CN113911238A

CN113911238A - Application scene targeted adjusting platform and method

Info

Publication number: CN113911238A
Application number: CN202111193120.4A
Authority: CN
Inventors: 刘新宇
Original assignee: Jiangyin Qianyi Daily Chemical Packaging Co ltd
Current assignee: Jiangyin Qianyi Daily Chemical Packaging Co ltd
Priority date: 2021-10-13
Filing date: 2021-10-13
Publication date: 2022-01-11

Abstract

The invention relates to an application scene pertinence adjusting platform, which comprises: the front capture device is arranged in a front panel of a helmet of a motorcycle head and used for executing visual picture acquisition of the front of a human face in the helmet when receiving a wearing identification command so as to obtain a corresponding front capture image; the auxiliary lighting light source is arranged on the side surface of the helmet of the motorcycle head and used for providing auxiliary light quantity for the acquisition of the front captured image of the front capture device; and the motion regulation and control equipment is used for synchronizing the front capture equipment and the auxiliary lighting source. The invention also relates to an auxiliary cooling method for the motorcycle body. According to the invention, all parts of the cooling facility can be distributed on the motorcycle body and the motorcycle rider equipment according to the spatial distribution characteristics of the motorcycle body and the motorcycle rider equipment, and the corresponding cooling strategy is determined based on the sweat distribution area of the motorcycle rider, so that the cooling treatment of a special environment is completed.

Description

Application scene targeted adjusting platform and method

Technical Field

The invention relates to the field of temperature regulation, in particular to a platform and a method for pertinently regulating an application scene.

Background

Air conditioners (Air conditioners) are Air conditioners. The device is used for manually regulating and controlling parameters such as temperature, humidity, flow rate and the like of ambient air in a building or a structure. Generally comprises a cold source/heat source device, a cold and hot medium delivery and distribution system, a terminal device and other auxiliary devices. The system mainly comprises a refrigeration host, a water pump, a fan and a pipeline system. The end device is responsible for specifically processing the air state by utilizing the cold and heat quantity from the transmission and distribution so as to enable the air parameters of the target environment to meet certain requirements. The air conditioner is an indispensable part of people in modern life, provides cool for people, but is easy to cause diseases when being always on, such as 'air conditioning diseases' and the like, and needs to be used with caution. Currently, motorcycles are an important vehicle and frequently appear on highways and city roads, especially some objects that are popular in fashion. However, due to space limitations and equipment limitations of the motorcycle itself, it is difficult to implement a cooling service provided to the rider of the motorcycle by installing a cooling facility such as an air conditioner on the motorcycle.

Disclosure of Invention

In order to solve the problems, the invention provides an application scene targeted adjusting platform and an application scene targeted adjusting method, which can distribute all parts of a cooling facility on a motorcycle body and motorcycle rider equipment according to the spatial distribution characteristics of the motorcycle body and the motorcycle rider equipment, and simultaneously determine a corresponding cooling strategy based on the sweat distribution area of the motorcycle rider so as to finish cooling treatment on a special environment.

Compared with the prior art, the invention at least needs to have the following outstanding substantive characteristics:

(1) the method comprises the steps of performing number statistics of non-isolated sweat pixel points on the face sweat distribution area of a motorcycle rider, and determining corresponding cooling amplitude based on the statistical number, so that two different requirements of cooling effect and energy conservation and emission reduction are met;

(2) aiming at the defect that the motorcycle is lack of cooling facilities in a high-temperature running state, a self-adaptive cooling mechanism which can be integrated into a motorcycle body and a driver device is introduced, so that the probability that a motorcycle driver is baked at high temperature is reduced.

According to an aspect of the present invention, there is provided an application scenario-specific tuning platform, the platform comprising:

the front capture device is arranged in a front panel of a helmet of a motorcycle head, is connected with the threshold analysis device and is used for acquiring a visual picture of the front of a human face in the helmet when receiving a wearing identification command so as to obtain a corresponding front capture image;

the auxiliary lighting light source is arranged on the side surface of the helmet of the motorcycle head, is connected with the front capture device and is used for providing auxiliary light quantity for the acquisition of front capture images of the front capture device;

the motion regulating and controlling equipment is respectively connected with the front capture equipment and the auxiliary lighting source and is used for controlling the front capture equipment and the auxiliary lighting source to enable the front capture equipment and the auxiliary lighting source to move synchronously;

the first processing component is connected with the front capture equipment and is used for sequentially carrying out dynamic range expansion operation on the received front capture images so as to obtain corresponding first processing images;

the second processing component is connected with the first processing component and used for identifying each sweat stain pixel point in the first processed image according to the gray value interval corresponding to the sweat stains of the human body;

the third processing part is respectively connected with the second processing part and the signal conversion mechanism and is used for sending the total number of sweat stain pixel points in the first processed image under the non-independent state to the signal conversion mechanism as the numerical value of the sweat stain distribution area;

