WO2019113857A1

WO2019113857A1 - Intelligent, real-time and dynamic temperature adjustment system and method for display device

Info

Publication number: WO2019113857A1
Application number: PCT/CN2017/116011
Authority: WO
Inventors: 林惠泉; 王玉珏; 丘明; 彭彪; 周龙生; 欧小强
Original assignee: 深圳市飓风智云科技有限公司
Priority date: 2017-12-13
Filing date: 2017-12-13
Publication date: 2019-06-20

Abstract

The present invention relates to an intelligent, real-time and dynamic temperature adjustment system and method for a display device. The system comprises at least one temperature sensor, a data collection unit, a data processing center, a temperature adjustment unit and at least one light sensor, which are arranged inside a display device, and a cloud server, which is connected to the display device by means of a network, wherein the data processing center controls the temperature adjustment unit so that same carries out temperature adjustment; and the cloud server monitors and receives a reported temperature and light intensity, and adjusts a pre-set temperature and a pre-set light intensity. By means of the implementation of the present invention, a temperature can be determined according to an environmental condition, thereby realizing dynamic temperature adjustment; in addition, parameters of a temperature adjustment system can be dynamically adjusted in real time according to a change in the specific environment, thereby realizing the intelligent, real-time and dynamic operation of the temperature adjustment system.

Description

Display device intelligent real-time dynamic temperature adjustment system and method

Technical field

The present invention relates to the field of display devices, and more particularly to an intelligent real-time dynamic temperature adjustment system and method for a display device.

Background technique

Current electronic devices, especially outdoor electronic devices, usually use fan input power to adjust the wind speed to achieve temperature reduction. Currently, the ambient temperature is usually estimated by a single dimension, and then a temperature adjustment is performed within the estimated range. In many cases, due to the influence of different environments, not only the electronic equipment should be cooled, but also when the external temperature is low, the electronic equipment needs to be warmed up. However, the current cooling systems are mainly based on cooling, which cannot meet the needs of environmental diversity. Moreover, the environment is variable, and the existing temperature regulation system cannot respond quickly to ensure that the temperature of the display device is within the normal range. In addition, many times, even if it is confirmed that the temperature adjustment of the display device cannot meet the requirements, the parameters of the temperature adjustment cannot be changed, so that the temperature adjustment cannot meet the environmental requirements.

technical problem

The technical problem to be solved by the present invention is to provide an intelligent real-time dynamic temperature adjustment system and method for a display device in view of the above-mentioned drawbacks of the prior art.

Technical solution

The technical solution adopted by the present invention to solve the technical problem is: constructing an intelligent real-time dynamic temperature adjustment system for a display device, comprising: at least one temperature sensor, a data collection unit, a data processing center, and a temperature adjustment disposed inside the display device a unit and at least one light sensor, and a cloud server connected to the display device via a network;

The temperature sensor is connected to the data collection unit to collect the measured temperature inside the display device;

The data processing center is connected to the data collection unit, receives the measured temperature and compares it with a preset temperature, and controls the temperature adjustment unit to perform temperature adjustment according to the comparison result;

The light sensor is disposed in front of the display screen of the display device and connected to the data collection unit to collect the measured light intensity before the display screen of the display device;

Receiving, by the data processing center, the measured light intensity, comparing with a preset light intensity, and controlling the temperature adjusting unit to perform temperature adjustment according to the comparison result;

The data processing center further includes a first calculating unit and a second calculating unit, the first calculating unit controls the temperature adjusting unit to adjust a temperature according to a first temperature adjustment manner, and the second calculating unit controls the temperature adjusting unit Adjusting the temperature according to the second temperature adjustment method;

The cloud server is connected to the data processing center, and monitors and receives the reported measured temperature and the measured light intensity, and adjusts the preset temperature and the preset light intensity.

Preferably, the temperature adjustment unit is a semiconductor thermoelectric treatment module for heating or cooling the display device.

