CN112260587B - Antenna device for internet of vehicles - Google Patents
Antenna device for internet of vehicles Download PDFInfo
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- CN112260587B CN112260587B CN202010939615.6A CN202010939615A CN112260587B CN 112260587 B CN112260587 B CN 112260587B CN 202010939615 A CN202010939615 A CN 202010939615A CN 112260587 B CN112260587 B CN 112260587B
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02N—ELECTRIC MACHINES NOT OTHERWISE PROVIDED FOR
- H02N11/00—Generators or motors not provided for elsewhere; Alleged perpetua mobilia obtained by electric or magnetic means
- H02N11/002—Generators
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/02—Arrangements for de-icing; Arrangements for drying-out ; Arrangements for cooling; Arrangements for preventing corrosion
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01Q—ANTENNAS, i.e. RADIO AERIALS
- H01Q1/00—Details of, or arrangements associated with, antennas
- H01Q1/27—Adaptation for use in or on movable bodies
- H01Q1/32—Adaptation for use in or on road or rail vehicles
- H01Q1/3208—Adaptation for use in or on road or rail vehicles characterised by the application wherein the antenna is used
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/32—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from a charging set comprising a non-electric prime mover rotating at constant speed
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K35/00—Generators with reciprocating, oscillating or vibrating coil system, magnet, armature or other part of the magnetic circuit
- H02K35/04—Generators with reciprocating, oscillating or vibrating coil system, magnet, armature or other part of the magnetic circuit with moving coil systems and stationary magnets
Abstract
The invention relates to the technical field of the vehicle networking, and discloses an antenna device for the vehicle networking, which comprises an antenna body, wherein a spherical fixing frame is arranged on the outer side of the antenna body, an arc-shaped fixing pad is movably sleeved in the spherical fixing frame, and the bottom of an inner cavity of the arc-shaped fixing pad is fixedly clamped with the bottom of the antenna body. This antenna device for internet of vehicles, through communicating pipe, the heat dissipation basin, the cooperation between steam release device and the temperature difference heat dissipation power generation device, the refrigerated water that utilizes the heat dissipation basin absorbs the heat of effluvium, reach the effect that reduces antenna body temperature, when utilizing the steam of release to let in to the aqueous solution in the annular heat dissipation case, drive the electron and locate the diffusion to low temperature, form the potential difference, the electricity storage that will produce holds to the storage case, be convenient for supply power to the antenna, produce the electric current in the realization is to the antenna cooling, heat transfer through the release is to the annular produce on the electric energy, be convenient for turn into the electric energy with partial heat energy, be convenient for supply power to the antenna, reduce antenna moving cost.
Description
Technical Field
The invention relates to the technical field of vehicle networking, in particular to an antenna device for the vehicle networking.
Background
The antenna is a converter which converts a guided wave transmitted on a transmission line into an electromagnetic wave transmitted in a unbounded medium or performs reverse conversion, and is a component for transmitting or receiving the electromagnetic wave in radio equipment.
The existing antenna for vehicle is usually installed above the rear seat of the vehicle between the roof panel and the ceiling of the vehicle, the antenna itself generates heat and the heat transferred by the sun exposure, therefore, the heat dissipation of the antenna is a constant problem, and the conventional method of dissipating heat by using forced convection air is to dissipate heat by heat transfer when the outside temperature of the antenna is high and the temperature of the antenna is high, the convective air is still high temperature gas, so that the heat of the antenna cannot be effectively dissipated, and the conventional 5G car antenna is an active antenna unit, therefore, the signal can be transmitted only by supplying power to the antenna, the existing antenna generally supplies power to the antenna only through an external power supply, the heat generated and dissipated by breeding can not be effectively utilized for conversion, the heat dissipated in this way not only increases the greenhouse effect, but also causes energy consumption, and therefore an antenna device for the internet of vehicles is provided.
Disclosure of Invention
The invention provides an antenna device for a car networking, which absorbs the heat emitted by the chilled water of a heat-radiating water tank, thereby achieving the advantages of reducing the temperature of the antenna body, reducing the heat emission, simultaneously being convenient for supplying power to the antenna and reducing the running cost of the antenna, solving the problems that the prior art adopts a forced convection air heat dissipation mode to dissipate heat, when the outside temperature of the antenna is high and the temperature of the antenna is high, through heat transfer, the convective air is still high temperature gas, so that the heat of the antenna cannot be effectively dissipated, and the conventional 5G car antenna is an active antenna unit, therefore, the signal can be transmitted out only by supplying power to the antenna, the existing antenna generally supplies power to the antenna only through an external power supply, the heat generated by breeding and dissipation can not be effectively utilized for conversion, the greenhouse effect is increased by the heat generated by the heat generation, and meanwhile, the problem of energy consumption is solved.
In order to achieve the above purpose, the invention provides the following technical scheme to realize: an antenna device for the Internet of vehicles comprises an antenna body, wherein a spherical fixing frame is arranged on the outer side of the antenna body, an arc fixing pad is movably sleeved inside the spherical fixing frame, the bottom of an inner cavity of the arc fixing pad is fixedly clamped with the bottom of the antenna body, an annular heat dissipation box is fixedly connected to the outer surface of the antenna body, the antenna body and the annular heat dissipation box are both positioned inside the arc fixing pad, communicating pipes are fixedly connected to the left side and the right side of the top of the annular heat dissipation box, a heat dissipation water tank is fixedly mounted at the top of the antenna body, the two communicating pipes are mutually symmetrical by taking a central line in the vertical direction of the heat dissipation water tank as a symmetrical axis, the top ends of the communicating pipes penetrate through the heat dissipation water tank and extend to the inside of the heat dissipation water tank, the outer surface of the communicating pipes is hermetically connected with the inside of the heat dissipation water tank, and a hot air release device is fixedly connected to the top ends of the communicating pipes, the hot gas release device comprises a barrel body, the top of the barrel body is fixedly connected with an arc-shaped pipe, the top of the arc-shaped pipe is fixedly connected with the top of a communicating pipe, the bottom of the barrel body is fixedly sleeved with a suck-back prevention device, the bottom of the outer surface of the suck-back prevention device is fixedly connected with an air outlet, the bottom of the inner cavity of the heat dissipation water tank is fixedly connected with a temperature difference heat dissipation electricity generation device, and the temperature difference heat dissipation electricity generation device is located under the air outlet.
Optionally, the suck-back prevention device comprises a vertical pipe, the outer side of the top of the vertical pipe is fixedly connected with the middle of the inner cavity of the cylinder, the annular filter screen is arranged on the middle upper part of the vertical pipe, a gap exists between the middle lower part of the vertical pipe and the inner surface of the cylinder, the bottom of the inner cavity of the vertical pipe is fixedly connected with a conical body, and the bottom of the outer surface of the vertical pipe is fixedly connected with the air outlet.
Optionally, the thermoelectric heat dissipation power generation device comprises a storage box, the bottom of the storage box is fixedly connected with the bottom of the inner cavity of the heat dissipation water tank, the top fixedly connected with heat collection tubes of the storage box are arranged, the number of the heat collection tubes is sixty, and the top fixedly connected with annular power generation pieces of the heat collection tubes are arranged.
Optionally, the electric piece is located the outside of perpendicular pipe is produced to the annular, interval department between the electric piece inboard is produced to the outside of perpendicular pipe and annular equals everywhere, the top fixedly connected with heat-fixing pipe of electric piece is produced to the annular, the quantity of heat-fixing pipe is sixty, sixty through arc guide arm fixed connection between two liang of neighbours of heat-fixing pipe, sixty heat-fixing pipe corresponds respectively for with sixty thermal-collecting tubes directly over, the right side of electric piece is produced to the annular is passed through the cable electricity with the top of storage box and is connected, the top of electric piece is produced to the annular is in same horizontal plane with the surface of the inside liquid water of radiating trough.
Optionally, the inside of communicating pipe is provided with the sphere and wears the magnetism device, its outside that is located the sphere and wears the magnetism device of communicating pipe has seted up the ring channel, the inside fixedly connected with card strip of ring channel, the quantity of card strip is six, six the outside lateral contact that the magnetism device was worn to card strip opposite side and sphere, six the thickness from the top down of card strip reduces in proper order, the intraduct right side fixedly connected with permanent magnetism board of communicating pipe, the intraduct left side fixedly connected with permanent magnetism piece of communicating pipe, permanent magnetism piece and permanent magnetism board use the sphere to wear the central line of the vertical direction of magnetism device to be mutual symmetry as the symmetry axis.