the real-time cooling device is electrified with a storage battery of the motorcycle, and the ventilation opening is communicated into the loose windproof clothing of the motorcycle rider and used for providing cooling treatment for the upper body of the motorcycle rider;

the parameter selection device is integrated on a glove of a motorcycle driver, establishes bidirectional wireless communication link connection with the real-time cooling device through a Bluetooth communication link, and is used for setting the air outlet temperature of a ventilation opening of the real-time cooling device under manual operation;

the signal conversion mechanism is arranged on the motorcycle, is connected with the real-time cooling device and is used for determining the current air outlet volume of the ventilation opening based on the numerical value of the received sweat distribution area;

the threshold value analysis equipment is arranged in the helmet of the motorcycle head and used for detecting the humidity in the helmet and sending a wearing identification command when the detected humidity exceeds a set humidity threshold value, or sending a wearing non-identification command;

when the gray value of a certain pixel point in the first processed image is within a gray value interval corresponding to the human sweat stain, judging that the pixel point belongs to the sweat stain pixel point;

when a plurality of other sweat mark pixel points with the number more than a set number exist near a certain sweat mark pixel point in the first processed image, the certain sweat mark pixel point is judged to be the sweat mark pixel point in a non-independent state;

the determined current air outlet volume of the ventilation opening is monotonically and positively associated with the received sweat trace distribution area, and the determined current air outlet volume of the ventilation opening has the numerical limit of the maximum air volume;

wherein the auxiliary lighting source performs light supply once to provide auxiliary light quantity for acquisition of the front captured image of the front capture device when the front capture device performs visual picture acquisition of the front of the human face inside the helmet once to obtain a corresponding front captured image.

According to another aspect of the present invention, there is also provided a motorcycle body auxiliary cooling method, the method comprising:

the method comprises the steps that a front capture device is used, is arranged in a front panel of a helmet of a motorcycle head, is connected with a threshold analysis device and is used for acquiring a visual picture of the front of a human face in the helmet when a wearing identification command is received so as to obtain a corresponding front capture image;

the auxiliary lighting source is arranged on the side surface of a helmet of a motorcycle head, is connected with the front capture device and is used for providing auxiliary light quantity for the acquisition of front capture images of the front capture device;

using an action regulating device which is respectively connected with the front capture device and the auxiliary lighting source and is used for controlling the front capture device and the auxiliary lighting source to enable the actions of the front capture device and the auxiliary lighting source to be synchronous;

using a first processing component, connected to the front capture device, for sequentially performing a dynamic range expansion operation on the received front capture images to obtain corresponding first processed images;

using a second processing component, connected with the first processing component, for identifying each sweat stain pixel point in the first processed image according to the gray value interval corresponding to the human sweat stain;

using a third processing component, respectively connected to the second processing component and the signal conversion mechanism, for sending the total number of sweat pixel points in the first processed image in a non-independent state to the signal conversion mechanism as a numerical value of sweat distribution area;

the real-time cooling device is used, is electrified with a storage battery of the motorcycle and leads a vent to the loose windproof clothing of the motorcycle rider, and is used for providing cooling treatment for the upper body of the motorcycle rider;

the device comprises a parameter selection device, a real-time cooling device, a Bluetooth communication link and a temperature sensor, wherein the parameter selection device is integrated on a glove of a motorcycle driver, and is used for establishing bidirectional wireless communication link connection with the real-time cooling device through the Bluetooth communication link and setting the air outlet temperature of an air vent of the real-time cooling device under manual operation;

the method comprises the steps that threshold value analysis equipment is arranged inside a helmet of a motorcycle head and used for detecting humidity inside the helmet and sending a wearing identification command when the detected humidity exceeds a set humidity threshold value, and otherwise, sending a wearing non-identification command;

Drawings

Embodiments of the invention will now be described with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram illustrating an auxiliary lighting source used by the application scene specific adjustment platform and method according to an embodiment of the present invention.

Detailed Description

The following will describe in detail an embodiment of the motorcycle body auxiliary cooling method of the present invention.

Temperature (temperature) is a physical quantity that represents the degree of heat and cold of an object, and microscopically, the intensity of thermal motion of molecules of the object. The temperature can only be measured indirectly by some characteristic of the object that changes with temperature, and a scale used to measure the temperature value of the object is called a temperature scale. It specifies the starting point of the temperature reading (zero point) and the basic unit of the measured temperature. The international unit is the thermodynamic temperature scale (K). Other temperature scales that are used more internationally are the Fahrenheit temperature scale (. degree.F.), the Celsius temperature scale (. degree.C.), and the international practical temperature scale. From the viewpoint of molecular motion theory, temperature is a sign of the average kinetic energy of the molecular motion of an object. Temperature is a collective manifestation of a large number of molecular thermal motions and contains statistical significance. For individual molecules, the temperature is not meaningful. The cold and hot levels are measured on one of several arbitrary scales based on some observable phenomenon (e.g., expansion of the mercury column). Currently, motorcycles are an important vehicle and frequently appear on highways and city roads, especially some objects that are popular in fashion. However, due to space limitations and equipment limitations of the motorcycle itself, it is difficult to implement a cooling service provided to the rider of the motorcycle by installing a cooling facility such as an air conditioner on the motorcycle.