Preferably, the cloud server further includes: a heating curve including a mapping relationship between the temperature and the temperature adjustment module, the data processing center adjusting a temperature of the temperature adjustment module according to the heating curve; and/or

The cloud server further includes: a first temperature drop curve including a mapping relationship between the light intensity and the temperature adjustment module; and a second temperature drop curve including a light intensity and a mapping relationship between the temperature and the temperature adjustment module; the data The processing center controls the temperature adjustment module to adjust the temperature of the temperature adjustment module according to the first temperature drop curve or the second temperature drop curve.

Preferably, the display device intelligent real-time dynamic temperature adjustment system of the present invention further includes a user terminal connected to the cloud server, configured to receive and display monitoring information of the cloud server, and send an adjustment instruction to adjust the preset temperature and the Preset light intensity; and/or

The cloud server receives environment information of the display device, and adjusts the preset temperature and the preset light intensity according to the environment information.

Preferably, the display device intelligent real-time dynamic temperature adjustment system of the present invention further includes a fan disposed inside the display device, and the data processing center controls the fan rotation speed.

The invention also constructs an intelligent real-time dynamic temperature adjustment method for a display device, comprising the following steps:

S1. The data processing center receives the measured temperature of the display device.

S2, the data processing center compares the measured temperature with a preset temperature, if the measured temperature is less than the preset temperature, step S31 is performed; if the measured temperature is greater than the preset temperature, executing Step S3; if the measured temperature is equal to the preset temperature, step S32 is performed;

S3, the data processing center receives the measured light intensity in front of the display screen of the display device and compares it with the preset light intensity. If the measured light intensity is less than or equal to the preset light intensity, step S4 is performed, if the measured The light intensity is greater than the preset light intensity, step S5 is performed;

S31. The data processing center controls a temperature adjustment unit to perform a heating operation.

S32, the data processing center control temperature adjustment unit does not make adjustment, report the measured temperature and the measured light intensity to the cloud server, and returns to step S1;

S4, the data processing center control temperature adjustment unit adjusts the temperature according to the first adjustment mode, and returns to step S1;

S5. The data processing center controls the temperature adjustment unit to adjust the temperature according to the second adjustment manner, and returns to step S1.

Preferably,

The step S31 includes: the data processing center control temperature adjustment unit performs a heating operation according to a heating curve including a mapping relationship between the temperature and the temperature adjustment module; and/or

Preferably, in the step S4, the first adjustment mode includes performing a temperature lowering operation according to a first temperature drop curve including a mapping relationship between a light intensity and the temperature adjustment module; and/or

In the step S5, the second adjustment mode includes performing a temperature lowering operation according to a second temperature drop curve including a light intensity and a mapping relationship between the temperature and the temperature adjustment module.

Preferably, the method further includes:

The cloud server adjusts the preset temperature and the preset light intensity according to an environment in which the display device is located.

Preferably, the method comprises:

When the temperature sensor detects a temperature change of the display device, performing the step S1, and/or

The data processing center receives the trigger instruction of the cloud server, and performs the step S1.

Preferably, in the step S4, the first adjustment manner further includes: increasing a fan speed to perform a temperature lowering operation; and/or

In the step S5, the second adjustment mode further includes increasing the fan speed and performing a temperature lowering operation.

Beneficial effect

The intelligent real-time dynamic temperature adjustment system and method for implementing the display device of the invention has the following beneficial effects: the temperature can be judged according to the environmental conditions, the temperature dynamic adjustment can be realized, and the temperature adjustment system can be dynamically adjusted in real time according to the change of the specific environment. Parameters to achieve intelligent real-time dynamic work of the temperature adjustment system.

DRAWINGS

The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

1 is a schematic structural view of an embodiment of an intelligent real-time dynamic temperature adjustment system of a display device according to the present invention;

2 is a flow chart of a program of an embodiment of an intelligent real-time dynamic temperature adjustment method for a display device of the present invention.

