CN117406842A - Site ecological factor data identification heat dissipation system based on VR technology - Google Patents

Abstract

The invention provides a field ecological factor data identification heat dissipation system based on VR technology, which comprises a shell, wherein heat dissipation mechanisms positioned at the inner sides of the shell are fixedly installed in the two sides of the shell through first bolts, and a flow guide mechanism is fixedly sleeved in the top of the heat dissipation mechanisms. This place ecological factor data discernment cooling system based on VR technique carries out circulation transport through the driving energy of water pump with the coolant liquid in the pipeline, and then carries out conduction and dissipation through coolant liquid and the heat dissipation seat heat exchange that produces when the subassembly in the data discernment system works, and can carry out forced air cooling to the coolant liquid that is located coolant liquid conveying mechanism inside through the driving energy of fan for the coolant liquid that flows in inside first pipeline can carry out heat exchange with the heat dissipation seat with lower temperature, thereby quick data processing unit and image processing unit carry out the liquid cooling and dispel the heat, further improve digital discernment system's radiating effect.

Description

Site ecological factor data identification heat dissipation system based on VR technology

Technical Field

The invention relates to the technical field of ecological factor detection, and particularly discloses a site ecological factor data identification heat dissipation system based on a VR technology.

Background

Ecological factors refer to environmental elements in the environment that have a direct or indirect impact on the growth, development, reproduction, behavior and distribution of organisms, such as: temperature, humidity, food, oxygen, carbon dioxide, other related organisms and the like, so that the VR equipment is required to detect the ecological factor related data of the place where the organisms are located, and after the data are output through the data identification system, the VR equipment can directly observe the ecological factor related data of the ecological environment where the corresponding organisms are located.

Because the growth environments of different types of organisms are different, the detection system obtains more data, the data recognition system is used for processing the data, the workload is high, the requirements on the heat dissipation performance of the data recognition system are high in order to synchronously display the relevant parameters of ecological factors on VR equipment, the existing data recognition system is arranged in the VR equipment, the heat dissipation performance of the data recognition system is poor in a limited space, the two systems are combined together, the whole weight is heavy, the wearing comfort of personnel is poor, and the maintenance is also troublesome.

Disclosure of Invention

In view of the above-mentioned defect or not enough in the prior art, this application aims at providing a place ecological factor data discernment cooling system based on VR technique, which comprises a housing, the inside of shell both sides is all through first bolt fixed mounting there being the cooling mechanism that is located the shell inboard, the inside fixed cover at cooling mechanism top has guiding mechanism, and the outside fixed mounting of cooling mechanism bottom has flow adjustment mechanism, the inside screw thread of flow adjustment mechanism bottom has cup jointed the actuating mechanism of fixed mounting in cooling mechanism below, cooling mechanism's top is provided with the first fixing base that is located the guiding mechanism outside, and cooling mechanism's bottom is provided with the second fixing base that is located the actuating mechanism outside, the inside of first fixing base and second fixing base both sides is all through fixed establishment respectively common fixed mounting have data processing unit and image processing unit, data processing unit adopts between 5G signal and the VR equipment, the inside bottom fixed mounting of shell has two group batteries, and the outside fixed mounting of shell has the bandage, the outside movable cover at casing top has the inside exhaust groove, the outside fixed mounting of cooling mechanism has the actuating mechanism outside fixed mounting and the image processing unit and the inside to carry out the controller through the image processing unit and the inside is connected with the first cooling mechanism and the inside through the fixed connection of the fan between the control device and the inside of the cooling mechanism.

Preferably, the first temperature sensor and the second temperature sensor which are electrically connected with the controller are respectively and fixedly arranged on two sides of the inner side of the shell, two support plates which are symmetrically distributed and positioned below the second fixing seat are arranged at the bottom of the shell, and a switch button positioned on one side of the controller is arranged inside one side of the shell away from the binding belt.

