CN214407796U - Unmanned aerial vehicle temperature monitoring equipment - Google Patents

Abstract

The utility model relates to an unmanned aerial vehicle temperature monitoring equipment belongs to the unmanned aerial vehicle field. The utility model provides an unmanned aerial vehicle temperature monitoring equipment, includes equipment main part and man-machine module, and the equipment main part includes: the temperature sensing module, the bus driving module, the data processing module, the display module, the wireless transmission module and the power supply module. The temperature sensing module transmits the temperature data to the data processing module through a data bus. And the data processing module sends the processed temperature result to the display module and the wireless transmission module. The wireless transmission module transmits the temperature result to the man-machine module in a Bluetooth or wireless network mode. The utility model provides a temperature monitoring equipment can carry out real-time supervision to the outside multiple spot temperature in the unmanned aerial vehicle, and man-machine module is located computer or cell-phone simultaneously, and convenient and fast can report the temperature conditions of unmanned aerial vehicle department environment in real time.

Description

Unmanned aerial vehicle temperature monitoring equipment

Technical Field

The utility model belongs to the unmanned aerial vehicle field relates to an unmanned aerial vehicle temperature monitoring equipment particularly.

Background

With the progress of modern science and technology, the unmanned aerial vehicle technology has greatly developed, has obtained extensive application in fields such as aerial photography, relief of disaster, military affairs, its advantage lies in can replacing people and carry out the operation in extreme environment or the environment that people can't reach. Temperature monitoring is very important to unmanned aerial vehicle's operation, and the high temperature or low performance that all can influence unmanned aerial vehicle of crossing is extremely low, consequently needs real-time supervision unmanned aerial vehicle's temperature variation to give unmanned aerial vehicle major control system with real-time temperature value transmission and supply its decision-making. In addition, some special unmanned aerial vehicles suitable for special occasions, such as granary inspection, atmospheric environment monitoring and the like, have a key function of monitoring ambient temperature change and returning the monitoring result to a human-computer system for people to use as decision reference.

The traditional temperature monitoring equipment can only acquire a point of temperature value at the same time, and the temperature values of a plurality of different positions can be acquired at the same time by cascading a plurality of pieces of equipment, so that the scheme is complex, and the hardware cost is high. The same equipment collects multipoint temperature values, and a driving circuit is required to be designed to solve the problem of the driving capability of the equipment; in addition, a reminding or alarming function is set to alarm the temperature values exceeding the upper and lower temperature limits; still need have a temperature transmission module, the temperature value that will gather in real time transmits for man-machine system, alright like this with the change of real-time supervision unmanned aerial vehicle environment to in time make the feedback to temperature variation.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an unmanned aerial vehicle temperature monitoring equipment, can be convenient, accurate carry out real-time supervision to unmanned aerial vehicle system multiple spot temperature.

The utility model discloses a scheme as follows:

the utility model provides an unmanned aerial vehicle temperature monitoring equipment, includes equipment main part and man-machine module, the equipment main part includes:

the temperature sensing module is used for monitoring the temperature values inside and outside the unmanned aerial vehicle in real time;

the data processing module is used for processing the data of the temperature sensing module, is connected with the temperature sensing module through a data bus and is used for processing the data of the temperature sensing module;

the bus driving module is used for enhancing the driving capability and the transmission distance of a data bus between the temperature sensing module and the data processing module;

the data processing module transmits the processed temperature result to the display module, and the display module is used for displaying the temperature monitoring result on the unmanned aerial vehicle in real time;

the wireless transmission module is used for transmitting the temperature result processed by the data processing module to the man-machine module;

and the power supply module is used for supplying power to the temperature sensing module, the bus driving module, the data processing module, the display module and the wireless transmission module.

The temperature sensing module transmits the temperature data to the data processing module through a data bus. The temperature sensors share one data bus, and the data bus enhances the driving capability and the transmission distance through a bus driving module. The bus driving module is generally composed of a triode and a pull-up resistor.

The data processing module is used for processing the temperature values transmitted by the temperature sensors and sending the processed results to the display module and the wireless transmission module.

The display module is an LCD or a liquid crystal screen.

The wireless transmission module sends the temperature value to the man-machine module through Bluetooth or a wireless network.