Embodiments of the invention

For a better understanding of the technical features, objects and effects of the present invention, the embodiments of the present invention are described in detail with reference to the accompanying drawings.

As shown in FIG. 1 , in an embodiment of the intelligent real-time dynamic temperature adjustment system of the display device of the present invention, the display device intelligent real-time dynamic temperature adjustment system of the present invention includes: at least one temperature sensor 20 disposed inside the display device, The data collection unit 50, the data processing center 60, the temperature adjustment unit 40, and at least one light sensor 10, and a cloud server 70 connected to the display device via a network. The temperature sensor 20 is connected to the data collection unit 50 to collect the measured temperature inside the display device. The data processing center 60 is connected to the data collecting unit 50, receives the measured temperature and compares it with a preset temperature, and controls the temperature adjusting unit 40 to perform temperature adjustment according to the comparison result. The light sensor 10 is disposed in front of the display screen of the display device and connected to the data collecting unit 50 to collect the measured light intensity before the display screen of the display device. The data processing center 60 receives the measured light intensity, compares it with a predetermined light intensity, and controls the temperature adjustment unit 40 to perform temperature adjustment according to the comparison result. The data processing center 60 further includes a first calculating unit and a second calculating unit. The first calculating unit controls the temperature adjusting unit 40 to adjust the temperature according to the first temperature adjusting manner, and the second calculating unit controls the temperature adjusting unit 40 to adjust according to the second temperature adjusting manner. temperature. The cloud server 70 is connected to the data processing center 60 to monitor and receive the reported measured temperature and the measured light intensity, and adjusts the preset temperature and the preset light intensity.

Specifically, the measured temperature inside the current display device is collected by the temperature sensor 20, the data processing center 60 compares the measured temperature with the preset temperature, and controls the temperature adjustment unit to perform temperature adjustment according to the comparison result, and the temperature adjusting unit 40 includes cooling and heating. operating. In addition, during the temperature adjustment process, the data processing center 60 acquires the measured light intensity before the display screen through the light sensor 10, compares the measured light intensity with the preset light intensity, and controls the temperature adjustment process according to the comparison result. The preset temperature and preset light intensity here can be adjusted or set by the cloud server 70. For example, during the cooling process, the measured light intensity and the preset light intensity can be compared. When the measured light intensity is large, greater than the preset light intensity, the speed of the temperature drop needs to be accelerated at this time, and the temperature is adjusted by the second temperature mode. The light intensity is not too large. When the light intensity is less than the preset light intensity, a slower temperature drop mode can be adopted, and the first temperature adjustment mode is adopted.

Further, the temperature adjustment unit 40 is a semiconductor thermoelectric treatment module for heating or cooling the display device. The semiconductor thermoelectric processing module here uses a universal TEC module.

Further, in some embodiments, the cloud server 70 further stores: a heating curve including a mapping relationship between the temperature and the temperature adjustment module, and the data processing center 60 adjusts the temperature of the temperature adjustment module according to the heating curve. In some embodiments, the cloud server 70 further stores: a first temperature drop curve including a mapping relationship between the light intensity and the temperature adjustment module. In some embodiments, the cloud server 70 further stores: a second temperature drop curve including a mapping relationship between the light intensity and the temperature and the temperature adjustment module. The data processing center 60 controls the temperature adjustment module to adjust the temperature of the temperature adjustment module according to the first temperature drop curve or the second temperature drop curve.

Specifically, the mapping relationship between the temperature and the temperature adjustment module working mode is stored in the cloud service, and the final heating curve is formed by a formula or a table, and the data processing center 60 adjusts the temperature of the temperature adjustment module according to the heating curve, and finally realizes The heating inside the entire display device raises the temperature inside the display device. In some cases, the cloud server 70 also stores a mapping relationship between the light intensity and the operating mode of the temperature adjustment module, and the final cooling curve formed by the formula or the table, including the light intensity and the temperature and temperature adjustment module working mode. The mapping relationship, through the formula or the final cooling curve made, the data processing center 60 can select different mapping relationships or curves according to actual conditions to control the temperature adjustment module to work according to the required working mode.