Optionally, the magnetism device is worn to the sphere is including the control by temperature change ball, the middle part fixedly connected with fixed block of control by temperature change ball inner chamber, the top and the vertical guide arm of the equal fixedly connected with in bottom of fixed block, the left side and the equal transverse guide arm of fixedly connected with in right side of fixed block, contained angle between fixed block and the vertical guide arm is ninety degrees, cable conductor fixedly connected with rectifier is passed through on the right side of card strip, the back of rectifier and the positive fixed connection of arc fixed bolster, the positive fixedly connected with storage device of arc fixed bolster, the quantity of storage device and rectifier is two, storage device's left side is passed through the cable electricity with the right side of adjacent rectifier and is connected, the bottom fixedly connected with of ring channel is put with ventilating of control by temperature change ball looks adaptation and is taken off the gauze pad.
The invention provides an antenna device for a vehicle networking, which has the following beneficial effects:
1. the antenna device for the Internet of vehicles is characterized in that through the matching of the communicating pipe, the heat dissipation water tank, the hot air release device and the temperature difference heat dissipation and generation device, when the hot air emitted from the antenna body sequentially flows into the heat dissipation water tank through the annular heat dissipation box, the communicating pipe and the hot air release device, the heat dissipated is absorbed by the chilled water of the heat dissipation water tank, so that the temperature of the antenna body is reduced, and meanwhile, when the released hot air is introduced into the aqueous solution in the annular heat dissipation box, the gas hot bubbles float to the water surface and break, so that the hot air is released and collides with the inner side of the annular power generation sheet and the bottom end of the annular power generation sheet after the hot bubbles are released, at the moment, the temperature of the inner sides of the annular power generation sheet and the annular power generation sheet is higher, the temperature of the heat collection tube in the chilled water is lower than that of the heat collection tube, and the thermal excitation effect of the end of the annular power generation sheet is stronger than that of the heat collection tube, and the electron is higher under relative and low temperature under high temperature, thereby it spreads to drive electron to low temperature department, thereby form the potential difference, then hold the electricity that produces to the storage case, be convenient for supply power to the antenna, produce the electric current when realizing cooling to the antenna, reduce the cost of antenna device operation and reduce the energy consumption, simultaneously through the heat transfer of release to the annular product on the electric piece, be convenient for turn into the electric energy with partial heat energy, when reducing thermal emission, be convenient for supply power to the antenna, reduce antenna moving cost.
2. The antenna device for the Internet of vehicles is characterized in that through the matching between the annular heat dissipation box, the heat dissipation water tank, the communicating pipe, the spherical magnetic penetrating device and the hot air releasing device, when hot air released from an antenna body sequentially passes through the annular heat dissipation box, the communicating pipe and the hot air releasing device and flows into the heat dissipation water tank, the spherical magnetic penetrating device moves upwards along the clamping strip inside the communicating pipe due to the pushing of heat, when the heat in the antenna body is dissipated or the chilled water in the heat dissipation water tank absorbs the released heat, the spherical magnetic penetrating device can always be in the original position, in the process of moving upwards and downwards, the vertical guide rod or the transverse guide rod on the spherical magnetic penetrating device vertically moves in the magnetic field between the permanent magnet sheet and the permanent magnet sheet, so that current is generated, the rectifier and the storage device are used for rectifying and storing the generated current, and the antenna is convenient to supplement and supply power, the kinetic energy is converted into the electric energy, so that the power supply cost of the antenna is saved.
Drawings
FIG. 1 is a schematic front view of the present invention;
FIG. 2 is an enlarged view of the heat releasing device of the present invention;
FIG. 3 is a schematic top view of the arcuate guide bar of FIG. 2;
FIG. 4 is a schematic top view of the ring filter of FIG. 2;
FIG. 5 is a schematic view of a detailed structure of the spherical magnetic penetration device of the present invention;
FIG. 6 is a schematic top view of the cross-section of FIG. 5 along the cross-guide bar.