The temperature sensing module, the bus driving module, the data processing module, the display module and the wireless transmission module are further connected with a power supply module for supplying power to the equipment main body. The power module is typically powered by a rechargeable battery and may be cylindrical, flat or button shaped.

Inside the temperature-sensing module dispersion was fixed in the unmanned aerial vehicle cabin body, the temperature-sensing module includes inductive probe for respond to unmanned aerial vehicle cabin body temperature in real time. The sensing probe is an infrared sensing probe or a temperature sensor, and can acquire the ambient temperature in an infrared sensing mode or acquire the ambient temperature by the temperature sensor in a direct contact mode.

The inductive probe of the temperature sensing module is wrapped in a cylindrical protective shell, the waterproof and antifouling functions are achieved, and the wire of the temperature sensing module is led out from the protective cover. The temperature sensing module is fixed on the unmanned aerial vehicle shell through a groove-shaped structure.

The equipment main part that temperature-sensing module, bus drive module, data processing module, display module, wireless transmission module and power module are constituteed respectively has the one deck shell about the equipment main part, and there is fixed establishment shell edge, and this fixed establishment is fixed in the equipment main part on the shell on the one hand, and on the other hand is fixed in the shell on unmanned aerial vehicle.

The data processing module is provided with a wiring terminal which can be connected with the temperature sensing module through a wire, the length of the wire is variable, so that the temperature sensing module can be detachably connected to the data processing module, and when the temperature sensing module is damaged, the temperature sensing module is convenient to detach and replace.

The man-machine module is positioned on a computer or a mobile phone, so that the equipment body is more direct and convenient to interact with people.

The utility model has the advantages that:

the utility model provides an unmanned aerial vehicle temperature monitoring equipment can carry out real-time supervision to the inside and outside multiple spot temperature of unmanned aerial vehicle, and man-machine module is located computer or cell-phone simultaneously, and convenient and fast can report the temperature conditions of unmanned aerial vehicle department environment in real time, is convenient for monitor in time and masters the temperature variation of monitoring environment to in time take counter-measure.

Drawings

Fig. 1 is this unmanned aerial vehicle temperature monitoring equipment schematic diagram.

Wherein 1 is the temperature sensing module, 2 is bus drive module, 3 is data processing module, 4 is the display module, 5 is wireless transmission module, 6 is the power module, 7 is the equipment main part, 8 is man-machine module.

Detailed Description

The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, the utility model discloses an unmanned aerial vehicle temperature monitoring equipment is demonstrated, and it comprises equipment principal 7 and human-machine module 8, and equipment principal 7 is used for responding to and handles the multiple spot temperature value of unmanned aerial vehicle system, then transmits the temperature value of monitoring for human-machine module 8.

The man-machine module 8 realizes data transmission with the device main body 7 through the wireless transmission module 5, and the wireless transmission module 5 generally adopts a Bluetooth or wireless network mode for data transmission.

The device main body 7 is composed of a temperature sensing module 1, a bus driving module 2, a data processing module 3, a display module 4, a wireless transmission module 5 and a power supply module 6. Temperature-sensing module 1 has one or more, and each temperature-sensing module is installed inside the unmanned aerial vehicle system dispersedly.

The temperature sensing module 1 comprises a sensing probe which is used for monitoring the real-time temperature of the installation position of the temperature sensing module 1, and the sensing probe can be installed at any position of the unmanned aerial vehicle system under the condition of space allowance. The sensing probe is an infrared sensing probe or a temperature sensor, and can acquire the ambient temperature in an infrared sensing mode or acquire the ambient temperature by the temperature sensor in a direct contact mode.

The inductive probe of the temperature sensing module 1 is wrapped inside a cylindrical protective shell, so that the temperature sensing module is isolated from the outside, and the waterproof and antifouling functions are achieved. Protective housing is fixed in the unmanned aerial vehicle system through the mounting of a recess shape, prevents droing of temperature sensing module 1 in the flight process. The protective shell is led out of a lead of the inductive probe, and the lead is connected with the data processing module 3 and the bus driving module 2.

Each temperature sensing module 1 is connected with the data processing module 3 through the same data bus. In order to enhance the driving capability of the data bus, the device body 7 is provided with a bus driving module 2, which is generally composed of a transistor and a pull-up resistor, thereby enhancing the driving capability of the data bus and the temperature data transmission distance.