Preferably, the heat dissipation mechanism comprises a heat dissipation seat fixedly mounted on the inner side of the shell through a first bolt, a first pipeline and a second pipeline which are vertically distributed are arranged in the heat dissipation seat, heat conduction seats are arranged on two sides of the heat dissipation seat, and heat conduction mud is attached to the surface of the heat conduction seat.

Preferably, the fixing mechanism comprises second bolts which are respectively sleeved inside the two sides of the first fixing seat and the second fixing seat in a threaded manner and respectively movably sleeved inside the data processing unit and the image processing unit, a rubber sleeve is movably sleeved outside one end of each second bolt, a spring is sleeved outside the other end of each second bolt, and a flat pad is movably sleeved outside one end, close to the spring, of each second bolt.

Preferably, the flow guiding mechanism comprises four one-way valves which are sleeved on the inner side of the top end of the first pipeline in a threaded manner, and the tops of the four one-way valves are communicated with a collecting pipe through a first water pipe.

Preferably, the driving mechanism comprises a fixing frame fixedly arranged at the bottom of the radiating seat, a motor electrically connected with the controller is fixedly sleeved in the fixing frame, and a distance sensor electrically connected with the controller is fixedly sleeved in the fixing frame.

Preferably, the cooling liquid conveying mechanism comprises a second water pipe communicated with the bottom of one side of the heat radiating seat and a radiator communicated with one side of the top end of the collecting pipe and positioned right above the fan, one end of the second water pipe is communicated with a water pump fixedly installed on one side of the heat radiating seat and electrically connected with the controller, and the top of the water pump is communicated with one side of the radiator through a third water pipe.

Preferably, the flow regulating mechanism comprises a sealing cover which is sleeved outside the bottom of the radiating seat through threads, a valve rod which is movably sleeved inside the radiating seat and is sleeved outside the motor output shaft through threads in the bottom end is sleeved inside the sealing cover, a valve core which is positioned right below the first pipeline is arranged at the bottom of the valve rod, a sealing ring which is movably sleeved inside the radiating seat is sleeved outside the middle part of the valve rod, and a limiting boss which is positioned inside the sealing cover is arranged on one side of the bottom end of the valve rod.

Preferably, a baffle plate positioned above the distance sensor is arranged on the outer side of the bottom end of the valve rod.

Preferably, the data identification system performs heat dissipation processing by adopting the following steps:

s1, pressing a switch button starts a data identification system through a controller, and at the moment, heat generated by the data processing unit and the image processing unit during working is transferred to a heat dissipation seat through heat conduction mud and a heat conduction seat;

s2, respectively detecting the temperatures of the data processing unit and the image processing unit through a first temperature sensor and a second temperature sensor, controlling a water pump and a fan to start through a controller when the temperatures of the data processing unit and the image processing unit are increased, driving cooling liquid in a cooling pipeline to carry out circulating conveying through driving of the water pump, cooling the cooling liquid in a cooling seat through contact of the cooling liquid and the first pipeline, and cooling the data processing unit and the image processing unit while carrying out heat exchange, and carrying out air cooling and heat dissipation on the cooling liquid in the radiator through driving of the fan;

s3, when the first temperature sensor or the second temperature sensor detects that the data processing unit or the image processing unit is locally higher than 65 ℃, the motor below the corresponding position of the temperature sensor is started to drive through the controller, the limiting boss is driven along the axial direction of the motor and simultaneously drives the valve core to synchronously move, the flow rate of cooling liquid entering the first pipeline is changed through the movement of the valve core, meanwhile, the displacement of the baffle is detected through the distance sensor, the displacement of the valve core is controlled, accurate adjustment of the flow rate of cooling liquid in each first pipeline is sequentially achieved, at this time, the flow rate of the 65 ℃ part is changed by reducing the flow rate of other parts smaller than 20 ℃, so that the cold and hot exchange speed of the 65 ℃ part and the cooling liquid is accelerated, and the 65 ℃ part is cooled effectively.

