CN115623351A - Energy-saving CPE with wind energy heat dissipation function - Google Patents

Abstract

The application discloses be applied to wireless communication network equipment technical field's an energy-saving CPE with wind energy heat dissipation function, the device can utilize the magnet of the crisscross setting of a plurality of positive negative poles, under the effect of wind power, drive a plurality of magnetic piston removal, thereby the mobility of the inside water of heat dissipation water pocket has been improved, the radiating effect of heat dissipation water pocket to the CPE body has been increased, simultaneously under the lever rotation of aviation baffle, make the frame of receiving the wind just to the wind direction, and then make wind blow to ventilative shell through the tuber pipe, play the cooling action to the water cavity of a plurality of aqueous vapor driving barrels inside ventilative shell, further improve the radiating effect, in addition, when the temperature of the inside water of heat dissipation water pocket rises, the cooperation biphase memory wire can be deformed nature and the flexible gasbag and the linkage between the driving sleeve by heating, can drive the rotation of tuber pipe, reach under the windless state, also in the short time, the effect of the inside water mobility of heat dissipation water pocket is strengthened, furthest improves its cooling effect.

Description

Energy-saving CPE with wind energy heat dissipation function

Technical Field

The application relates to the technical field of wireless communication network equipment, in particular to an energy-saving CPE with a wind energy heat dissipation function.

Background

The CPE can convert the received 5G/4G wireless signals into Wi-Fi signals to be provided to nearby equipment. The CPE is selected to realize 2 times of wireless relay on the network wireless signals of the operator, and the CPE is required to be installed at a higher position in the using process so as to be connected with the base station under the condition of no shielding.

However, in the process of using the CPE, a large amount of heat is generated due to the influence of the CPE or the ambient temperature, and therefore, in the process of using the CPE, a heat dissipation fan needs to be used, but the CPE generally needs to work for a long time, and therefore, the heat dissipation fan inevitably wastes a large amount of energy.

Through the problems, the applicant proposes an idea that the heat dissipation of the CPE is effectively energy-saving if wind energy is reasonably utilized, and therefore, the applicant proposes an energy-saving CPE with the function of wind energy heat dissipation.

Disclosure of Invention

The application aims to solve the problem that CPE generally needs long-time work and a large amount of energy loss is inevitably wasted by a cooling fan, compared with the prior art, the energy-saving CPE with wind energy cooling function is provided, an air pipe is connected on a support pipe in a rotating way, an air collecting frame communicated with the air pipe is fixedly connected on the side wall of the air pipe, an air deflector is fixedly connected on one side of the air pipe far away from the air collecting frame, a plurality of magnets which are uniformly distributed are fixedly connected at the lower end of the air pipe, the positive and negative poles of the plurality of magnets are arranged in a staggered way, a ventilating shell which is communicated with the support pipe is fixedly connected on the support pipe, a plurality of water-gas driving cylinders corresponding to the magnets are fixedly connected inside the ventilating shell, a magnetic piston is connected inside the water-gas driving cylinders in a sliding way, the water-gas driving cylinders are divided into an air cavity and a water cavity by the magnetic piston, a side wall of the ventilating shell is fixedly connected with a CPE body, a cooling water bag is arranged inside the CPE body, two water conveying pipes are fixedly connected on the lower side wall of the ventilating shell, the two water conveying pipes are communicated with the cooling water conveying pipes, the two water conveying pipes are respectively and are communicated with the two water conveying pipes in a staggered way,

the realization can utilize the crisscross magnet that sets up of a plurality of positive negative poles, under the effect of wind power, drive a plurality of magnetism pistons and remove, thereby the mobility of the inside water of heat dissipation water pocket has been improved, the radiating effect of heat dissipation water pocket to the CPE body has been increased, simultaneously under the lever rotation of aviation baffle, make and receive the wind frame and just to the wind direction, and then make wind blow to ventilative shell through the tuber pipe, play the cooling action to the water cavity of a plurality of aqueous vapor driving cylinders inside ventilative shell, further improve the radiating effect.

Optionally, the upper side wall of the breathable shell is fixedly connected with an air storage bottom box, and the upper side wall of the air storage bottom box is fixedly connected with a telescopic air bag communicated with the plurality of air cavities.

