CN206281976U - A kind of GNSS receiver with function of temperature control - Google Patents

Abstract

The utility model provides a kind of GNSS receiver with function of temperature control, including：Main control module, including processor and memory；Battery pack, is connected with main control module, is provided with the first temperature sensor, the operating temperature for monitoring battery pack；GNSS receiver panel, is connected with main control module, is provided with second temperature sensor, the operating ambient temperature for monitoring GNSS receiver；Three-temperature sensor, is arranged on processor periphery, the temperature for monitoring processor periphery；Master control power module, is connected with main control module, and master control power module is provided with the 4th temperature sensor, the operating temperature for monitoring master control power supply；And functional module and heat abstractor；Main control module also have adjustment unit, main control module be used for according to each temperature sensor monitors to temperature data opened and closed come control function module and/or heat abstractor.The utility model can in real time carry out cooling treatment according to the temperature for collecting, the module to overtemperature.

Description

A kind of GNSS receiver with function of temperature control

Technical field

The utility model is related to survey field, and in particular to a kind of GNSS receiver with intelligent temperature control function.

Background technology

It is applied to CORS systems (Continuous Operational Reference System, be abbreviated as CORS) GNSS receiver, due to being in unattended state throughout the year, it requires adaptability and the stability of a system requirement to environment It is higher.During GNSS receiver works, as the long-time of parts is operated, local temperature may be caused too high, from And the work of GNSS receiver is influenceed, even result in the damage of GNSS receiver.

Therefore the operating temperature of real-time monitoring GNSS receiver, and the work shape of GNSS receiver is adjusted according to temperature State is extremely necessary.

Utility model content

A kind of GNSS receiver for being applied to CORS systems of the utility model description, the receiver is passed equipped with various temperature Sensor, can be with real-time monitoring GNSS receiver runtime environment temperature and the problem of internal important module.And energy basis is detected Temperature conditions carry out some temperature control treatment.Concrete scheme is：

A kind of GNSS receiver with function of temperature control, including：

Main control module, including processor and memory, the memory are connected with the processor；

Battery pack, is connected with the main control module, and the battery pack is provided with the first temperature sensor, for monitoring battery The operating temperature of group；

GNSS receiver panel, is connected with the main control module, and the GNSS receiver panel is provided with second temperature biography Sensor, the operating ambient temperature for monitoring GNSS receiver；

Three-temperature sensor, is arranged on the processor periphery, the temperature for monitoring the processor periphery；

Master control power module, is connected with the main control module, and the master control power module is provided with the 4th temperature sensor, Operating temperature for monitoring master control power supply；

Functional module, is connected with the main control module；

Heat abstractor, is connected with the main control module；

Wherein, the main control module also has adjustment unit, and the main control module is used for according to each temperature sensor monitors To temperature data control the functional module and/or the heat abstractor to be opened and closed.

The above-mentioned GNSS receiver with function of temperature control, wherein, also set between the main control module and the battery pack It is equipped with charge circuit.

The above-mentioned GNSS receiver with function of temperature control, wherein, the functional module includes WiFi module and/or bluetooth Module.

The above-mentioned GNSS receiver with function of temperature control, wherein, the functional module include OLED display module and GNSS module.

The above-mentioned GNSS receiver with function of temperature control, wherein, also including ethernet module, with the main control module phase Even, for realizing GNSS receiver with outside data communication.

The above-mentioned GNSS receiver with function of temperature control, wherein, the heat abstractor includes radiating copper sheet and radiation air Fan.

The above-mentioned GNSS receiver with function of temperature control, wherein, the first temperature sensor is thermistor.

The GNSS receiver of the utility model description being capable of real-time acquisition system environment temperature, receiver internal cell temperature Degree, processor peripheral temperature and power module temperature.And can in real time be dropped according to the temperature for collecting, the module to overtemperature Temperature treatment.The GNSS receiver can preferably adapt to severe temperature environment, preferably ensure CORS server steady operations.