The beneficial effects are that:

1. this place ecological factor data discernment cooling system based on VR technique carries out circulation transport through the driving energy of water pump with the coolant liquid in the pipeline, and then carries out conduction and dissipation through coolant liquid and the heat dissipation seat heat exchange that produces when the subassembly in the data discernment system works, and can carry out forced air cooling to the coolant liquid that is located coolant liquid conveying mechanism inside through the driving energy of fan for the coolant liquid that flows in inside first pipeline can carry out heat exchange with the heat dissipation seat with lower temperature, thereby quick data processing unit and image processing unit carry out the liquid cooling and dispel the heat, further improve digital discernment system's radiating effect.

2. This place ecological factor data discernment cooling system based on VR technique is through separating digital identification system and VR equipment and assemble alone for digital identification system can reserve sufficient space installation radiating component and dispel the heat to data processing unit and image processing unit, avoids the heat to gather in digital identification system inside, improves digital identification system's work efficiency, and digital identification system separates out from VR equipment, can reduce the holistic weight of VR equipment, improves the comfort that personnel wore.

3. This place ecological factor data discernment cooling system based on VR technique adopts 5G signal to carry out data transmission between through digital identification system and the VR equipment, and a single digital identification system can connect a plurality of VR equipment simultaneously and carry out ecological factor data measurement, and can dismantle digital identification system alone, and it is more convenient to maintain.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic side view of the structure of the present invention;

FIG. 3 is a schematic side view of a heat dissipating mechanism according to the present invention;

FIG. 4 is a schematic bottom view of the heat dissipation mechanism of the present invention;

FIG. 5 is a top view of the heat dissipating mechanism of the present invention;

FIG. 6 is a top view of the housing of the present invention;

FIG. 7 is a schematic view of a flow regulating mechanism of the present invention;

FIG. 8 is a partial cross-sectional view of a flow adjustment mechanism of the present invention;

FIG. 9 is a bottom schematic view of a valve stem of the present invention;

fig. 10 is a schematic diagram of heat dissipation control of the structure of the present invention.

In the figure: 1. a housing; 2. a first bolt; 3. a heat dissipation mechanism; 31. a heat dissipation seat; 32. a first pipe; 33. a second pipe; 34. a heat conduction seat; 35. heat conducting mud; 4. a diversion mechanism; 41. a one-way valve; 42. a first water pipe; 43. a manifold; 5. a flow rate adjusting mechanism; 51. sealing cover; 52. a valve stem; 53. a valve core; 54. a seal ring; 55. a limit boss; 6. a driving mechanism; 61. a fixing frame; 62. a motor; 63. a distance sensor; 7. a first fixing seat; 8. the second fixing seat; 9. a fixing mechanism; 91. a second bolt; 92. a rubber sleeve; 93. a spring; 94. a flat pad; 10. a data processing unit; 11. an image processing unit; 12. a battery pack; 13. a strap; 14. an exhaust groove; 15. a top cover; 16. a controller; 17. a cooling liquid conveying mechanism; 171. a second water pipe; 172. a heat sink; 173. a water pump; 174. a third water pipe; 18. a third bolt; 19. a fan; 20. a first temperature sensor; 21. a second temperature sensor; 22. a support plate; 23. and a baffle.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the invention are shown in the drawings.

The drawings in the embodiments of the invention: the different kinds of cross-sectional lines in the drawings are not marked according to national standards, and the material of the elements is not required, so that the cross-sectional views of the elements in the drawings are distinguished.