Further, in some embodiments, as shown in FIG. 1, the display device intelligent real-time dynamic temperature adjustment system of the present invention further includes a user terminal 80 connected to the cloud server 70 for receiving and displaying the monitoring information of the cloud server 70, and transmitting The adjustment command adjusts the preset temperature and the preset light intensity. In still other embodiments, the cloud server 70 receives environmental information in which the display device is located, and adjusts the preset temperature and the preset light intensity according to the environmental information.

Specifically, the user terminal 80 accesses the cloud server 70 in a wired or wireless manner, and acquires monitoring information of the display device acquired by the cloud server 70. In addition, the end user can also perform corresponding settings on the display device through the user terminal 80 and the cloud server 70. . The cloud server 70 can receive environmental information, such as a time and place, in which the display device is located, and make reasonable adjustments to the preset temperature and the preset light intensity according to changes in time and place.

Further, in some embodiments, the temperature adjustment unit 40 can be used in conjunction with other cooling systems, such as a fan placed inside the display device, and the data processing center 60 controls the fan speed. Cooperate with the entire cooling process.

In an embodiment of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention as shown in FIG. 2, the intelligent real-time dynamic temperature adjustment method of the display device of the present invention comprises the following steps:

S1. The data processing center 60 receives the measured temperature of the display device. In this step, the measured temperature inside the display device can be acquired by the temperature sensor 20.

S2. The data processing center 60 compares the measured temperature with the preset temperature. If the measured temperature is less than the preset temperature, step S31 is performed; if the measured temperature is greater than the preset temperature, step S3 is performed; if the measured temperature is equal to the preset temperature, Then step S32 is performed. Specifically, the data processing center 60 compares the relationship between the measured temperature and the preset temperature, and controls the temperature adjustment unit 40 to perform a corresponding operation according to the comparison result.

S3. The data processing center 60 receives the measured light intensity in front of the display screen of the display device and compares it with the preset light intensity. If the measured light intensity is less than or equal to the preset light intensity, step S4 is performed, if the measured light intensity is greater than the preset light intensity. Then, step S5 is performed. Specifically, in the temperature adjustment process, the data processing center 60 further receives the measured light intensity before the display screen of the display device, compares the relationship between the measured light intensity and the preset light intensity, and controls the temperature adjustment unit 40 according to the comparison result. Operation.

S31. The data processing center 60 controls the temperature adjustment unit 40 to perform a heating operation. It can be understood that when the measured temperature of the display device is relatively low, the temperature adjustment unit 40 can perform a temperature rising operation on the display device.

S32. The data processing center 60 controls the temperature adjustment unit 40 to perform no adjustment, reports the measured temperature and the measured light intensity to the cloud server 70, and returns to step S1. It can be understood that when the measured temperature of the display device meets the preset temperature requirement, the working state of the current temperature adjustment unit 40 can be maintained. The cloud server 70 simultaneously monitors information related to display devices such as temperature information, light intensity information, and rotational speed information to monitor the real-time status of the display device. At the same time, the cloud server 70 can also adjust the preset temperature based on the environmental information of the display device to adapt to various environments.

S4. The data processing center 60 controls the temperature adjustment unit 40 to adjust the temperature according to the first adjustment mode, and returns to step S1.

S5. The data processing center 60 controls the temperature adjustment unit 40 to adjust the temperature according to the second adjustment mode, and returns to step S1.

In the above steps S4 and S5, it can be understood that when the temperature adjustment process is performed, the relationship between the currently measured measured light intensity and the preset light intensity can be compared. When the measured light intensity is relatively small, an adjustment manner can be used for adjustment. When the measured light intensity is large, another adjustment method is used for adjustment.