In the figure: 1. an antenna body; 2. an annular heat dissipation box; 3. a spherical fixing frame; 4. a heat-dissipating water tank; 5. a communicating pipe; 6. a spherical magnetic penetrating device; 61. a temperature control ball; 62. a fixed block; 63. a transverse guide rod; 64. a vertical guide rod; 7. a hot gas releasing device; 71. a barrel; 72. an anti-suck-back device; 721. a vertical tube; 722. an annular filter screen; 723. a conical body; 73. an air outlet; 74. an arc tube; 8. a rectifier; 9. a thermoelectric heat dissipation and power generation device; 91. a storage tank; 92. a heat collecting pipe; 93. an annular electricity generating sheet; 94. a heat-fixing pipe; 95. an arc-shaped guide rod; 10. a storage device; 11. an arc-shaped fixing pad; 12. a permanent magnet sheet; 13. ventilating and releasing the mesh pad; 14. a permanent magnet plate; 15. clamping the strip; 16. an annular groove.
Detailed Description
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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.
Referring to fig. 1-6, an antenna device for a vehicle networking comprises an antenna body 1, a spherical fixing frame 3 is arranged on the outer side of the antenna body 1, an arc fixing pad 11 is movably sleeved inside the spherical fixing frame 3, the bottom of an inner cavity of the arc fixing pad 11 is fixedly clamped with the bottom of the antenna body 1, an annular heat dissipation box 2 is fixedly connected to the outer surface of the antenna body 1, the antenna body 1 and the annular heat dissipation box 2 are both positioned inside the arc fixing pad 11, communicating pipes 5 are fixedly connected to the left side and the right side of the top of the annular heat dissipation box 2, a heat dissipation water tank 4 is fixedly installed on the top of the antenna body 1, the two communicating pipes 5 are mutually symmetrical with respect to a central line in the vertical direction of the heat dissipation water tank 4, the top ends of the communicating pipes 5 penetrate through the heat dissipation water tank 4 and extend to the inside of the heat dissipation, communicating pipe 5's top fixedly connected with steam release 7, steam release 7 is including barrel 71, barrel 71's top fixedly connected with arc tube 74, the top of arc tube 74 and communicating pipe 5's top fixed connection, barrel 71's bottom is fixed to be cup jointed and is prevented suck-back device 72, prevent the bottom fixedly connected with venthole 73 of suck-back device 72 surface, the bottom fixedly connected with thermoelectric cooling power generation device 9 of 4 inner chambers of heat sink, thermoelectric cooling power generation device 9 is located under venthole 73.
Wherein, the suck-back prevention device 72 comprises a vertical pipe 721, the outer side of the top of the vertical pipe 721 is fixedly connected with the middle part of the inner cavity of the cylinder 71, the middle upper part of the vertical pipe 721 is provided with an annular filter screen 722, a gap exists between the middle lower part of the vertical pipe 721 and the inner surface of the cylinder 71, the bottom of the inner cavity of the vertical pipe 721 is fixedly connected with a conical body 723, the bottom of the outer surface of the vertical pipe 721 is fixedly connected with the air outlet 73, and when water in the annular heat dissipation box 2 flows into the vertical pipe 721 along the air outlet 73, the suck-back water is released by the annular filter screen 722.
The thermoelectric heat dissipation and generation device 9 includes a storage box 91, the bottom of the storage box 91 is fixedly connected with the bottom of the inner cavity of the heat dissipation water tank 4, heat collection tubes 92 are fixedly connected to the top of the storage box 91, the number of the heat collection tubes 92 is sixty, annular power generation pieces 93 are fixedly connected to the tops of the heat collection tubes 92, and released heat is transferred to the annular power generation pieces 93, so that partial heat energy is converted into electric energy, power supply for an antenna is facilitated while heat emission is reduced, and the running cost of the antenna is reduced.