Referring to fig. 1-10, a field ecological factor data identification heat dissipation system based on VR technology comprises a housing 1, wherein a heat dissipation mechanism 3 positioned at the inner side of the housing 1 is fixedly installed at the inner part of two sides of the housing 1 through a first bolt 2, a flow guiding mechanism 4 is fixedly sleeved at the inner part of the top of the heat dissipation mechanism 3, a flow adjusting mechanism 5 is fixedly installed at the outer side of the bottom of the heat dissipation mechanism 3, a driving mechanism 6 fixedly installed below the heat dissipation mechanism 3 is sleeved at the inner thread of the bottom of the flow adjusting mechanism 5, a first fixing seat 7 positioned at the outer side of the flow guiding mechanism 4 is arranged at the top of the heat dissipation mechanism 3, a second fixing seat 8 positioned at the outer side of the driving mechanism 6 is arranged at the bottom of the heat dissipation mechanism 3, a data processing unit 10 and an image processing unit 11 are respectively and fixedly installed at the inner parts of two sides of the first fixing seat 7 and the second fixing seat 8 through fixing mechanisms 9, the data processing unit 10 adopts data transmission between 5G signals and VR equipment, two battery packs 12 are fixedly arranged at the bottom of the inner side of the shell 1, a binding belt 13 is fixedly arranged at the outer side of the shell 1, the shell 1 can be worn between the waist of the user through the binding belt 13, and data transmission can be carried out between the 5G signals and the VR equipment, wireless connection is realized, a top cover 15 with an exhaust groove 14 arranged inside is movably sleeved on the outer side of the top of the shell 1, the exhaust groove 14 is utilized to enable a fan 19 to conduct air cooling and heat dissipation on a radiator 172, hot air generated by the fan 19 to be discharged outwards through the exhaust groove 14, heat accumulation in the shell 1 is avoided, meanwhile, outside cold air can enter the inner side of the shell 1 through the exhaust groove 14, and the outer side of the heat dissipation mechanism 3 is fixedly provided with a driving mechanism 6, the data processing unit 10 respectively, the image processing unit 11 and the battery pack 12 are electrically connected with the controller 16, the cooling liquid conveying mechanism 17 electrically connected with the controller 16 is communicated above the diversion mechanism 4, and the fan 19 which is positioned on the inner side of the cooling liquid conveying mechanism 17 and electrically connected with the controller 16 is fixedly arranged in the top of the first fixing seat 7 through the third bolt 18.

Wherein, the first temperature sensor 20 and the second temperature sensor 21 that are electrically connected with the controller 16 are respectively fixedly installed on two sides of the inner side of the casing 1, the temperatures of the data processing unit 10 and the image processing unit 11 can be measured respectively through the first temperature sensor 20 and the second temperature sensor 21, and then the motor 62 is controlled to drive through the controller 16, so that the flow rate of the cooling liquid flowing into the first pipeline 32 is regulated, two symmetrically distributed support plates 22 positioned below the second fixing seat 8 are arranged at the bottom of the casing 1, the heat dissipation seat 31 can be supported by the support plates 22 through the second fixing seat 8, meanwhile, the data processing unit 10 and the image processing unit 11 are prevented from being extruded to the battery pack 12, and a switch button positioned on one side of the controller 16 is arranged inside one side of the casing 1 far away from the binding belt 13.

The heat dissipation mechanism 3 includes a heat dissipation seat 31 fixedly installed on the inner side of the housing 1 through a first bolt 2, a first pipeline 32 and a second pipeline 33 which are vertically distributed are arranged in the heat dissipation seat 31, heat conduction seats 34 are respectively arranged on two sides of the heat dissipation seat 31, and heat conduction mud 35 is respectively stuck on the surface of the heat conduction seats 34.

Wherein, fixed establishment 9 includes that the screw thread cup joints respectively in first fixing base 7 and second fixing base 8 both sides are inside and respectively the activity cup joints at the inside second bolt 91 of data processing unit 10 and image processing unit 11, the outside movable sleeve of second bolt 91 one end is equipped with rubber sleeve 92, and the outside cover of the second bolt 91 other end is equipped with spring 93, the one end outside movable sleeve that the second bolt 91 is close to spring 93 is equipped with flat pad 94, can cushion data processing unit 10 and image processing unit 11 through rubber sleeve 92 and spring 93's cooperation, avoid data recognition system to produce the damage because of the vibration in data processing unit 10 and image processing unit 11 in wearing the in-process.

