CN209730982U - A kind of wind power cabin cover heat reclaiming system - Google Patents
A kind of wind power cabin cover heat reclaiming system Download PDFInfo
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- CN209730982U CN209730982U CN201920479613.6U CN201920479613U CN209730982U CN 209730982 U CN209730982 U CN 209730982U CN 201920479613 U CN201920479613 U CN 201920479613U CN 209730982 U CN209730982 U CN 209730982U
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- wind
- trigger device
- electricity generation
- magnet
- powered electricity
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Abstract
The utility model provides a kind of wind power cabin cover heat reclaiming system, including wind-powered electricity generation hatch cover, trigger device, magnet and the independent storage case disposed, storage battery and induction tube are installed within storage case, conducting wire is wound on induction tube outer peripheral surface, the both ends of conducting wire are connect with the anode of storage battery, cathode respectively, magnet is connected on wind-powered electricity generation hatch cover by trigger device, thermal energy transmitting and converting within wind-powered electricity generation hatch cover is the motion energy of magnet by trigger device, protrudes into magnet within induction tube or by stretching out within induction tube.Using the technical solution of the utility model, it by thermal energy transmitting and converting that within wind-powered electricity generation hatch cover or its surface is absorbed is that magnet extends into or out induction tube, insulating bar extends into or out the reciprocating motion of electric shock device by trigger device, achieve the purpose that collect as far as possible and has recycled thermal energy, and the storage tank discharge when charging to storage battery is effectively prevented, energy conversion utilization efficiency is effectively improved.
Description
Technical field
The utility model relates to technical field of wind power generator, particularly relate to a kind of wind power cabin cover heat reclaiming system.
Background technique
Cabin cover of wind power generator is the important protective casing of wind power generating set, and reliability determines running of wind generating set
Stability and service life, all component covers in cabin wherein, are isolated from the outside by cabin cover of wind power generator.In general,
Engine room cover is made of fiberglass-reinforced plastic, and important component of the engine room cover as wind power generating set, is wind power generating set
Safeguard structure, so that wind power generating set is worked normally in severe weather environment, protect internal unit and personnel not by
The infringement of the external environmental factors such as wind, rain, snow, salt fog, ultraviolet radioactive.Under this environmental condition, it is ensured that Wind turbines are just
Often work 20 years, it is desirable to which engine room cover has high quality, high reliability.Currently, wind power generating set long-play outdoors
When, due to irradiation by sunlight etc., generator hatch cover surface can absorb many heats, these thermal energy are not closed
Being directly discharged in ambient enviroment using several for reason, causes huge energy waste, and therefore, there is an urgent need to design one kind to incite somebody to action
The heat reclaiming system that these thermal energy are rationally utilized.
Utility model content
In order to solve the above technical problems, the utility model provides a kind of wind power cabin cover heat reclaiming system.
The utility model is achieved by the following technical programs.
The utility model provides a kind of wind power cabin cover heat reclaiming system, including wind-powered electricity generation hatch cover, trigger device, magnet
The storage case independently disposed is equipped with storage battery and induction tube within the storage case, winds on the induction tube outer peripheral surface
There is conducting wire, the both ends of the conducting wire are connect with the anode of the storage battery, cathode respectively, and the magnet passes through the trigger device
It is connected on wind-powered electricity generation hatch cover, the thermal energy transmitting and converting within the wind-powered electricity generation hatch cover is the fortune of the magnet by the trigger device
Dynamic kinetic energy, protrudes into the magnet within the induction tube or by stretching out within the induction tube.
The trigger device includes connecting tube, cylinder, switchboard and balancing pole, and one end of the connecting tube is as the touching
Transmitting apparatus input terminal is connected to the wind-powered electricity generation hatch cover, and the other end of the connecting tube is connected to cylinder block, outside the storage case
It is fixedly connected with support rod on wall, is articulated on support rod in the middle part of balancing pole, one end of balancing pole and cylinder piston rod are hinged,
The other end of balancing pole and one end of switchboard are hinged, and the other end of switchboard passes through to extend outwardly in the middle part of connecting tube, balancing pole
With cylinder piston rod junction as the trigger device output end, the magnet be installed on the trigger device output end it
On, when balancing pole is swung relative to support rod, connecting tube two sides can be connected or be truncated by switchboard.
