CN112557705A

CN112557705A - Power transmission line on-line monitoring device with adjustable battery temperature

Info

Publication number: CN112557705A
Application number: CN202110222436.5A
Authority: CN
Inventors: 闵锐; 戴吉勇; 喻萍; 侯伟杰; 孔庆行; 赵坤; 李晓晨; 侯仁鹏; 孙建瑞; 孟宾
Original assignee: Shandong Wide Area Technology Co ltd
Current assignee: Shengli Oilfield Bangyuan Electric Co ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2021-03-26
Anticipated expiration: 2041-03-01
Also published as: CN112557705B

Abstract

The utility model provides a transmission line on-line monitoring device with adjustable battery temperature, belong to transmission line check out test set field, including the monitoring room, the outer wall top surface fixed mounting solar water heater of monitoring room, the outer wall top surface fixed mounting heat preservation water pocket of monitoring room, the heat preservation water pocket passes through the insulating tube intercommunication with solar water heater, first groove is seted up to the inner wall bottom surface of monitoring room, first recess is seted up respectively to the both ends in first groove, first inslot that passes through is equipped with a movable pipe, the both ends of movable pipe seal and open-top, the inner wall fixed mounting of movable pipe has the cooling tube that both ends were sealed, be equipped with a connecting pipe in the first recess respectively, the periphery of connecting pipe passes through the bearing with the inner wall of the first recess that corresponds respectively and is connected, the connecting pipe all runs through the movable pipe and. This device can open the vent when daytime high temperature, improves the ventilation cooling effect of this device, prevents that transmission line monitoring facilities from burning out because of monitoring indoor temperature is too high.

Description

Power transmission line on-line monitoring device with adjustable battery temperature

Technical Field

The invention belongs to the field of transmission line detection equipment, and particularly relates to a transmission line online monitoring device with an adjustable battery temperature.

Background

The existing cabinet body for storing the power transmission line monitoring equipment is mostly arranged outdoors, the power transmission line monitoring equipment and the power supply battery are very easily influenced by the external environment, when the weather is high in temperature, the air in the cabinet body can not be sufficiently radiated, the power transmission line monitoring equipment is easily burnt out, in addition, under the low-temperature condition, the power supply effect of the power supply battery can be greatly reduced, the power supply requirement of the power transmission line monitoring equipment can not be met, the power transmission line monitoring equipment belongs to temperate continental climate in northwest regions of China, the temperature difference between day and night is large, and the influence on the power transmission.

Disclosure of Invention

The invention provides a power transmission line on-line monitoring device with an adjustable battery temperature, which is used for overcoming the defects in the prior art.

The invention is realized by the following technical scheme:

an on-line monitoring device for a power transmission line with adjustable battery temperature comprises a monitoring chamber, a solar water heater is fixedly installed on the top surface of the outer wall of the monitoring chamber, a heat-preservation water bag is fixedly installed on the top surface of the outer wall of the monitoring chamber and communicated with the solar water heater through a heat-preservation pipeline, a first through groove is formed in the bottom surface of the inner wall of the monitoring chamber, first grooves are formed in two ends of the first through groove respectively, a movable pipe is arranged in the first through groove, two ends of the movable pipe are sealed, the top of the movable pipe is opened, radiating pipes with two sealed ends are fixedly installed on the inner wall of the movable pipe, a connecting pipe is arranged in each first groove, the periphery of each connecting pipe is connected with the inner wall of the corresponding first groove through a bearing respectively, each connecting pipe penetrates through the movable pipe and is fixedly connected with the movable pipe, the inner ends of the connecting pipes are communicated with the radiating pipes, the outer ends of, the other end of the connecting pipeline is communicated with the heat-preservation water bag, a gear groove is formed in the inner wall of one first groove, a gear is arranged in the gear groove, the gear is fixedly installed on the periphery of the corresponding connecting pipe, a longitudinal first sliding groove is formed in one side of the bottom surface of the inner wall of the monitoring chamber, the first sliding groove is communicated with the gear groove, a rack in sliding fit with the first sliding groove is arranged in the first sliding groove, the front surface and the rear surface of the first sliding groove are fixedly connected with one end of a spring respectively, the other end of the spring is contacted with the rack, the rack is meshed with the gear, a first threaded sleeve is fixedly installed on the top surface of the rack, a motor is fixedly installed on one side of the rear side of the inner wall of the monitoring chamber, an output shaft of the motor is fixedly connected with the rear end of a first rotating shaft, a first outer threaded pipe is fixedly installed on the periphery of the first rotating shaft, the first rotating shaft penetrates through the first, a baffle is respectively arranged in the vent holes, second grooves are respectively arranged on the top surfaces of the vent holes, the upper parts of the baffle plates are respectively positioned in the corresponding second grooves, vertical second through grooves are respectively arranged on the inner sides of the second grooves, the top surfaces of the baffle plates are respectively fixedly connected with one end of a sliding strip, the sliding strips respectively penetrate through the corresponding second through grooves, a first worm wheel is fixedly arranged on the rear part of the periphery of a first rotating shaft, a transverse worm is arranged on the rear part of the monitoring chamber, the first worm wheel is meshed with the worm, the two sides of the rear part of the bottom surface of the inner wall of the monitoring chamber are respectively connected with the lower end of a vertical second rotating shaft through bearings, a second worm wheel is fixedly arranged on the periphery of the second rotating shaft, the second worm wheels are all meshed with the worm, a second outer screwed pipe is fixedly arranged on the periphery of the second rotating shaft, the second rotating shaft penetrates through a second screwed sleeve, a first limiting device is respectively arranged between the rear surface of the second screwed sleeve, the two spring telescopic rods located on the same side are arranged one above the other, the movable ends of the spring telescopic rods can be in contact with the corresponding second turnbuckles respectively, the fixed pulleys are installed on the tops of the two sides of the inner wall of the monitoring room in a rotating mode respectively, the top surfaces of the second turnbuckles are fixedly connected with one ends of first pull ropes respectively, the first pull ropes bypass the corresponding fixed pulleys respectively, and the other ends of the first pull ropes are fixedly connected with the inner side top surfaces of the corresponding sliding strips respectively.

The device for monitoring the power transmission line on line with the adjustable battery temperature comprises a monitoring chamber, a transverse second sliding groove is formed in the top surface of the transverse plate, a sliding block capable of sliding along the sliding block is arranged on the inner side of the second sliding groove, a first ventilation fan set is fixedly installed on the top surface of the sliding block, the outer side of the second sliding groove is connected with the outer side of the sliding block through a spring, one end of a second pull rope is fixedly connected to the outer side of the sliding block, the other end of the second pull rope is fixedly connected with the bottom surface of a baffle adjacent to the second pull rope, the inner side of the transverse plate is fixedly connected with the bottom of the outer side of a vertical plate, a driving shaft of the first ventilation fan set penetrates through the vertical plate and is in sliding fit with the vertical plate, a first driving wheel is installed on the inner side of the vertical plate through a bearing, a driving shaft of the first ventilation fan set penetrates through an installation hole of, and a second driving wheel is fixedly arranged on the periphery of the worm, and the second driving wheel is connected with the first driving wheel through a first driving belt.

The power transmission line online monitoring device with the adjustable battery temperature comprises a second limiting device, a second limiting groove and a second limiting block, wherein the second limiting groove is formed in the periphery of a driving shaft of the first ventilation fan set, the second limiting block is located in the second limiting groove and is in sliding fit with the second limiting groove, and the second limiting block is fixedly installed on the inner wall of the first driving wheel installation hole.

According to the on-line monitoring device for the power transmission line with the adjustable battery temperature, the second ventilator group is fixedly installed on the upper portion of the other side of the inner wall of the monitoring chamber through the installation plate, the third transmission wheel is fixedly installed on the periphery of the driving shaft of the second ventilator group, the fourth transmission wheel is installed on the periphery of the worm through the one-way bearing, and the third transmission wheel is connected with the fourth transmission wheel through the second transmission belt.