The guiding mechanism 4 comprises four one-way valves 41 which are sleeved on the inner side of the top end of the first pipeline 32 in a threaded manner, the tops of the four one-way valves 41 are communicated with a collecting pipe 43 through a first water pipe 42, the one-way valves 41 are utilized to enable cooling liquid to circulate unidirectionally, further internal series flow of the cooling liquid in the first pipeline 32 is avoided, the cooling liquid can circulate in a specified pipeline, and therefore rapid cooling of local 65-DEG C parts is achieved.

The driving mechanism 6 includes a fixing frame 61 fixedly installed at the bottom of the heat dissipation seat 31, a motor 62 electrically connected with the controller 16 is fixedly sleeved in the fixing frame 61, a distance sensor 63 electrically connected with the controller 16 is fixedly sleeved in one side of the fixing frame 61, and the displacement of the valve rod 52 can be detected by the distance sensor 63 through the baffle 23, so that the flow of the first pipeline 32 is controlled.

The cooling liquid conveying mechanism 17 includes a second water pipe 171 connected to the bottom of one side of the heat dissipation seat 31 and a radiator 172 connected to the top of the collecting pipe 43 and located right above the fan 19, one end of the second water pipe 171 is connected to a water pump 173 fixedly installed on one side of the heat dissipation seat 31 and electrically connected to the controller 16, and the top of the water pump 173 is connected to one side of the radiator 172 through a third water pipe 174.

Wherein, flow control mechanism 5 includes the sealed lid 51 of screw thread cup joint in the heat dissipation seat 31 bottom outside, the inside cover of sealed lid 51 is equipped with the activity and cup joints the valve rod 52 in the heat dissipation seat 31 inside and the inside screw thread of bottom cup joints in the motor 62 output shaft outside, the bottom of valve rod 52 is provided with the case 53 that is located under the first pipeline 32, the outside cover at valve rod 52 middle part is equipped with the activity and cup joints the sealing ring 54 in the heat dissipation seat 31 inside, utilize sealing ring 54 can seal the contact position between valve rod 52 and the heat dissipation seat 31, prevent that the coolant liquid from revealing, and one side of valve rod 52 bottom is provided with the spacing boss 55 that is located sealed lid 51, utilize spacing boss 55 can spacing valve rod 52 for valve rod 52 can remove under the drive of motor 62.

Wherein the outside of the bottom end of the valve stem 52 is provided with a shutter 23 above the distance sensor 63.

The data identification system carries out heat dissipation treatment by adopting the following steps:

s1, pressing a switch button starts a data identification system through a controller 16, and at the moment, heat generated by the data processing unit 10 and the image processing unit 11 during working is transferred to a heat dissipation seat 31 through heat conduction mud 35 and a heat conduction seat 34;

s2, respectively detecting the temperatures of the data processing unit 10 and the image processing unit 11 through the first temperature sensor 20 and the second temperature sensor 21, controlling the water pump 173 and the fan 19 to start through the controller 16 when the temperatures of the data processing unit 10 and the image processing unit 11 are increased, driving the cooling liquid in the cooling pipeline to carry out circulating conveying through the driving of the water pump 173, cooling the data processing unit 10 and the image processing unit 11 while carrying out heat exchange on the cooling seat 31 through the contact of the cooling liquid and the first pipeline 32, and carrying out air cooling and heat dissipation on the cooling liquid in the radiator 172 through the driving of the fan 19;

s3, when the first temperature sensor 20 or the second temperature sensor 21 detects that the local temperature of the data processing unit 10 or the image processing unit 11 is higher than 65 ℃, the motor 62 below the corresponding position of the temperature sensor is started to drive through the controller 16, the limiting boss 55 is driven along the axial direction of the motor 62 and simultaneously drives the valve core 53 to synchronously move, the flow rate of cooling liquid entering the first pipeline 32 is changed through the movement of the valve core 53, meanwhile, the displacement of the baffle 23 is detected through the distance sensor 63, the displacement of the valve core 53 is controlled, the accurate adjustment of the cooling liquid flow rate in each first pipeline 32 is sequentially realized, the flow rate of the 65 ℃ is changed by reducing the flow rate of other parts smaller than 20 ℃, the cold-hot exchange speed of the 65 ℃ part and the cooling liquid is accelerated, and the 65 ℃ part is cooled effectively.