Brief description of the drawings

The detailed description made to non-limiting example with reference to the following drawings by reading, the utility model and its spy Levy, profile and advantage will become more apparent upon.Identical mark indicates identical part in whole accompanying drawings.Not deliberately according to Ratio draws accompanying drawing, it is preferred that emphasis is show purport of the present utility model.

A kind of schematic diagram of GNSS receiver with function of temperature control that Fig. 1 is provided for the utility model；

Fig. 2 shows the circuit diagram for automatically turning on radiator fan according to temperature in an optional embodiment.

Specific embodiment

In the following description, a large amount of concrete details are given and the utility model is more thoroughly managed to provide Solution.It is, however, obvious to a person skilled in the art that the utility model can be without one or more of these thin Save and be carried out.In other examples, in order to avoid obscuring with the utility model, for more well known in the art Technical characteristic is not described.

In order to thoroughly understand the utility model, detailed step and detailed structure will be proposed in following description, To explain the technical solution of the utility model.Preferred embodiment of the present utility model is described in detail as follows, but except these Outside describing in detail, the utility model can also have other embodiment.

The utility model provides a kind of GNSS receiver with intelligent temperature control function, shown in reference picture 1, including：It is main Control module, battery pack, GNSS receiver panel, three-temperature sensor, master control power module, functional module and heat abstractor.

Main control module includes processor and memory, and the memory is connected with the processor；

Battery pack is connected with the main control module, and the battery pack is provided with the first temperature sensor, for monitoring battery The operating temperature of group.

GNSS receiver panel is connected with the main control module, and the GNSS receiver panel is provided with second temperature sensing Device, the operating ambient temperature for monitoring GNSS receiver；Most GNSS receivers are arranged in air-conditioned computer room, such as fruiting period It was interrupted point, because air-conditioning is unable to automatic, the temperature sensor can be with real-time monitoring indoor environment temperature.

Three-temperature sensor is arranged on the processor periphery, the temperature for monitoring the processor periphery.

Master control power module is connected with the main control module, and the master control power module is provided with the 4th temperature sensor, Operating temperature for monitoring master control power supply.

Functional module is connected with the main control module, heat abstractor, is connected with the main control module；

Wherein, the main control module also has adjustment unit, and the main control module is used for according to each temperature sensor monitors To temperature data control the functional module and/or the heat abstractor to be opened and closed.

The utility model employs above-mentioned technical scheme, and temperature biography is provided with each main part of GNSS receiver Sensor monitors its operating temperature, once temperature is too high, adjustment unit may turn off some inessential functional modules and/or Open heat abstractor to be radiated, help GNSS receiver to be lowered the temperature rapidly, it is ensured that the normal work of GNSS receiver, extension Its working life.Wherein, Fig. 2 shows that the circuit for automatically turning on radiator fan according to temperature in an optional embodiment is illustrated Figure, what wherein Fan was represented is radiator fan.

Optionally, the first temperature sensor can be thermistor.Because the GNSS receiver for CORS systems is general Battery electric quantity is very big, if to shorten the charging interval, charging current requires very big.First temperature sensor is mainly used in charging When detect battery temperature, processor monitors that battery temperature is too high, can reduce charging current, to reduce battery temperature.

Additionally, brain of the processor as GNSS receiver, its computing for carrying load, so as to cause its operating temperature Higher, for causing receiver internal processor temperature too high if as temperature is too high, the utility model one is optionally implemented In example, frequency reducing operation treatment can be carried out to processor, to ensure that temperature of processor works.

Because the general power consumption of GNSS receiver itself is larger, especially also big battery needs to charge, so main on board supply Can there is the serious situation of heating in module, system detectio to power module peripheral temperature it is too high when, will according to circumstances can charge Electric current is moderately reduced.

In the optional embodiment of the utility model one, charging is additionally provided between the main control module and the battery pack Loop.

In the optional embodiment of the utility model one, the functional module includes WiFi module and/or bluetooth module (Bluetooth, i.e., BT modules shown in Fig. 1).