In order to overcome the defects, the invention builds the application scene targeted adjusting platform and the application scene targeted adjusting method, and can effectively solve the corresponding technical problems.

The application scene specific adjustment platform shown according to the embodiment of the invention comprises:

the auxiliary lighting source is arranged on the side surface of a helmet of a motorcycle head, is connected with the front capture device and is used for providing auxiliary light quantity for the acquisition of front capture images of the front capture device, and is structurally shown in FIG. 1;

Next, the specific structure of the application scenario specific adjustment platform of the present invention will be further described.

The application scenario-specific adjustment platform may further include:

and the temperature detection mechanism is connected with the third processing component and is used for detecting the internal temperature of the third processing component at each working moment.

The application scenario-specific adjustment platform may further include:

and the parameter analysis equipment is connected with the temperature detection mechanism and is used for judging whether the internal temperature of the third processing component is overhigh or not based on the internal temperature of the third processing component at each working moment.

The application scenario-specific adjustment platform may further include:

and the voice playing chip is connected with the parameter analysis equipment and is used for judging that the internal temperature of the third processing part is overhigh by the parameter analysis equipment and broadcasting the voice notification file corresponding to the overhigh internal temperature.

In the application scenario-specific tuning platform:

the voice playing chip is also used for judging that the internal temperature of the third processing part is not too high in the parameter analysis equipment and broadcasting a voice notification file corresponding to the internal temperature not being too high;

the voice playing chip is arranged near the third processing part and comprises a voice receiving unit, a voice conversion unit and a loudspeaker unit.

The motorcycle body auxiliary cooling method shown according to the embodiment of the invention comprises the following steps:

using an auxiliary lighting source which is arranged on the side surface of a helmet of a motorcycle head and is connected with the front capture device and is used for providing auxiliary light quantity for the acquisition of front capture images of the front capture device, and the structure of the auxiliary lighting source is shown in figure 1;

Next, the specific steps of the motorcycle body auxiliary cooling method of the present invention will be further described.

The auxiliary cooling method for the motorcycle body can also comprise the following steps:

and a temperature detection means connected to the third processing unit and configured to detect an internal temperature of the third processing unit at each operation timing.

and the use parameter analysis equipment is connected with the temperature detection mechanism and is used for judging whether the internal temperature of the third processing component is overhigh or not based on the internal temperature of each working moment of the third processing component.

and the voice playing chip is connected with the parameter analysis equipment and used for judging that the internal temperature of the third processing part is overhigh by the parameter analysis equipment and broadcasting the voice notification file corresponding to the overhigh internal temperature.

In the motorcycle body auxiliary cooling method:

In addition, in the application scene targeted adjustment platform and method, the parameter analysis device is an MCU controller. A Micro Control Unit (MCU), also called a Single Chip Microcomputer (Single Chip Microcomputer) or a Single Chip Microcomputer (MCU), is a Chip-level computer formed by appropriately reducing the frequency and specification of a Central Processing Unit (CPU) and integrating peripheral interfaces such as a memory, a counter (Timer), a USB, an a/D converter, a UART, a PLC, a DMA, etc., and even an LCD driving circuit on a Single Chip, and performing different combination control for different applications. Such as mobile phones, PC peripherals, remote controls, to automotive electronics, industrial stepper motors, robotic arm controls, etc., see the silhouette of the MCU.

By adopting the application scene targeted adjusting platform and the application scene targeted adjusting method, aiming at the technical problem that the motorcycle body is difficult to integrate the effective and intelligent cooling facility in the prior art, all parts of the cooling facility can be distributed on the motorcycle body and the motorcycle rider equipment according to the spatial distribution characteristics of the motorcycle body and the motorcycle rider equipment, and the corresponding cooling strategy is determined based on the sweat distribution area of the motorcycle rider, so that the cooling treatment of the special environment is completed.

Various modifications and variations may be made to the articles of manufacture, devices described herein. Other aspects of the articles and devices will be apparent from consideration of the specification and practice of the articles and devices described herein. It is intended that the specification and examples be considered as exemplary.

Claims

1. An application scenario-specific tuning platform, the platform comprising:

2. The application scenario specific tuning platform of claim 1, wherein the platform further comprises:

3. The application scenario specific tuning platform of claim 2, wherein the platform further comprises:

4. The application scenario specific adaptation platform of claim 3, wherein the platform further comprises:

5. The application scenario-specific adaptation platform of claim 4, characterized by:

6. An application scenario-specific adjustment method, the method comprising:

7. The application scenario-specific adjustment method of claim 6, characterized in that the method further comprises:

8. The application scenario-specific adjustment method of claim 7, characterized in that the method further comprises:

9. The application scenario-specific adjustment method of claim 8, characterized in that the method further comprises:

10. The application scenario-specific adjustment method of claim 9, characterized in that: