedback module is used for receiving a secondary acquisition instruction of the processor module and sending the acquisition instruction to the data acquisition module after receiving the secondary acquisition instruction.

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