In the optional embodiment of the utility model one, the functional module includes OLED display module and GNSS module. Wherein, GNSS module is used to realize the positioning function of GNSS receiver, and OLED display module is used to show the work of GNSS receiver Make state.

In the optional embodiment of the utility model one, also including ethernet module, it is connected with the main control module, is used for Realize the data communication of GNSS receiver and outside.System can be by Ethernet, the problem that system for detecting temperature is collected CORS servers are sent to, the running environment and machine that such user preferably can in real time understand GNSS receiver are run in itself Temperature conditions.

In the optional embodiment of the utility model one, the heat abstractor includes radiating copper sheet and radiator fan.In reality In the products application on border, one end of radiating copper sheet is connected with the processor of main control module, other end connection radiator fan.In treatment Copper sheet is set on device, the radiating of processor can be conducive to, and when the temperature of processor exceedes preset value, adjustment unit can be certainly It is dynamic to open radiator fan, improve radiating effect.Further, since under usually normal condition, fan is simultaneously not turned on, therefore reduce The power consumption of GNSS receiver.

The GNSS receiver of the utility model description being capable of real-time acquisition system environment temperature, receiver internal cell temperature Degree, processor peripheral temperature and power module temperature.And can in real time be dropped according to the temperature for collecting, the module to overtemperature Temperature treatment.The GNSS receiver can preferably adapt to severe temperature environment, preferably ensure CORS server steady operations.

Preferred embodiment of the present utility model is described above.It is to be appreciated that the utility model not office It is limited to above-mentioned particular implementation, wherein the equipment and structure that do not describe in detail to the greatest extent are construed as with the common side in this area Formula is practiced；Any those of ordinary skill in the art, in the case where technical solutions of the utility model ambit is not departed from, may be used Technical solutions of the utility model are made with many possible variations and modification using the methods and techniques content of the disclosure above, or is repaiied The Equivalent embodiments of equivalent variations are changed to, this has no effect on substance of the present utility model.Therefore, it is every without departing from this practicality The content of new technique scheme, according to technical spirit of the present utility model to any simple modification made for any of the above embodiments, etc. With change and modification, still fall within the range of technical solutions of the utility model protection.

Claims (7)

1. a kind of GNSS receiver with function of temperature control, it is characterised in that including：

Main control module, including processor and memory, the memory are connected with the processor；

Battery pack, is connected with the main control module, and the battery pack is provided with the first temperature sensor, for monitoring battery pack Operating temperature；

GNSS receiver panel, is connected with the main control module, and the GNSS receiver panel is provided with second temperature sensor, Operating ambient temperature for monitoring GNSS receiver；

Three-temperature sensor, is arranged on the processor periphery, the temperature for monitoring the processor periphery；

Master control power module, is connected with the main control module, and the master control power module is provided with the 4th temperature sensor, is used for Monitor the operating temperature of master control power supply；

Functional module, is connected with the main control module；

Heat abstractor, is connected with the main control module；

Wherein, the main control module also has adjustment unit, and the main control module is used for what is arrived according to each temperature sensor monitors Temperature data is opened and closed controlling the functional module and/or the heat abstractor.

2. the GNSS receiver with function of temperature control as claimed in claim 1, it is characterised in that the main control module and described Charge circuit is additionally provided between battery pack.

3. there is the GNSS receiver of function of temperature control as claimed in claim 1, it is characterised in that the functional module includes WiFi module and/or bluetooth module.

4. there is the GNSS receiver of function of temperature control as claimed in claim 1, it is characterised in that the functional module includes OLED display module and GNSS module.

5. there is the GNSS receiver of function of temperature control as claimed in claim 1, it is characterised in that also including ethernet module, It is connected with the main control module, the data communication for realizing GNSS receiver and outside.

6. there is the GNSS receiver of function of temperature control as claimed in claim 1, it is characterised in that the heat abstractor includes dissipating Hot copper sheet and radiator fan.

7. there is the GNSS receiver of function of temperature control as claimed in claim 1, it is characterised in that the first temperature sensor is heat Quick resistance.