The balancing pole also passes through elastomeric element with the switchboard junction and links together with the storage case.
The elastomeric element is cylindrically coiled spring.
Switch hole is provided on the switchboard, the connecting tube two sides are connected by the switch hole.
It is provided with the hermetic bag being connected to the connecting tube in the connection pipe outer wall, when the balancing pole is relative to described
When support rod is swung, the switchboard is movably protruded within the hermetic bag.
The material of the induction tube is copper or copper alloy.
The wind-powered electricity generation hatch cover heat reclaiming system further includes electric shock device and insulating bar, and electric shock device is connected in the conducting wire
Portion, insulating bar are connected on the wind-powered electricity generation hatch cover by the trigger device, the trigger device by the wind-powered electricity generation hatch cover with
Interior thermal energy transmitting and converting is the motion energy of the insulating bar, protrudes into the insulating bar within electric shock device or by stretching within electric shock device
Out.
Air blower, air blower installation site and the trigger device input terminal pair are also equipped within the wind-powered electricity generation hatch cover
Together.
The utility model has the beneficial effects that: using the technical solution of the utility model, within wind-powered electricity generation hatch cover or its table
The thermal energy that face is absorbed is carried by hot wind, is sent within cylinder by connecting tube, and driving cylinder piston rod movement makes to balance
Bar is swung around support rod, protrudes into corresponding magnet within induction tube or by stretching out within induction tube, according to magnetic induction principle,
Induced current is produced within conducting wire, induced current charges to storage battery, to finally convert heat energy into electric energy storage
There are within storage battery, meanwhile, when magnet moves downward, then switchboard can be made to move upwards, block connecting tube, and then from
It is dynamic to reduce the hot gas being sent within cylinder, at this moment, and magnet can be made to move upwards, into next dust cycle, reached
The purpose constantly to charge to storage battery according to corresponding interval time, in addition, insulating bar is also stretched according to the identical frequency
Enter within the device that gets an electric shock or by being stretched out within the electric shock phase, so that electric shock device is broken by insulating bar when charging to storage battery
It opens, and then disconnects entire charge circuit, guarantee that when charging to storage battery, storage battery is not discharged, and prevents the energy to be lost,
Achieve the purpose that improve energy conversion efficiency.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model;
Fig. 2 is partial enlarged view at A in the utility model Fig. 1.
In figure: 1- air blower, 2- connecting tube, 3- cylinder, 6- balancing pole, 7- magnet, 8- elastomeric element, 9- storage case, 10-
Switchboard, 11- switch hole, 12- support rod, 13- storage battery, 15- conducting wire, 16- copper pipe, 17- electric shock device, 18- wind-powered electricity generation hatch cover,
19- hermetic bag, 105- insulating bar.
Specific embodiment
Be described further below the technical solution of the utility model, but claimed range be not limited to it is described.
As shown in Figure 1 and Figure 2, the utility model provides a kind of wind power cabin cover heat reclaiming system, including wind-powered electricity generation hatch cover
18, trigger device, magnet 7 and the storage case 9 independently disposed are equipped with storage battery 13 and induction tube 16 within storage case 9, incude
Conducting wire 15 is wound on 16 outer peripheral surface of pipe, the both ends of conducting wire 15 are connect with the anode of storage battery 13, cathode respectively, and magnet 7 passes through
Trigger device is connected on wind-powered electricity generation hatch cover 18, and the thermal energy transmitting and converting within wind-powered electricity generation hatch cover 18 is magnet 7 by trigger device
Motion energy protrudes into magnet 7 within induction tube 16 or by stretching out within induction tube 16.