Wherein, the annular electricity generating sheet 93 is located outside the vertical tube 721, the distance between the outside of the vertical tube 721 and the inside of the annular electricity generating sheet 93 is equal everywhere, the top of the annular electricity generating sheet 93 is fixedly connected with the heat fixing tubes 94, the number of the heat fixing tubes 94 is sixty, every two adjacent heat fixing tubes 94 are fixedly connected through the arc guide rod 95, the sixty heat fixing tubes 94 are respectively and correspondingly right above the sixty heat collecting tubes 92, the right side of the annular electricity generating sheet 93 is electrically connected with the top of the storage box 91 through the cable, the top end of the annular electricity generating sheet 93 and the surface of the liquid water in the heat sink 4 are in the same horizontal plane, when the released hot air is introduced into the aqueous solution in the annular heat sink 2, the air bubbles float to the water surface and break, thereby releasing the hot air, and collide with the inside of the annular electricity generating sheet 93 and the bottom end of the heat fixing tubes 94 after releasing the hot air bubbles, at this moment, the inside temperature of the solid heat pipe 94 and the annular electricity generating sheet 93 is higher, the temperature of the heat collecting pipe 92 in the freezing water is lower than that of the solid heat pipe 94, the thermal excitation effect of the annular electricity generating sheet 93 end is stronger than that of the heat collecting pipe 92, and the concentration of the electrons is higher at high temperature and low temperature, so that the electrons are driven to diffuse to the low temperature, thereby forming a potential difference, then, the generated electricity is stored in the storage box 91, the antenna is convenient to be powered, the current is generated when the antenna is cooled, the operation cost of the antenna device is reduced, and the energy consumption is reduced.
Wherein, the inside of the communicating pipe 5 is provided with the spherical penetrating magnetic device 6, the outside of the spherical penetrating magnetic device 6 in the communicating pipe 5 is provided with an annular groove 16, the inside of the annular groove 16 is fixedly connected with clamping strips 15, the number of the clamping strips 15 is six, one opposite sides of the six clamping strips 15 are in lateral contact with the outside of the spherical penetrating magnetic device 6, the thicknesses of the six clamping strips 15 are reduced from top to bottom in turn, the right side in the communicating pipe 5 is fixedly connected with a permanent magnetic plate 14, the left side in the communicating pipe 5 is fixedly connected with a permanent magnetic plate 12, the permanent magnetic plate 12 and the permanent magnetic plate 14 are mutually symmetrical by taking the central line in the vertical direction of the spherical penetrating magnetic device 6 as a symmetrical axis, the hot air that looses in the antenna organism 1 loops through annular heat dissipation case 2, communicating pipe 5 and hot air release 7 and flows into heat dissipation basin 4, utilizes the refrigerated water of heat dissipation basin 4 to absorb the heat of effluvium to reach the effect that reduces antenna organism 1 temperature.
Wherein, the spherical magnetic device 6 includes a temperature control ball 61, a middle fixed connection block 62 is provided at the inner cavity of the temperature control ball 61, vertical guide rods 64 are fixedly connected at the top and the bottom of the fixed block 62, horizontal guide rods 63 are fixedly connected at the left side and the right side of the fixed block 62, an included angle between the fixed block 62 and the vertical guide rods 64 is ninety degrees, a rectifier 8 is fixedly connected at the right side of the clamping strip 15 through a cable, the back of the rectifier 8 is fixedly connected with the front of an arc fixing pad 11, a storage device 10 is fixedly connected at the front of the arc fixing pad 11, the storage device 10 and the rectifier 8 are both in two numbers, the left side of the storage device 10 is electrically connected with the right side of the adjacent rectifier 8 through a cable, a ventilation net releasing pad 13 matched with the temperature control ball 61 is fixedly connected at the bottom of the annular groove 16, when hot air emitted from the antenna body 1 passes through the annular heat dissipation box 2, When the communicating pipe 5 and the hot gas releasing device 7 flow into the heat dissipation water tank 4, at this time, the spherical magnetic penetrating device 6 moves upwards along the clamping strip 15 inside the communicating pipe 5 due to the pushing of heat, after the heat dissipation in the antenna body 1 is completed or the chilled water in the heat dissipation water tank 4 absorbs the dissipated heat, at this time, the spherical magnetic penetrating device 6 can always be in the original position, in the process of moving upwards and downwards, the vertical guide rod 64 or the transverse guide rod 63 on the spherical magnetic penetrating device 6 vertically move in the magnetic field between the permanent magnet sheet 12 and the permanent magnet plate 14, so that current is generated, the rectifier 8 and the storage device 10 are used for storing the generated current, the antenna is conveniently supplemented and powered, the generated current is converted into electric energy through kinetic energy, and the power supply cost of the antenna is saved.