Optionally, flexible gasbag upper end fixedly connected with crown plate, fixedly connected with tension spring between crown plate and the air storage bottom box can absorb external air under windy state, when preparing to be used for next windless, dispels the heat to the CPE body.

Optionally, a pressure release valve is installed on the air storage bottom box, when the telescopic air bag is inflated to the maximum limit of the telescopic air bag, redundant air is discharged from the pressure release valve, and therefore the situation that the magnetic piston cannot move due to air pressure is avoided.

Optionally, the upper side wall of the heat-dissipating water bag is fixedly connected with a heat-conducting fin, the upper side wall of the heat-conducting fin is fixedly connected with a two-phase memory metal wire, and the upper end of the two-phase memory metal wire is fixedly connected with a sealing sheet.

Optionally, an air pipe is communicated between the CPE body and the air storage bottom box, the sealing sheet is in contact with the air pipe, and the absorbed air can be used for heat dissipation when water in the heat dissipation water bag is in a high-temperature state.

Optionally, two ejector rods are fixedly connected to the upper side wall of the ring plate, and a driving sleeve is fixedly connected between the two ejector rods, so that the air pipe can be driven to rotate when the heat dissipation water bag is at a high temperature, the flow of water inside the heat dissipation water bag is accelerated, and the heat dissipation effect is improved.

Optionally, the driving sleeve comprises a fixed sleeve sleeved on the air pipe, threads are carved on the air pipe, a thread sleeve connected with the air pipe in a threaded manner is arranged inside the fixed sleeve, and a one-way bearing is arranged between the fixed sleeve and the thread sleeve, so that the driving sleeve can be driven to ascend when the air pipe rotates forwards and can not be driven to descend when the air pipe rotates backwards, and the situation that the driving sleeve cannot ascend is avoided.

Optionally, the lower side wall of the air deflector is fixedly connected with a pendulum ball, so that the inertia of the pendulum ball can be utilized to improve the rotation time of the air pipe.

Optionally, the water-air driving cylinders are all provided with one-way valves communicated with air cavities of the water-air driving cylinders, so that the water-air driving cylinders can absorb outside air.

Compared with the prior art, the invention has the advantages that:

(1) This scheme can utilize the crisscross magnet that sets up of a plurality of positive negative poles, under the effect of wind power, drive a plurality of magnetic piston and remove, thereby the mobility of the inside water of heat dissipation water pocket has been improved, the radiating effect of heat dissipation water pocket to the CPE body has been increased, simultaneously under the lever rotation of aviation baffle, make and receive the wind frame and just to the wind direction, and then make wind blow to ventilative shell through the tuber pipe, play the cooling action to the water cavity of a plurality of aqueous vapor driving barrels inside ventilative shell, further improve the radiating effect, in addition, when the temperature of the inside water of heat dissipation water pocket rises, the linkage between flexible gasbag of the nature of being heated of collocation diphase memory wire and flexible gasbag and the driving sleeve, can drive the rotation of tuber pipe, reach under the state of no wind, also in the short time, strengthen the inside water mobility's of heat dissipation water pocket effect, furthest improves its cooling effect.

(2) The box at the bottom of lateral wall fixedly connected with banket on the ventilative shell, the flexible gasbag that lateral wall fixedly connected with and a plurality of air chambers are linked together on the box at the bottom of the banket, flexible gasbag upper end fixedly connected with crown plate, fixedly connected with tension spring between crown plate and the box at the bottom of the banket can absorb external air under windy state, when preparing to be used for next time calm, dispels the heat to the CPE body.

(3) The air storage bottom box is provided with a pressure release valve, when the telescopic air bag is inflated to the maximum limit of the telescopic air bag, redundant air is discharged from the pressure release valve, and therefore the situation that the magnetic piston cannot move due to air pressure is avoided.

(4) Lateral wall fixedly connected with conducting strip on the heat dissipation water pocket, lateral wall fixedly connected with diphase memory wire on the conducting strip, diphase memory wire upper end fixedly connected with gasket, it has the trachea to be linked together between CPE body and the air storage end box, and the gasket contacts with the trachea, can be when the inside water of heat dissipation water pocket is in high temperature state, is used for the heat dissipation with the absorbed air.

(5) Two ejector pins of lateral wall fixedly connected with on the crown plate, fixedly connected with drive cover between two ejector pins can drive the tuber pipe and take place to rotate under the state that the heat dissipation water pocket is in the high temperature to accelerated the flow of the inside water of heat dissipation water pocket, improved the radiating effect.

(6) The driving sleeve comprises a fixed sleeve which is sleeved on the air pipe, threads are carved on the air pipe, a thread sleeve which is in threaded connection with the air pipe is arranged inside the fixed sleeve, and a one-way bearing is arranged between the fixed sleeve and the thread sleeve.

(7) The swing ball is fixedly connected to the lower side wall of the air deflector, so that the rotation time of the air pipe can be prolonged by utilizing the inertia of the swing ball.

(8) The water-air driving cylinders are all provided with one-way valves communicated with the air cavities of the water-air driving cylinders, and the water-air driving cylinders can absorb outside air.

Drawings

FIG. 1 is a three-dimensional perspective view of the present application;

FIG. 2 is a front view of the present application;

FIG. 3 is a front sectional view of the interior of the support tube of the present application;

FIG. 4 is a schematic view of the structure of the inside of the gas permeable shell of the present application;

FIG. 5 is a top cross-sectional view of the present application at a breathable enclosure;

FIG. 6 is a schematic view of the structure of the telescoping bladder portion of the present application;

FIG. 7 is a view of the magnetic piston of the present application in a displaced state;

FIG. 8 is a flow diagram of water inside the water delivery pipe of the present application;

FIG. 9 is a view showing the state of the present invention when the air bag is deflated;

fig. 10 is a schematic view of the structure of the driving sleeve of the present application.

The reference numbers in the figures illustrate:

the device comprises a support tube 1, an air duct 2, an air collecting frame 21, an air deflector 22, a pendulum ball 23, a magnet 3, an air permeable shell 4, a water vapor driving cylinder 5, a magnetic piston 51, a one-way valve 52, a pressure release valve 53, an air storage bottom box 54, a water delivery pipe 6, a CPE body 7, a heat dissipation water bag 71, an expansion air bag 8, a tension spring 81, a ring plate 82, an ejector rod 83, a driving sleeve 9, a fixing sleeve 91, a threaded sleeve 92, a one-way bearing 93, a heat conducting sheet 10, a two-phase memory metal wire 101, a sealing sheet 102 and an air duct 103.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments in the present application belong to the protection scope of the present application.

Example 1:

the application discloses energy-saving CPE with wind energy heat dissipation function, please refer to fig. 1-5, including stay tube 1, it is connected with tuber pipe 2 to rotate on the stay tube 1, fixedly connected with receives wind frame 21 rather than being linked together on 2 lateral walls of tuber pipe, tuber pipe 2 keeps away from receiving wind frame 21 one side fixedly connected with aviation baffle 22, a plurality of evenly distributed's of fixedly connected with magnet 3 of tuber pipe 2 lower extreme, and the crisscross setting of a plurality of magnet 3 positive negative poles, ventilative shell 4 that fixedly connected with is linked together on stay tube 1, ventilative shell 4 inside fixedly connected with a plurality of aqueous vapor driving barrels 5 corresponding with magnet 3, aqueous vapor driving barrel 5 inside sliding connection has magnetic piston 51, aqueous vapor driving barrel 5 is divided into air chamber and water cavity through magnetic piston 51, ventilative shell 4 a lateral wall fixedly connected with CPE body 7, CPE body 7 internally mounted has heat dissipation water bag 71, lateral wall fixedly connected with two raceway 6 under ventilative shell 4, and two raceway 6 are linked together with heat dissipation water bag 71, a plurality of water cavities are crisscross with two raceway 6 respectively.

Referring to fig. 7-8, when in use, the air duct 2 is driven to rotate by the wind in different directions under the action of the wind deflector 22, as shown in fig. 1, the air duct 2 drives the plurality of magnets 3 to rotate, so that the magnetic piston 51 reciprocates under the constantly alternating magnetic actions of the positive and negative poles of the plurality of magnets 3, as shown in fig. 7, so as to drive the water in the water chamber to pass through the two water ducts 6, and constantly change the water in the heat dissipation water bag 71, as shown in fig. 8, so that the water in the heat dissipation water bag 71 is in a flowing state, thereby continuously and effectively performing a heat dissipation function on the CPE body 7, and meanwhile, no matter which direction of the wind, the air receiving frame 21 can directly face the wind direction under the lever rotation of the wind deflector 22, so that the wind can be blown to the air permeable shell 4 through the air duct 2, and cool the water chambers of the plurality of water-air driving cylinders 5 in the air permeable shell 4, and in addition, when the air duct 2 rotates, the swing ball 23 can continuously swing, so as to effectively prolong the rotation inertia of the air duct 2, and further improve the heat dissipation effect.

Referring to fig. 6, an air storage bottom box 54 is fixedly connected to the upper side wall of the air permeable shell 4, an air storage bottom box 54 is fixedly connected to the upper side wall of the air storage bottom box 54, a telescopic airbag 8 communicated with a plurality of air chambers is fixedly connected to the upper end of the telescopic airbag 8, a ring plate 82 is fixedly connected to the upper end of the telescopic airbag 8, a tension spring 81 is fixedly connected between the ring plate 82 and the air storage bottom box 54, a pressure release valve 53 is installed on the air storage bottom box 54, a heat conducting fin 10 is fixedly connected to the upper side wall of the heat radiating airbag 71, a two-phase memory metal wire 101 is fixedly connected to the upper side wall of the heat conducting fin 10, a sealing piece 102 is fixedly connected to the upper end of the two-phase memory metal wire 101, an air pipe 103 is communicated between the cpe body 7 and the air storage bottom box 54, the sealing piece 102 is in contact with the air pipe 103, two ejector rods 83 are fixedly connected to the upper side wall of the ring plate 82, a driving sleeve 9 is fixedly connected between the two ejector rods 83, the driving sleeve 9 comprises a fixing sleeve 91 sleeved on the air pipe 2, a chisel thread is carved on the air pipe 2, a thread is arranged inside the fixing sleeve 91, a thread sleeve 92 connected to the air pipe 2, a thread sleeve 92 is arranged inside the fixing sleeve 91, a one-way bearing 93 is arranged between the fixing sleeve 91 and the fixing sleeve 92, and a pendulum ball 23 is connected to the lower side wall of the fixing sleeve 22.

Referring to fig. 9-10, when the air duct is in a state without wind or with a small wind force, the mobility of water inside the heat dissipation water bag 71 is poor, which causes the water to absorb heat and the temperature to rise continuously, so that under the action of the temperature, the dual-phase memory metal wire 101 is heated to deform through the heat conduction of the heat conducting sheet 10, the sealing sheet 102 is pushed to move upwards, and then the air inside the air bag 8 is discharged into the CPE body 7 under the restoring tension of the tension spring 81, which has a certain degree of heat dissipation effect on the CPE body 7, and in addition, the air bag 8 contracts under the tension of the tension spring 81, and drives the driving sleeve 9 to move downwards through the ring plate 82 and the two ejector rods 83, as shown in fig. 9, so that the driving sleeve 9 drives the air duct 2 to rotate under the action of the screw thread, thereby improving the mobility of water inside the heat dissipation water bag 71 and improving the heat dissipation effect of the heat dissipation water bag 71 on the CPE body 7.

The water-air driving cylinders 5 are all provided with one-way valves 52 communicated with the air chambers thereof.

After the heat dissipation water bag 71 is cooled, the two-phase memory metal wire 101 is no longer heated and is restored, the sealing sheet 102 is further pulled, the air pipe 103 is blocked again, when the air pipe 2 is driven by subsequent air to rotate again, the air pipe 2 can be matched with magnetic force between the magnet 3 and the magnetic piston 51, so that air cavities inside the water vapor driving cylinder 5 continuously absorb outside air, and the air cavities are filled into the telescopic air bag 8, a one-way pipe is arranged between the air cavities of the water vapor driving cylinder 5 and the telescopic air bag 8 when the telescopic air bag 8 expands, the phenomenon that the air inside the telescopic air bag 8 leaks can be avoided, therefore, the driving sleeve 9 is pushed to the upper part of the engraved threads of the air pipe 2 through the ejector rod 83 by means of expansion of the telescopic air bag 8, the resetting of the driving sleeve 9 is completed, when the telescopic air bag 8 is filled to the maximum limit of the telescopic air bag, redundant air can be discharged from the pressure release valve 53, and the situation that the magnetic piston 51 cannot move due to air pressure is avoided.

Supplementary notes: when the normal use, because the driving sleeve 9 does not contact with the screw thread direct contact of tuber pipe 2, this makes tuber pipe 2 when normal rotation, can not drive driving sleeve 9 and take place to remove, and only under tension spring 81's reply pulling force, driving sleeve 9 just can contact with the screw thread of tuber pipe 2, and then just can drive tuber pipe 2 and take place rotatoryly, in addition, because the existence of one-way bearing 93, as shown in fig. 10, make tuber pipe 2 when corotation, can drive driving sleeve 9 and rise, and during the reversal, can not drive driving sleeve 9 and descend.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. An energy-saving CPE with wind energy heat dissipation function, which comprises a support tube (1), and is characterized in that: an air pipe (2) is rotatably connected to the supporting pipe (1), an air collecting frame (21) communicated with the air pipe (2) is fixedly connected to the side wall of the air pipe (2), an air deflector (22) is fixedly connected to one side, far away from the air collecting frame (21), of the air pipe (2), a plurality of magnets (3) which are uniformly distributed are fixedly connected to the lower end of the air pipe (2), the positive and negative poles of the plurality of magnets (3) are arranged in a staggered mode, a ventilating shell (4) communicated with the air pipe is fixedly connected to the supporting pipe (1), a plurality of water vapor driving cylinders (5) corresponding to the magnets (3) are fixedly connected to the interior of the ventilating shell (4), the utility model discloses a solar energy water heater, including aqueous vapor driving cylinder (5), aqueous vapor driving cylinder (5) inside sliding connection has magnetic piston (51), aqueous vapor driving cylinder (5) divide into air chamber and water cavity through magnetic piston (51), ventilative shell (4) a lateral wall fixedly connected with CPE body (7), CPE body (7) internally mounted has heat dissipation water pocket (71), lateral wall fixedly connected with two raceway (6) under ventilative shell (4), and two raceway (6) are linked together with heat dissipation water pocket (71), and a plurality of water cavities are crisscross respectively and are linked together with two raceway (6).

2. The energy-saving CPE with wind energy heat dissipation function according to claim 1, characterized in that: the side wall of the ventilation shell (4) is fixedly connected with an air storage bottom box (54), and the side wall of the air storage bottom box (54) is fixedly connected with a telescopic air bag (8) communicated with a plurality of air cavities.

3. The energy-saving CPE with wind energy heat dissipation function according to claim 2, characterized in that: the upper end of the telescopic air bag (8) is fixedly connected with a ring plate (82), and a tension spring (81) is fixedly connected between the ring plate (82) and the air storage bottom box (54).

4. The energy-saving CPE having the function of dissipating heat from wind according to claim 3, characterized in that: and a pressure release valve (53) is arranged on the air storage bottom box (54).

5. The energy-saving CPE with wind energy heat dissipation function according to claim 1, characterized in that: the side wall of the heat dissipation water bag (71) is fixedly connected with a heat conducting sheet (10), the side wall of the heat conducting sheet (10) is fixedly connected with a double-phase memory metal wire (101), and the upper end of the double-phase memory metal wire (101) is fixedly connected with a sealing sheet (102).

6. The energy-saving CPE having wind energy heat dissipation function according to claim 5, wherein: an air pipe (103) is communicated between the CPE body (7) and the air storage bottom box (54), and the sealing piece (102) is in contact with the air pipe (103).

7. The energy-saving CPE with wind energy heat dissipation function according to claim 3, characterized in that: the side wall of the ring plate (82) is fixedly connected with two ejector rods (83), and a driving sleeve (9) is fixedly connected between the two ejector rods (83).

8. The energy-saving CPE with wind energy heat dissipation function according to claim 7, characterized in that: drive cover (9) establish fixed cover (91) on tuber pipe (2) including the cover, it has the screw thread to carve on tuber pipe (2), fixed cover (91) inside be provided with tuber pipe (2) threaded connection's thread bush (92), install one-way bearing (93) between fixed cover (91) and thread bush (92).

9. The energy-saving CPE with wind energy heat dissipation function according to claim 1, characterized in that: the lower side wall of the air deflector (22) is fixedly connected with a pendulum ball (23).

10. The energy-saving CPE with wind energy heat dissipation function as claimed in claim 1, wherein: and the water-air driving cylinders (5) are all provided with one-way valves (52) communicated with the air cavities of the water-air driving cylinders.

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