Using the technical solution of the utility model, within wind-powered electricity generation hatch cover or thermal energy that its surface is absorbed is taken by hot wind
Band is sent within cylinder by connecting tube, and driving cylinder piston rod movement swings balancing pole around support rod, makes corresponding
Magnet protrudes within induction tube or by stretching out within induction tube, and according to magnetic induction principle, induced current is produced within conducting wire,
Induced current charges to storage battery, is stored within storage battery to finally convert heat energy into electric energy, meanwhile, work as magnet
When moving downward, then switchboard can be made to move upwards, block connecting tube, and then reduce the hot gas being sent within cylinder automatically,
At this moment, and magnet can be made to move upwards, into next dust cycle, has reached constantly right according to corresponding interval time
The purpose that storage battery charges, in addition, within insulating bar also protrudes within electric shock device or by the electric shock phase according to the identical frequency
It stretches out, so that disconnected electric shock device by insulating bar, and then disconnect entire charge circuit when charging to storage battery,
Guarantee that when charging to storage battery, storage battery is not discharged, and prevents the energy to be lost, has reached raising energy conversion efficiency
Purpose.
Further, trigger device includes connecting tube 2, cylinder 3, switchboard 10 and balancing pole 6, and one end of connecting tube 2 is made
It is connected to for trigger device input terminal with wind-powered electricity generation hatch cover 18, the other end of connecting tube 2 is connected to 3 cylinder body of cylinder, on 9 outer wall of storage case
It is fixedly connected with support rod 12, is articulated in the middle part of balancing pole 6 on support rod 12, one end of balancing pole 6 and 3 piston rod of cylinder are cut with scissors
It connects, one end of the other end and switchboard 10 of balancing pole 6 is hinged, and the other end of switchboard 10 passes through 2 middle part of connecting tube to extension
Stretch, balancing pole 6 and 3 piston rod junction of cylinder as trigger device output end, magnet 7 be installed on trigger device output end it
On, when balancing pole 6 is swung relative to support rod 12,2 two sides of connecting tube can be connected or be truncated by switchboard 10.Using this
The technical solution of utility model utilizes the location status feedback information from magnet to be used for automatically by the swing of balancing pole 6
The conducting or truncation for controlling connecting tube have reached intermittent to being sent within cylinder without installing other corresponding control devices
The purpose of hot wind, to ensure that under the conditions of the reciprocating motion of magnet and carry out lasting power supply to storage battery, with to greatest extent
Ground is collected within wind-powered electricity generation hatch cover 18 or the thermal energy on its surface.
Further, it is preferable to which balancing pole 6 and 10 junction of switchboard also pass through elastomeric element 8 and storage case 9 is connected to one
It rises.Elastomeric element 8 is cylindrically coiled spring.Switch hole 11 is provided on switchboard 10,2 two sides of connecting tube pass through the switch hole
11 conductings.It is preferred that 11 size of switch hole is consistent with hole size in connecting tube.
Further, it is provided with the hermetic bag 19 being connected to connecting tube 2 on 2 outer wall of connecting tube, when balancing pole 6 is relative to branch
When strut 12 is swung, switchboard 10 is movably protruded within the hermetic bag 19.It is preferred that the material of induction tube 16 is that copper or copper close
Gold.
In addition, 18 heat reclaiming system of wind-powered electricity generation hatch cover further includes electric shock device 17 and insulating bar 105, electric shock device 17, which is connected to, is led
15 middle part of line, insulating bar 105 are connected on wind-powered electricity generation hatch cover 18 by trigger device, and trigger device will be within wind-powered electricity generation hatch cover 18
Thermal energy transmitting and converting is the motion energy of the insulating bar 105, protrudes into the insulating bar 105 within electric shock device 17 or by electric shock device 17
Within stretch out.
Further, air blower 1 is also equipped within wind-powered electricity generation hatch cover 18,1 installation site of air blower and trigger device input
End alignment.Using the technical solution of the utility model, under the booster action of air blower 1, be conducive to guide hot wind completely into
Within connecting tube, thus in the upper thermal energy collected within wind-powered electricity generation hatch cover 18 to greatest extent.
Claims (9)
1. a kind of wind power cabin cover heat reclaiming system, it is characterised in that: including wind-powered electricity generation hatch cover (18), trigger device, magnet (7)
The storage case (9) independently disposed is equipped with storage battery (13) and induction tube (16), the induction within the storage case (9)
It is wound with conducting wire (15) on pipe (16) outer peripheral surface, the both ends of the conducting wire (15) are positive, negative with the storage battery (13) respectively
Pole connection, the magnet (7) be connected on wind-powered electricity generation hatch cover (18) by the trigger device, and the trigger device is by the wind
Thermal energy transmitting and converting within electric hatch cover (18) is the motion energy of the magnet (7), and the magnet (7) is made to protrude into the induction
It manages within (16) or by being stretched out within the induction tube (16).