According to the power transmission line online monitoring device with the adjustable battery temperature, the filter screens are fixedly installed in the air vents respectively.

According to the on-line monitoring device for the power transmission line with the adjustable battery temperature, the temperature sensor is fixedly installed on the top surface of the outer wall of the monitoring chamber, the temperature sensor is connected with the controller through a circuit, the motor is connected with the controller through a circuit, and the motor is a servo motor.

The invention has the advantages that: the user sets the existing transmission line monitoring equipment and the power supply above the placing plate, when the outside temperature is high in daytime, the user controls the output shaft of the motor to rotate in the forward direction, and then the first outer screw pipe can drive the first screw sleeve to move forward, and then the rack can drive the gear to rotate, the gear rotates and drives the movable pipe to rotate through the connecting pipe, when the first screw sleeve moves to the front of the first outer screw pipe, the opening on the movable pipe faces downwards when the first outer screw pipe stops moving forward, meanwhile, the forward rotation of the first rotating shaft can drive the two second rotating shafts to rotate in the forward direction through the first worm wheel, the worm and the second worm wheel, the forward rotation of the second rotating shaft can drive the second screw sleeve to move downwards through the second outer screw pipe, the second screw sleeve moves downwards and can drive the baffle to move upwards through the first pull rope and the slide bar, so that the inside of the monitoring chamber is communicated with the outside, so as to achieve the effects of ventilation and heat dissipation, prevent the monitoring equipment of the power transmission line from being burnt out, simultaneously, the solar water heater can heat the water in the heat-preservation water bag, at night, when the external temperature is low, a user can control the output shaft of the motor to rotate reversely, so that the opening of the movable pipe faces upwards, the heat transmission is carried out between the heat dissipation pipe and the air in the monitoring room, the temperature of the air in the monitoring room rises, and the baffle plates move downwards to close the ventilation opening, so that the heat loss in the monitoring room is reduced, and further, the stable power supply of the power supply to the monitoring equipment of the power transmission line is realized. When the temperature is low at night, the heat energy converted from the solar energy can heat the air in the monitoring room, so that the stable power supply of the power supply battery is ensured, and the power transmission line monitoring equipment can stably operate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention; FIG. 2 is an enlarged view of section I of FIG. 1; FIG. 3 is an enlarged view of a portion II of FIG. 1; FIG. 4 is an enlarged view of a portion III of FIG. 1; FIG. 5 is an enlarged view of a portion IV of FIG. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