The working steps, fix the spherical fixed mount 3 in the good position of the signal at first, then put the frozen aqueous solution in the internal memory of the radiating water tank 4, start the aerial organism 1 to run, in the course of running of the aerial organism 1, the heat that is radiated is fixed on the radiating window outside the aerial organism 1 through the annular radiating tank 2, then facilitate the hot gas to flow into aqueous solution in the radiating water tank 4 sequentially through the annular radiating tank 2, communicating pipe 5 and hot gas release device 7, then utilize the refrigerated water of the radiating water tank 4 to absorb the heat that is radiated, thus achieve the effect of lowering the temperature of the aerial organism 1, while utilizing the hot gas released to let in the aqueous solution in the annular radiating tank 2, the gas hot bubble floats to the surface of water and breaks at this moment, thus release the hot gas, collide with the inside of the annular electricity generating piece 93 and bottom end of the heat fixing pipe 94 after the hot bubble is released, at this time, the temperature of the inner sides of the heat-fixing tube 94 and the annular electricity-generating sheet 93 is higher, the temperature of the heat-collecting tube 92 in the frozen water is lower than that of the heat-fixing tube 94, the heat excitation effect of the end of the annular electricity-generating sheet 93 is stronger than that of the heat-collecting tube 92, and the concentration of electrons at high temperature is higher than that at low temperature, so that electrons are driven to diffuse to the low temperature, thereby forming a potential difference, and then the generated electricity is stored to the storage box 91, so as to supply power to the antenna, when the hot air dissipated from the antenna body 1 passes through the annular heat-dissipating box 2, the communication tube 5 and the hot air releasing device 7 and flows into the heat-dissipating water tank 4, at this time, the spherical magnetism-penetrating device 6 moves upward along the clamping strip 15 inside the communication tube 5 due to the pushing of heat, and the dissipated heat in the antenna body 1 or the frozen water in the heat-dissipating water tank 4 absorbs the dissipated heat, at this time, the spherical magnetism-penetrating device 6 will always be in the original position, in the process of moving up and down, the vertical guide rod 64 or the horizontal guide rod 63 on the spherical magnet penetrating device 6 vertically moves in the magnetic field between the permanent magnet pieces 12 and the permanent magnet plates 14, so that current is generated, and the generated current is rectified and stored by the rectifier 8 and the storage device 10, so that the antenna can be conveniently supplied with power.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (4)
1. The utility model provides an antenna device for the car networking, includes antenna organism (1), its characterized in that: the antenna comprises an antenna body (1), wherein a spherical fixing frame (3) is arranged on the outer side of the antenna body (1), an arc-shaped fixing pad (11) is movably sleeved inside the spherical fixing frame (3), the bottom of the inner cavity of the arc-shaped fixing pad (11) is fixedly clamped with the bottom of the antenna body (1), an annular heat dissipation box (2) is fixedly connected to the outer surface of the antenna body (1), the antenna body (1) and the annular heat dissipation box (2) are both positioned inside the arc-shaped fixing pad (11), communicating pipes (5) are fixedly connected to the left side and the right side of the top of the annular heat dissipation box (2), a heat dissipation water tank (4) is fixedly installed at the top of the antenna body (1), the two communicating pipes (5) are mutually symmetrical by taking the central line of the heat dissipation water tank (4) in the vertical direction as a symmetrical axis, the top ends of the communicating pipes (5) penetrate through the heat dissipation water tank (4) and extend to the inside of the heat dissipation water tank (4), the outer surface of the communicating pipe (5) is connected with the inner sealing of the heat dissipation water tank (4), the top end of the communicating pipe (5) is fixedly connected with a hot gas release device (7), the hot gas release device (7) comprises a barrel body (71), the top of the barrel body (71) is fixedly connected with an arc-shaped pipe (74), the top end of the arc-shaped pipe (74) is fixedly connected with the top of the communicating pipe (5), the bottom of the barrel body (71) is fixedly sleeved with a suck-back prevention device (72), the bottom of the outer surface of the suck-back prevention device (72) is fixedly connected with an air outlet (73), the bottom of the inner cavity of the heat dissipation water tank (4) is fixedly connected with a temperature difference heat dissipation generating device (9), the temperature difference heat dissipation generating device (9) is positioned under the air outlet (73), the temperature difference heat dissipation generating device (9) comprises a storage tank (91), the bottom of the storage tank (91) is fixedly connected with the bottom of the