The data processing module 3 is provided with a wiring terminal which can be connected with the temperature sensing module 1 through a wire, the length of the wire is variable, so that the temperature sensing module 1 can be detachably connected to the data processing module 3, and when the temperature sensing module 1 is damaged, the temperature sensing module is convenient to detach and replace.

Data processing module 3 transmits the temperature data after handling for display module 4 on the one hand to at the inside real-time temperature measurement result that shows of unmanned aerial vehicle, on the other hand transmits temperature data for man-machine module 8 through wireless transmission module 5, shows temperature measurement result in real time on man-machine equipment.

The display module 4 is typically an LCD or liquid crystal panel.

The man-machine module 8 is generally an application program located on a computer or a mobile phone, so that the interaction between the device body 7 and a person is more convenient.

The temperature sensing module 1, the bus driving module 2, the data processing module 3, the display module 4 and the wireless transmission module 5 are all connected with a power supply module 6, and the power supply module 6 is generally composed of a rechargeable battery, can be cylindrical, flat or button-shaped and is used for supplying power to the equipment main body 7.

The upper and lower of equipment main part 7 respectively has the one deck shell, and there is fixed establishment outside upper portion and the edge of shell lower part, and this fixed establishment is fixed in equipment main part 7 on the one hand the shell, and on the other hand is fixed in unmanned aerial vehicle with the shell.

Claims (8)

1. The utility model provides an unmanned aerial vehicle temperature monitoring equipment, includes equipment main part and man-machine module, its characterized in that, the equipment main part includes:

the temperature sensing module is used for monitoring the temperature values inside and outside the unmanned aerial vehicle in real time;

the data processing module is used for processing the data of the temperature sensing module, is connected with the temperature sensing module through a data bus and is used for processing the data of the temperature sensing module;

the bus driving module is used for enhancing the driving capability and the transmission distance of a data bus between the temperature sensing module and the data processing module;

the data processing module transmits the processed temperature result to the display module, and the display module is used for displaying the temperature monitoring result on the unmanned aerial vehicle in real time;

the wireless transmission module is used for transmitting the temperature result processed by the data processing module to the man-machine module;

and the power supply module is used for supplying power to the temperature sensing module, the bus driving module, the data processing module, the display module and the wireless transmission module.

2. The unmanned aerial vehicle temperature monitoring device of claim 1, wherein one or more temperature sensing modules are dispersedly mounted inside the unmanned aerial vehicle; the temperature sensing module comprises an induction probe, the induction probe is an infrared induction probe or a temperature sensor, and ambient temperature can be acquired in an infrared sensing mode or acquired by the temperature sensor in a direct contact mode.

3. The unmanned aerial vehicle temperature monitoring device of claim 2, wherein the sensing probe of the temperature sensing module is wrapped in a cylindrical protective shell to achieve waterproof and antifouling functions, and a lead of the temperature sensing module is led out of the protective shell; the temperature sensing module is fixed on the unmanned aerial vehicle shell through a groove-shaped structure.

4. The temperature monitoring device of claim 2, wherein the temperature sensing modules share a data bus, the data bus is driven by a data driving module, and the data driving module comprises a triode and a pull-up resistor.

5. The unmanned aerial vehicle temperature monitoring device of claim 1, wherein the wireless transmission module transmits data in a Bluetooth or wireless network manner; the display module is an LCD or a liquid crystal screen.

6. The unmanned aerial vehicle temperature monitoring equipment of claim 1, characterized in that, the data processing module is provided with a wiring terminal, and is connected with the temperature sensing module through a wire, and the length of the wire is variable, so that the temperature sensing module can be conveniently detached.

7. The temperature monitoring device of unmanned aerial vehicle of claim 1, wherein there is a layer of shell respectively on the top and bottom of the device main body, there is a fixing mechanism on the shell edge, and this fixing mechanism fixes the device main body on the shell on the one hand, and fixes the shell on unmanned aerial vehicle on the other hand.

8. The unmanned aerial vehicle temperature monitoring device of claim 1, wherein the human-machine module is located on an application program of a computer or a mobile phone.

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