An on-line monitoring device for a power transmission line with an adjustable battery temperature comprises a monitoring chamber 1, a solar water heater 2 is fixedly installed on the top surface of the outer wall of the monitoring chamber 1, a heat preservation water bag 3 is fixedly installed on the top surface of the outer wall of the monitoring chamber 1, the heat preservation water bag 3 is communicated with the solar water heater 2 through a heat preservation pipeline, a first through groove 4 is formed in the bottom surface of the inner wall of the monitoring chamber 1, first grooves 5 are respectively formed in two ends of the first through groove 4, a movable pipe 6 is arranged in the first through groove 4, two ends of the movable pipe 6 are sealed, the top of the movable pipe is open, a radiating pipe 7 with two ends sealed is fixedly installed on the inner wall of the movable pipe 6, a connecting pipe 8 is respectively arranged in the first grooves 5, the periphery of the connecting pipe 8 is respectively connected with the inner wall of the corresponding first groove 5 through a bearing, the connecting pipe 8 penetrates through the movable, the outer end of the connecting pipe 8 is respectively connected with one end of a connecting pipeline through a rotating structure, the connecting pipeline penetrates through the monitoring chamber 1 and is fixedly connected with the monitoring chamber, the other end of the connecting pipeline is communicated with the heat-preservation water bag 3, a gear groove 9 is formed in the inner wall of one first groove 5, a gear 10 is arranged in the gear groove 9, the gear 10 is fixedly arranged on the periphery of the corresponding connecting pipe 8, a longitudinal first sliding groove 11 is formed in one side of the bottom surface of the inner wall of the monitoring chamber 1, the first sliding groove 11 is communicated with the gear groove 9, part of the gear 10 is positioned in the first sliding groove 11, a rack 12 in sliding fit with the first sliding groove 11 is arranged in the first sliding groove 11, the front surface and the rear surface of the first sliding groove 11 are respectively and fixedly connected with one end of a spring, the other end of the spring is contacted with the rack 12, the rack 12 is meshed with the gear 10, a first threaded sleeve 13 is fixedly arranged on the top surface of the rack, the front end of the first rotating shaft 15 is in bearing connection with the front of the inner wall of the monitoring chamber 1, a first outer screw tube 16 is fixedly installed on the periphery of the first rotating shaft 15, the length of the first outer screw tube 16-the longitudinal length of the first screw sleeve 13 = half of the circumference of the gear 10, when the first screw sleeve 13 moves from the rear part of the first outer screw tube 16 to the front part thereof, the structure can enable the gear 10 to rotate 180 degrees, the first outer screw tube 16 rotates forwards to enable the first screw sleeve 13 in threaded fit with the first outer screw tube to move forwards, the first rotating shaft 15 penetrates through the first screw sleeve 13, the first outer screw tube 16 can be in threaded fit with the first screw sleeve 13, the first screw sleeve 13 is located behind the first outer screw tube 16, at the moment, a spring behind the rack 12 is in a compressed state, ventilation holes 17 are respectively formed in the upper part on one side of the monitoring chamber 1 and the lower part on the other side of the monitoring chamber 1, a baffle plate 18 is respectively arranged in the ventilation holes 17, the baffle plate 18 can completely block the vent hole 17, the top surface of the vent hole 17 is respectively provided with a second groove 19, the upper part of the baffle plate 18 is respectively positioned in the corresponding second groove 19, the inner side of the second groove 19 is respectively provided with a vertical second through groove 20, the top surface of the baffle plate 18 is respectively fixedly connected with one end of a slide bar 21, the slide bar 21 respectively passes through the corresponding second through groove 20, the rear part of the periphery of the first rotating shaft 15 is fixedly provided with a first worm wheel 22, the rear part of the monitoring chamber 1 is provided with a horizontal worm 23, both ends of the worm 23 are respectively connected with the inner wall of the monitoring chamber 1 through bearings, the first worm wheel 22 is meshed with the worm 23, both sides of the rear part of the bottom surface of the inner wall of the monitoring chamber 1 are respectively connected with the lower end of a vertical second rotating shaft 24 through bearings, the periphery of the second rotating shaft 24 is fixedly provided with a second worm wheel 25, the second worm wheel 25 is meshed with the worm, the second rotating shaft 24 penetrates through a second threaded sleeve 27, a first limiting device is arranged between the back of the second threaded sleeve 27 and the back of the inner wall of the monitoring chamber 1 respectively, the first limiting device is composed of a first limiting block and a first limiting block, the back of the second threaded sleeve 27 is fixedly connected with the first limiting block, longitudinal first limiting grooves are formed in two sides of the back of the inner wall of the monitoring chamber 1 respectively, the first limiting blocks are located in the corresponding first limiting grooves respectively and are in sliding fit with the first limiting grooves, the second threaded sleeve 27 can be in threaded fit with a second outer threaded pipe 26, the second threaded sleeve 27 is located above the second outer threaded pipe 26, a spring telescopic rod 28 above the second threaded sleeve 27 is in a compressed state, the second outer threaded pipe 26 rotates forwards to enable the second threaded sleeve 27 in threaded fit to move downwards, two spring telescopic rods 28 are arranged on the inner side of the second outer threaded pipe 26 respectively, and the two spring telescopic rods 28 located on the same side are arranged one above the other, the expansion end of the spring telescopic rod 28 can be contacted with the corresponding second turnbuckle 27 respectively, the fixed end of the spring telescopic rod 28 is connected with the inner wall of the monitoring room 1 through the fixing plate fixedly, the fixed pulleys 29 are installed on the top of two sides of the inner wall of the monitoring room 1 in a rotating mode respectively, the top surface of the second turnbuckle 27 is fixedly connected with one end of the first pull rope 30 respectively, the first pull rope 30 bypasses the corresponding fixed pulleys 29 respectively, the other end of the first pull rope 30 is fixedly connected with the inner side top surface of the corresponding slide bar 21 respectively, a plurality of placing plates 43 are arranged in the monitoring room 1, and supporting legs are fixedly installed at four corners of the bottom surface of each placing plate 43. The user sets up current transmission line monitoring facilities and power supply in the top of placing board 43, when daytime ambient temperature is high, the user control motor 14's output shaft forward rotation, and then can drive first swivel nut 13 forward movement through first outer swivel nut 16, and then can drive gear 10 through rack 12 and rotate, gear 10 rotates and drives movable tube 6 through connecting pipe 8 and rotates, when first swivel nut 13 moved the place ahead of first outer swivel nut 16, when first outer swivel nut 16 stopped moving forward, the opening on movable tube 6 was down, meanwhile, first pivot 15 forward rotation can drive through first worm wheel 22, worm 23, second worm wheel 25 drive two second pivot 24 forward rotations, second pivot 24 forward rotation can drive second swivel nut 27 through second outer swivel nut 26 and move down, second swivel nut 27 moves down and can pass through first stay cord 30, The slide bar 21 drives the baffle 18 to move upwards, so that the interior of the monitoring chamber 1 is communicated with the outside, a ventilation and heat dissipation effect is achieved, the monitoring equipment of the power transmission line is prevented from being burnt out, meanwhile, the solar water heater 2 can heat water in the heat preservation water bag 3, at night, when the outside temperature is low, a user can control the output shaft of the motor 14 to rotate reversely, the opening of the movable tube 6 is upward, heat transfer is conducted between the radiating tube 7 and air in the monitoring chamber 1, the temperature of the air in the monitoring chamber 1 is increased, the baffle 18 moves downwards to close the vent 17, heat dissipation in the monitoring chamber 1 is reduced, stable power supply of a power supply source to the monitoring equipment of the power transmission line is achieved, compared with the existing device, firstly, the vent 17 can be opened when the temperature is high in the daytime, and the ventilation and heat dissipation effect of the device is, prevent that transmission line monitoring facilities from burning out because of the high temperature in monitoring room 1, can absorb solar energy simultaneously and store, when low temperature evening, can heat monitoring room 1 inside air heating with solar energy conversion's heat energy, and then guarantee power supply battery's stable power supply for transmission line monitoring facilities steady operation.