inner cavity of the heat dissipation water tank (4), the solar heat collecting device is characterized in that the heat collecting tubes (92) are fixedly connected to the top of the storage tank (91), the number of the heat collecting tubes (92) is sixty, the annular electricity generating pieces (93) are fixedly connected to the top of the heat collecting tubes (92), the annular electricity generating pieces (93) are located on the outer sides of the vertical tubes (721), the outer sides of the vertical tubes (721) are equal to the inner sides of the annular electricity generating pieces (93) in position, the top of the annular electricity generating pieces (93) is fixedly connected with the heat fixing tubes (94), the number of the heat fixing tubes (94) is sixty, the sixty heat fixing tubes (94) are fixedly connected with each other through arc guide rods (95) and are adjacent to each other, the sixty heat fixing tubes (94) are respectively corresponding to the positions over the sixty heat collecting tubes (92), the right sides of the annular electricity generating pieces (93) are electrically connected with the top of the storage tank (91) through cables, and the top ends of the annular electricity generating pieces (93) and the surface of liquid water inside the heat radiating water tank (4) are located on the same horizontal plane The thermal excitation that utilizes annular electricity generation piece (93) end is strong for thermal-collecting tube (92), and electron under high temperature relatively with low temperature concentration higher to drive electron and locate the diffusion to low temperature, thereby form the potential difference, then hold the electricity storage that produces to storage case (91), be convenient for supply power to the antenna.
2. The antenna device for the internet of vehicles according to claim 1, wherein: the suck-back prevention device (72) comprises a vertical pipe (721), the outer side of the top of the vertical pipe (721) is fixedly connected with the middle of the inner cavity of the cylinder body (71), an annular filter screen (722) is arranged at the middle upper part of the vertical pipe (721), a gap exists between the middle lower part of the vertical pipe (721) and the inner surface of the cylinder body (71), a conical body (723) is fixedly connected with the bottom of the inner cavity of the vertical pipe (721), and the bottom of the outer surface of the vertical pipe (721) is fixedly connected with the air outlet (73).
3. The antenna device for the internet of vehicles according to claim 1, wherein: the inside of communicating pipe (5) is provided with the sphere and wears magnetism device (6), its outside that is located the sphere and wears magnetism device (6) of communicating pipe (5) has seted up ring channel (16), the inside fixedly connected with card strip (15) of ring channel (16), the quantity of card strip (15) is six, six card strip (15) one side in opposite directions and the outside lateral contact of magnetism device (6) are worn to the sphere, six the thickness from the top down of card strip (15) reduces in proper order, the inside right side fixedly connected with permanent magnet plate (14) of communicating pipe (5), the inside left side fixedly connected with permanent magnet piece (12) of communicating pipe (5), permanent magnet piece (12) and permanent magnet plate (14) use the sphere to wear the central line of magnetism device (6) vertical direction to be symmetry axle mutual symmetry.
4. The antenna device for the internet of vehicles according to claim 3, wherein: the spherical magnetic device (6) comprises a temperature control ball (61), a fixed block (62) is fixedly connected to the middle of the inner cavity of the temperature control ball (61), vertical guide rods (64) are fixedly connected to the top and the bottom of the fixed block (62), transverse guide rods (63) are fixedly connected to the left side and the right side of the fixed block (62), an included angle between the fixed block (62) and the vertical guide rods (64) is ninety degrees, a rectifier (8) is fixedly connected to the right side of a clamping strip (15) through a cable, the back of the rectifier (8) is fixedly connected with the front of an arc-shaped fixing pad (11), a storage device (10) is fixedly connected to the front of the arc-shaped fixing pad (11), the quantity of the storage device (10) and the quantity of the rectifier (8) are two, and the left side of the storage device (10) is electrically connected with the right side of the adjacent rectifier (8) through a cable, the bottom of the annular groove (16) is fixedly connected with a ventilation and release net pad (13) matched with the temperature control ball (61).
Priority Applications (1)
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CN202010939615.6A CN112260587B (en) | 2020-09-09 | 2020-09-09 | Antenna device for internet of vehicles |
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CN202010939615.6A CN112260587B (en) | 2020-09-09 | 2020-09-09 | Antenna device for internet of vehicles |
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CN112260587A CN112260587A (en) | 2021-01-22 |
CN112260587B true CN112260587B (en) | 2021-09-07 |
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