Further, in some embodiments of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention, in step S31, the data processing center 60 controls the temperature adjustment unit 40 to perform a heating curve according to a mapping relationship between the temperature and the temperature adjustment module. Heating operation. Specifically, the mapping relationship between the temperature and the temperature adjustment module working mode is stored in the cloud service, and the final heating curve is formed by a formula or a table, and the data processing center 60 calls the heating curve to perform a heating operation.

Further, in some embodiments of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention, in step S4, the first adjustment mode includes performing a temperature lowering operation according to a first temperature drop curve including a mapping relationship between the light intensity and the temperature adjustment module. . Specifically, the cloud server 70 further stores a mapping relationship between the light intensity and the working mode of the temperature adjustment module, and a final cooling curve formed by a formula or a table. Here, the data processing center 60 can select different mapping relationships or curves according to actual conditions. The control temperature adjustment module is operated in accordance with the required working mode.

Further, in some embodiments of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention, in step S5, the second adjustment mode includes a second temperature drop curve according to a mapping relationship including a light intensity and a temperature and a temperature adjustment module. Perform a cooling operation. Specifically, the cloud server 70 further stores a mapping relationship including a light intensity and a temperature and a temperature adjustment module working mode, and the data processing center 60 can select different mappings according to actual conditions through a formula or a final cooling curve. The relationship or curve controls the temperature adjustment module to operate in the desired mode of operation.

Further, in some embodiments, the cooling process can be used with a fan. When the temperature is lowered by the first adjustment mode, the fan is simultaneously controlled to increase the wind speed, and the wind speed is operated at a specific wind speed to speed up the cooling process. When the second adjustment mode is used to cool down, the fan is simultaneously controlled to increase the wind speed, and the other wind speed is operated to speed up the cooling.

Further, in some embodiments of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention, the cloud server 70 further adjusts the preset temperature and the preset light intensity according to the environment in which the display device is located. It can be understood that the cloud service can judge the environment condition of the display device, adjust the preset temperature, and adjust the preset light intensity, so that the temperature adjustment process is smarter and more suitable for the environment.

Further, in some embodiments of the intelligent real-time dynamic temperature adjustment method of the display device of the present invention, the method further includes: when the temperature sensor 20 detects the temperature change of the display device, performing step S1. In still other embodiments, the data processing center 60 receives the trigger instruction of the cloud server 70 and performs step S1. Specifically, the entire temperature adjustment process may be monitored in real time, or may be processed according to external trigger conditions. When detecting changes in the environment, such as temperature changes, or changes in light intensity, temperature adjustment may be performed to meet environmental requirements, of course. The command may be triggered by the cloud server 70, and the command of the cloud server 70 may be delivered by the server itself or may be delivered by the end user through the user terminal 80.

It is to be understood that the above-described embodiments are merely illustrative of the preferred embodiments of the present invention, and are not to be construed as limiting the scope of the invention; The above technical features may be freely combined, and various modifications and improvements may be made without departing from the spirit and scope of the invention; therefore, the scope of the claims of the present invention is Equivalent transformations and modifications are intended to be included within the scope of the appended claims.

Claims

An intelligent real-time dynamic temperature adjustment system for a display device, comprising: at least one temperature sensor disposed inside the display device, a data collection unit, a data processing center, a temperature adjustment unit, and at least one light sensor, and a cloud server connected to a display device via a network;

The temperature sensor is connected to the data collection unit to collect the measured temperature inside the display device;

The data processing center is connected to the data collection unit, receives the measured temperature and compares it with a preset temperature, and controls the temperature adjustment unit to perform temperature adjustment according to the comparison result;

The light sensor is disposed in front of the display screen of the display device and connected to the data collection unit to collect the measured light intensity before the display screen of the display device;

Receiving, by the data processing center, the measured light intensity, comparing with a preset light intensity, and controlling the temperature adjusting unit to perform temperature adjustment according to the comparison result;

The data processing center further includes a first calculating unit and a second calculating unit, the first calculating unit controls the temperature adjusting unit to adjust a temperature according to a first temperature adjustment manner, and the second calculating unit controls the temperature adjusting unit Adjusting the temperature according to the second temperature adjustment method;

The cloud server is connected to the data processing center, and monitors and receives the reported measured temperature and the measured light intensity, and adjusts the preset temperature and the preset light intensity.
The intelligent real-time dynamic temperature adjustment system for a display device according to claim 1, wherein the temperature adjustment unit is a semiconductor thermoelectric treatment module for heating or cooling the display device.
The intelligent real-time dynamic temperature adjustment system for a display device according to claim 1, wherein the cloud server further stores: a heating curve including a mapping relationship between a temperature and the temperature adjustment module, wherein the data processing center is configured according to The heating curve adjusts a temperature of the temperature adjustment module; and/or

The cloud server further stores a first temperature drop curve including a mapping relationship between light intensity and the temperature adjustment module; and/or

The cloud server further stores a second temperature drop curve including a mapping relationship between the light intensity and the temperature and the temperature adjustment module; the data processing center controls the temperature adjustment module to be based on the first temperature drop curve or the second temperature drop The curve adjusts the temperature of the temperature adjustment module.
The intelligent real-time dynamic temperature adjustment system for a display device according to claim 1, further comprising a user terminal connected to the cloud server, configured to receive and display monitoring information of the cloud server, and send an adjustment instruction to adjust the a preset temperature and the preset light intensity; and/or

The cloud server receives environment information of the display device, and adjusts the preset temperature and the preset light intensity according to the environment information.
The intelligent real-time dynamic temperature adjustment system for a display device according to claim 4, further comprising a fan disposed inside the display device, wherein the data processing center controls the fan rotation speed.
An intelligent real-time dynamic temperature adjustment method for a display device, comprising the steps of:

S1. The data processing center receives the measured temperature of the display device.

S2, the data processing center compares the measured temperature with a preset temperature, if the measured temperature is less than the preset temperature, step S31 is performed; if the measured temperature is greater than the preset temperature, executing Step S3; if the measured temperature is equal to the preset temperature, step S32 is performed;

S3, the data processing center receives the measured light intensity in front of the display screen of the display device and compares it with the preset light intensity. If the measured light intensity is less than or equal to the preset light intensity, step S4 is performed, if the measured The light intensity is greater than the preset light intensity, step S5 is performed;

S31. The data processing center controls a temperature adjustment unit to perform a heating operation.

S32, the data processing center control temperature adjustment unit does not make adjustment, report the measured temperature and the measured light intensity to the cloud server, and returns to step S1;

S4, the data processing center control temperature adjustment unit adjusts the temperature according to the first adjustment mode, and returns to step S1;

S5. The data processing center controls the temperature adjustment unit to adjust the temperature according to the second adjustment manner, and returns to step S1.
The intelligent real-time dynamic temperature adjustment method for a display device according to claim 5, wherein

The step S31 includes: the data processing center control temperature adjustment unit performs a heating operation according to a heating curve including a mapping relationship between the temperature and the temperature adjustment module; and/or

In the step S4, the first adjustment mode includes performing a temperature lowering operation according to a first temperature drop curve including a mapping relationship between the light intensity and the temperature adjustment module; and/or

In the step S5, the second adjustment mode includes performing a temperature lowering operation according to a second temperature drop curve including a light intensity and a mapping relationship between the temperature and the temperature adjustment module.
The method of claim 5, wherein the method further comprises:

The cloud server adjusts the preset temperature and the preset light intensity according to an environment in which the display device is located.
The method of claim 5, wherein the method comprises:

When the temperature sensor detects a temperature change of the display device, performing the step S1, and/or

The data processing center receives the trigger instruction of the cloud server, and performs the step S1.
The method of claim 7, wherein the method further comprises:

In the step S4, the first adjustment manner further includes: increasing a fan speed to perform a temperature lowering operation; and/or

In the step S5, the second adjustment mode further includes increasing the fan speed and performing a temperature lowering operation.