Specifically, as shown in fig. 1, the bottom of the inner wall of the other side of the monitoring chamber 1 according to this embodiment is fixedly connected to the outer side of a transverse plate 31, a transverse second sliding slot 32 is formed in the top surface of the transverse plate 31, a sliding block 33 capable of sliding along the second sliding slot 32 is disposed on the inner side of the second sliding slot 32, a first ventilation fan set 34 is fixedly mounted on the top surface of the sliding block 33, the ventilation fan set is composed of a fixed frame, a ventilation fan and a driving shaft, the specific mounting manner of the ventilation fan set is known in the prior art and is not described in detail in this application, the second sliding slot 32 is a T-shaped sliding slot, the sliding block 33 is a T-shaped sliding block, the structure can increase the operation stability of the device, the outer side of the second sliding slot 32 is connected to the outer side of the sliding block 33 through a spring, the outer side of the sliding block 33 is fixedly connected to one end of a second pull rope 35, the, the other end of the second pull rope 35 penetrates through the channel, the inner side of the transverse plate 31 is fixedly connected with the bottom of the outer side of the vertical plate 36, a driving shaft of the first ventilator group 34 penetrates through the vertical plate 36 and is in sliding fit with the vertical plate 36, a first driving wheel 37 is mounted on the inner side of the vertical plate 36 through a bearing, a driving shaft of the first ventilator group 34 penetrates through a mounting hole of the first driving wheel 37, a second limiting device is arranged between the periphery of the driving shaft of the first ventilator group 34 and the inner wall of the mounting hole of the first driving wheel 37, the second limiting device can enable the first driving wheel 37 to drive the driving shaft of the first ventilator group 34 to rotate, the driving shaft of the first ventilator group 34 is not influenced to move, a second driving wheel 38 is fixedly mounted on the periphery of the worm 23, and the second driving wheel. When the worm 23 rotates forward, the baffle 18 can move upward through the second pull rope 35, the slider 33 drives the first ventilator set 34 to move leftward and compress a spring in the second chute 32, the worm 23 rotates forward and can simultaneously drive the first ventilator set 34 to operate through the second driving wheel 38, the first driving wheel 37 and the second limiting device, at this time, the gas in the monitoring chamber 1 can be discharged to the outside through the forward rotation of the driving shaft of the first ventilator set 34, and then the ventilation and heat dissipation effects are achieved, otherwise, when the worm 23 rotates backward, the first ventilator set 34 resets under the action of the spring force of the spring in the second chute 32, and the first ventilator set 34 can blow away the hot air at the bottom of the monitoring chamber 1, so that the temperature in the monitoring chamber 1 is uniform.