When the ecological factors are detected, the data identification system is worn between the waists of a user through the binding belt 13, the data identification system is started by pressing the switch button through the controller 16, the VR equipment is worn on the head, the two parts are transmitted through 5G signals, the ecological factor data of the living beings are detected through the VR equipment, the obtained data are transmitted to the data processing unit 10 through the 5G signals for data processing, the processed data are transmitted to the image processing unit 11 for image processing, finally, the obtained images and the data are synchronously displayed on the VR equipment through the 5G signals on the data processing unit 10, and the content which is not described in detail in the specification belongs to the prior art known to the person skilled in the art.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the invention referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the invention. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (10)

1. The utility model provides a place ecological factor data discernment cooling system based on VR technique, includes shell (1), its characterized in that: the inside of shell (1) both sides is all installed through first bolt (2) and is located the inboard cooling body (3) of shell (1), guiding mechanism (4) are equipped with to the inside cover at cooling body (3) top, and flow control mechanism (5) are installed in the outside of cooling body (3) bottom, driving mechanism (6) of installing in cooling body (3) below are cup jointed to the internal screw thread of flow control mechanism (5) bottom, the top of cooling body (3) is provided with first fixing base (7) that are located the outside of guiding mechanism (4), and the bottom of cooling body (3) is provided with second fixing base (8) that are located the outside of driving mechanism (6), the inside of first fixing base (7) and second fixing base (8) both sides is all installed data processing unit (10) and image processing unit (11) jointly respectively through fixed establishment (9), data transmission is carried out between 5G signal and the VR equipment to data processing unit (10), two batteries (12) are installed to the inside bottom of shell (1), and the outside of shell (1) is provided with first fixing base (7) that are located the outside of guiding mechanism (4), and the outside of cooling body (3) is provided with second fixing base (8) that is located the outside of cooling body (6), and the outside of shell (1) is provided with the top cap (14) and is installed respectively, and the outside of (1) is provided with the driving mechanism (14) is equipped with the top cap (15 The intelligent battery pack comprises a data processing unit (10), an image processing unit (11) and a controller (16) electrically connected with a battery pack (12), wherein a cooling liquid conveying mechanism (17) electrically connected with the controller (16) is communicated above the flow guiding mechanism (4), and a fan (19) positioned on the inner side of the cooling liquid conveying mechanism (17) and electrically connected with the controller (16) is installed inside the top of the first fixing seat (7) through a third bolt (18).

2. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the first temperature sensor (20) and the second temperature sensor (21) which are electrically connected with the controller (16) are respectively arranged on two sides of the inner side of the shell (1), two supporting plates (22) which are symmetrically distributed and located below the second fixing seat (8) are arranged at the bottom of the shell (1), and a switch button located on one side of the controller (16) is arranged inside one side of the shell (1) away from the binding belt (13).

3. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the heat dissipation mechanism (3) comprises a heat dissipation seat (31) which is arranged on the inner side of the shell (1) through a first bolt (2), a first pipeline (32) and a second pipeline (33) which are vertically distributed are arranged in the heat dissipation seat (31), heat conduction seats (34) are arranged on two sides of the heat dissipation seat (31), and heat conduction mud (35) is adhered to the surface of the heat conduction seat (34).

4. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the fixing mechanism (9) comprises second bolts (91) which are respectively sleeved inside the two sides of the first fixing seat (7) and the two sides of the second fixing seat (8) in a threaded manner and respectively sleeved inside the data processing unit (10) and the image processing unit (11), rubber sleeves (92) are sleeved outside one ends of the second bolts (91), springs (93) are sleeved outside the other ends of the second bolts (91), and flat pads (94) are sleeved outside one ends, close to the springs (93), of the second bolts (91).

5. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the flow guiding mechanism (4) comprises four one-way valves (41) which are sleeved on the inner side of the top end of the first pipeline (32) in a threaded manner, and the tops of the four one-way valves (41) are communicated with a collecting pipe (43) through a first water pipe (42) together.

6. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the driving mechanism (6) comprises a fixing frame (61) arranged at the bottom of the radiating seat (31), a motor (62) electrically connected with the controller (16) is sleeved in the fixing frame (61), and a distance sensor (63) electrically connected with the controller (16) is sleeved in the fixing frame (61).

7. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the cooling liquid conveying mechanism (17) comprises a second water pipe (171) communicated with the bottom of one side of the radiating seat (31) and a radiator (172) communicated with one side of the top end of the collecting pipe (43) and located right above the fan (19), one end of the second water pipe (171) is communicated with a water pump (173) which is installed on one side of the radiating seat (31) and is electrically connected with the controller (16), and the top of the water pump (173) is communicated with one side of the radiator (172) through a third water pipe (174).

8. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the flow regulating mechanism (5) comprises a sealing cover (51) which is sleeved outside the bottom of the radiating seat (31) through threads, a valve rod (52) which is sleeved inside the radiating seat (31) and is sleeved outside an output shaft of the motor (62) through threads in the bottom end is sleeved inside the sealing cover (51), a valve core (53) which is located under the first pipeline (32) is arranged at the bottom of the valve rod (52), a sealing ring (54) which is sleeved inside the radiating seat (31) is sleeved outside the middle of the valve rod (52), and a limiting boss (55) which is located inside the sealing cover (51) is arranged on one side of the bottom end of the valve rod (52).

9. The VR technology-based site ecological factor data identification and heat dissipation system of claim 8, wherein: a baffle plate (23) positioned above the distance sensor (63) is arranged on the outer side of the bottom end of the valve rod (52).

10. The VR technology-based site ecological factor data identification and heat dissipation system as set forth in claim 1, wherein: the data identification system carries out heat dissipation treatment by adopting the following steps:

s1, pressing a switch button starts a data identification system through a controller (16), and at the moment, heat generated by the data processing unit (10) and the image processing unit (11) during working is transferred to a heat dissipation seat (31) through heat conduction mud (35) and a heat conduction seat (34);

s2, respectively detecting the temperature of the data processing unit (10) and the image processing unit (11) through a first temperature sensor (20) and a second temperature sensor (21), when the temperature of the data processing unit (10) and the image processing unit (11) are increased, controlling a water pump (173) and a fan (19) to start through a controller (16), driving cooling liquid in a cooling pipeline to carry out circulating conveying through driving of the water pump (173), and cooling the cooling liquid in the cooling pipeline by cooling liquid and a first pipeline (32), wherein the data processing unit (10) and the image processing unit (11) are cooled while the cooling seat (31) is in contact with heat exchange, and cooling liquid in the radiator (172) is subjected to air cooling and heat dissipation through driving of the fan (19);

s3, when the first temperature sensor (20) or the second temperature sensor (21) detects that the data processing unit (10) or the image processing unit (11) is locally higher than 65 ℃, the motor (62) below the corresponding position of the temperature sensor is started by the controller (16) to drive, the limit boss (55) is driven by the driving of the motor (62) to drive the valve core (53) to synchronously move along the axial direction of the limit boss, the flow rate of cooling liquid entering the first pipeline (32) is changed by the movement of the valve core (53), the displacement of the baffle (23) is detected by the distance sensor (63), the displacement of the valve core (53) is controlled, the accurate adjustment of the flow rate of cooling liquid in each first pipeline (32) is sequentially realized, the flow rate of the 65 ℃ part is changed by reducing the flow rate of other parts smaller than 20 ℃, the heat exchange speed of the 65 ℃ part and the cooling liquid is increased, and the 65 ℃ part is cooled effectively.