Specifically, as shown in fig. 1 or 3, the second limiting device in this embodiment is composed of a second limiting groove and a second limiting block, the second limiting groove is formed in the periphery of the driving shaft of the first ventilator group 34, the second limiting block is located in the second limiting groove and is in sliding fit with the second limiting groove, and the second limiting block is fixedly mounted on the inner wall of the mounting hole of the first driving wheel 37. When the first driving wheel 37 rotates, the driving shaft of the first ventilator set 34 can be driven to rotate by the second limiting block and the second limiting groove, so that the first ventilator set 34 operates, and meanwhile, the structure does not affect the left-right movement of the driving shaft of the first ventilator set 34.

Further, as shown in fig. 1, a second ventilator set 39 is fixedly installed on the upper portion of the other side of the inner wall of the monitoring room 1 according to the embodiment through an installation plate, a third transmission wheel 40 is fixedly installed on the periphery of a driving shaft of the second ventilator set 39, a fourth transmission wheel 41 is installed on the periphery of the worm 23 through a one-way bearing, the one-way bearing enables the worm 23 to rotate forward and then drive the fourth transmission wheel 41 to rotate, and the third transmission wheel 40 is connected with the fourth transmission wheel 41 through a second transmission belt. When worm 23 forward rotation, can drive the drive shaft forward rotation of second scavenger fan group 39 through fourth drive wheel 41, second drive belt and third drive wheel 40, and then drive the operation of second scavenger fan group 39 and blow in monitoring room 1 with the dry air in the external world, and then play the effect of dehumidification, and further improve the air flow speed, the radiating effect has been improved, otherwise, when worm 23 reverse rotation, the unable operation of this structure, avoid influencing the air flow of monitoring room 1 inside.

Furthermore, as shown in fig. 1, in the ventilation opening 17 of the present embodiment, filtering nets 42 are respectively and fixedly installed, the filtering nets 42 are respectively located at the inner sides of the corresponding baffles 18, and the lower portions of the inner sides of the baffles 18 are respectively and fixedly installed with brushes. Filter screen 42 can filter the dust in the outside air, avoids the dust to enter into and influences transmission line monitoring facilities's normal operating in monitoring room 1, and simultaneously, the brush reciprocates along with baffle 18 and can clears up filter screen 42, and it is more convenient to use.

Furthermore, as shown in fig. 1, in the embodiment, a temperature sensor is fixedly installed on the top surface of the outer wall of the monitoring chamber 1, the temperature sensor is connected to the controller through a circuit, the controller is fixedly installed on the top surface of the inner wall of the monitoring chamber 1, the motor 14 is connected to the controller through a circuit, and the motor 14 is a servo motor. Temperature sensor can detect ambient temperature, and give the controller with the information transmission who detects, the controller is controlled motor 14's the direction of rotation and rotational speed, when external weather is hot, the controller can control motor 14 forward slew velocity and improve, and then improve first scavenger fan group 34 and second scavenger fan group 39 operating power, and then improve the radiating effect of this device, compare with the motor of other types, servo motor is more accurate to the control of speed and position, it is more convenient to use.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a transmission line on-line monitoring device with adjustable battery temperature, includes monitoring room (1), the outer wall top surface fixed mounting solar water heater (2) of monitoring room (1), the outer wall top surface fixed mounting heat preservation water pocket (3) of monitoring room (1), heat preservation water pocket (3) and solar water heater (2) are through heat preservation pipeline intercommunication, its characterized in that: the bottom surface of the inner wall of the monitoring chamber (1) is provided with a first through groove (4), two ends of the first through groove (4) are respectively provided with a first groove (5), a movable pipe (6) is arranged in the first through groove (4), two ends of the movable pipe (6) are sealed and the top of the movable pipe is open, the inner wall of the movable pipe (6) is fixedly provided with a radiating pipe (7) with two sealed ends, a connecting pipe (8) is respectively arranged in the first groove (5), the periphery of the connecting pipe (8) is respectively connected with the inner wall of the corresponding first groove (5) through a bearing, the connecting pipe (8) penetrates through the movable pipe (6) and is fixedly connected with the movable pipe, the inner end of the connecting pipe (8) is communicated with the radiating pipe (7), the outer end of the connecting pipe (8) is respectively connected with one end of a connecting pipeline through a rotating structure, the connecting pipeline penetrates through the monitoring chamber (1) and is fixedly connected with the monitoring chamber, the, wherein a gear groove (9) is formed in the inner wall of one first groove (5), a gear (10) is arranged in the gear groove (9), the gear (10) is fixedly arranged at the periphery of the corresponding connecting pipe (8), a longitudinal first sliding groove (11) is formed in one side of the bottom surface of the inner wall of the monitoring chamber (1), the first sliding groove (11) is communicated with the gear groove (9), a rack (12) in sliding fit with the first sliding groove (11) is arranged in the first sliding groove (11), the front surface and the rear surface of the first sliding groove (11) are respectively and fixedly connected with one end of a spring, the other end of the spring is contacted with the rack (12), the rack (12) is meshed with the gear (10), a first threaded sleeve (13) is fixedly arranged on the top surface of the rack (12), a motor (14) is fixedly arranged on one side of the rear side of the inner wall of the monitoring chamber (1), an output shaft of the motor (14) is fixedly connected with the rear end of a first rotating shaft (15, the first rotating shaft (15) penetrates through the first threaded sleeve (13), the first outer threaded pipe (16) can be in threaded fit with the first threaded sleeve (13), ventilation openings (17) are respectively formed in the upper portion of one side of the monitoring chamber (1) and the lower portion of the other side of the monitoring chamber (1), a baffle (18) is respectively arranged in each ventilation opening (17), second grooves (19) are respectively formed in the top surfaces of the ventilation openings (17), the upper portions of the baffles (18) are respectively located in the corresponding second grooves (19), vertical second through grooves (20) are respectively formed in the inner sides of the second grooves (19), the top surfaces of the baffles (18) are respectively and fixedly connected with one end of a sliding strip (21), the sliding strips (21) respectively penetrate through the corresponding second through grooves (20), a first worm wheel (22) is fixedly installed on the rear portion of the periphery of the first rotating shaft (15), a transverse worm (23) is arranged on the rear portion of the monitoring chamber (1), and the first wheel (22) is meshed with the worm (23), the two sides of the rear part of the bottom surface of the inner wall of the monitoring chamber (1) are respectively connected with the lower end of a vertical second rotating shaft (24) through bearings, a second worm wheel (25) is fixedly arranged on the periphery of the second rotating shaft (24), the second worm wheel (25) is meshed with a worm (23), a second outer solenoid (26) is fixedly arranged on the periphery of the second rotating shaft (24), the second rotating shaft (24) penetrates through a second screw sleeve (27), a first limiting device is arranged between the rear surface of the second screw sleeve (27) and the rear surface of the inner wall of the monitoring chamber (1), two spring telescopic rods (28) are respectively arranged on the inner side of the second outer solenoid (26), the two spring telescopic rods (28) positioned on the same side are arranged on the upper side and the lower side, the movable ends of the spring telescopic rods (28) can be respectively contacted with the corresponding second screw sleeves (27), and fixed pulleys (29) are respectively rotatably arranged on the tops of the two, the top surfaces of the second thread sleeves (27) are respectively and fixedly connected with one ends of the first pulling ropes (30), the first pulling ropes (30) respectively pass through the corresponding fixed pulleys (29), and the other ends of the first pulling ropes (30) are respectively and fixedly connected with the inner side top surfaces of the corresponding sliding strips (21).

2. The on-line monitoring device for the power transmission line with the adjustable battery temperature of claim 1, characterized in that: the bottom of the inner wall of the other side of the monitoring chamber (1) is fixedly connected with the outer side of a transverse plate (31), a transverse second sliding groove (32) is formed in the top surface of the transverse plate (31), a sliding block (33) capable of sliding along the second sliding groove is arranged on the inner side of the second sliding groove (32), a first ventilation fan set (34) is fixedly installed on the top surface of the sliding block (33), the outer side of the second sliding groove (32) is connected with the outer side of the sliding block (33) through a spring, the outer side of the sliding block (33) is fixedly connected with one end of a second pull rope (35), the other end of the second pull rope (35) is fixedly connected with the bottom surface of a baffle plate (18) adjacent to the second pull rope, the inner side of the transverse plate (31) is fixedly connected with the bottom of the outer side of a vertical plate (36), a driving shaft of the first ventilation fan set (34) penetrates through the vertical plate (36) and is in sliding fit with the vertical plate (36), a, a second limiting device is arranged between the periphery of a driving shaft of the first ventilator group (34) and the inner wall of a mounting hole of the first driving wheel (37), a second driving wheel (38) is fixedly mounted on the periphery of the worm (23), and the second driving wheel (38) is connected with the first driving wheel (37) through a first driving belt.

3. The online monitoring device for the power transmission line with the adjustable battery temperature according to claim 2, characterized in that: the second limiting device is composed of a second limiting groove and a second limiting block, the second limiting groove is formed in the periphery of a driving shaft of the first ventilating fan set (34), the second limiting block is located in the second limiting groove and is in sliding fit with the second limiting groove, and the second limiting block is fixedly installed on the inner wall of the installation hole of the first driving wheel (37).

4. The on-line monitoring device for the power transmission line with the adjustable battery temperature according to claim 2 or 3, characterized in that: a second ventilator group (39) is fixedly installed on the upper portion of the other side of the inner wall of the monitoring chamber (1) through an installation plate, a third driving wheel (40) is fixedly installed on the periphery of a driving shaft of the second ventilator group (39), a fourth driving wheel (41) is installed on the periphery of the worm (23) through a one-way bearing, and the third driving wheel (40) is connected with the fourth driving wheel (41) through a second transmission belt.

5. The on-line monitoring device for the power transmission line with the adjustable battery temperature of claim 1, characterized in that: and filter screens (42) are respectively and fixedly arranged in the ventilation openings (17).

6. The on-line monitoring device for the power transmission line with the adjustable battery temperature of claim 4, characterized in that: the temperature sensor is fixedly installed on the top surface of the outer wall of the monitoring chamber (1), the temperature sensor is connected with the controller through a circuit, the motor (14) is connected with the controller through a circuit, and the motor (14) is a servo motor.