2. wind power cabin cover heat reclaiming system as described in claim 1, it is characterised in that: the trigger device includes connection
(2), cylinder (3), switchboard (10) and balancing pole (6) are managed, one end of the connecting tube (2) is as the trigger device input terminal
It is connected to the wind-powered electricity generation hatch cover (18), the other end of the connecting tube (2) is connected to cylinder (3) cylinder body, and the storage case (9) is outside
Be fixedly connected on wall support rod (12), be articulated on support rod (12) in the middle part of balancing pole (6), one end of balancing pole (6) with
Cylinder (3) piston rod is hinged, and one end of the other end and switchboard (10) of balancing pole (6) is hinged, the other end of switchboard (10)
Extend outwardly in the middle part of connecting tube (2), balancing pole (6) and cylinder (3) piston rod junction are exported as the trigger device
End, the magnet (7) are installed on the trigger device output end, when balancing pole (6) is swung relative to support rod (12),
Connecting tube (2) two sides can be connected or be truncated by switchboard (10).
3. wind power cabin cover heat reclaiming system as claimed in claim 2, it is characterised in that: the balancing pole (6) with it is described
Switchboard (10) junction also passes through elastomeric element (8) and links together with the storage case (9).
4. wind power cabin cover heat reclaiming system as claimed in claim 3, it is characterised in that: the elastomeric element (8) is round
Column helical spring.
5. wind power cabin cover heat reclaiming system as claimed in claim 2, it is characterised in that: set on the switchboard (10)
It is equipped with switch hole (11), connecting tube (2) two sides are connected by the switch hole (11).
6. wind power cabin cover heat reclaiming system as claimed in claim 2, it is characterised in that: on connecting tube (2) outer wall
It is provided with the hermetic bag (19) being connected to the connecting tube (2), when the balancing pole (6) is swung relative to the support rod (12)
When, the switchboard (10) is movably protruded within the hermetic bag (19).
7. wind power cabin cover heat reclaiming system as described in claim 1, it is characterised in that: the material of the induction tube (16)
It is copper or copper alloy.
8. wind power cabin cover heat reclaiming system as described in claim 1, it is characterised in that: wind-powered electricity generation hatch cover (18) thermal energy
Recovery system further includes electric shock device (17) and insulating bar (105), and electric shock device (17) is connected in the middle part of the conducting wire (15), insulating bar
(105) it is connected on the wind-powered electricity generation hatch cover (18) by the trigger device, the trigger device is by the wind-powered electricity generation hatch cover
(18) the thermal energy transmitting and converting within is the motion energy of the insulating bar (105), and the insulating bar (105) is made to protrude into electric shock device (17)
Within or by being stretched out within electric shock device (17).
9. wind power cabin cover heat reclaiming system as described in claim 1, it is characterised in that: within the wind-powered electricity generation hatch cover (18)
It is also equipped with air blower (1), air blower (1) installation site is aligned with the trigger device input terminal.
Priority Applications (1)
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CN201920479613.6U CN209730982U (en) | 2019-04-10 | 2019-04-10 | A kind of wind power cabin cover heat reclaiming system |
Applications Claiming Priority (1)
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CN201920479613.6U CN209730982U (en) | 2019-04-10 | 2019-04-10 | A kind of wind power cabin cover heat reclaiming system |
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CN209730982U true CN209730982U (en) | 2019-12-03 |
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ID=68691034
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CN201920479613.6U Active CN209730982U (en) | 2019-04-10 | 2019-04-10 | A kind of wind power cabin cover heat reclaiming system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110061595A (en) * | 2019-04-10 | 2019-07-26 | 中国电建集团贵阳勘测设计研究院有限公司 | A kind of wind power cabin cover heat reclaiming system |
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2019
- 2019-04-10 CN CN201920479613.6U patent/CN209730982U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110061595A (en) * | 2019-04-10 | 2019-07-26 | 中国电建集团贵阳勘测设计研究院有限公司 | A kind of wind power cabin cover heat reclaiming system |
CN110061595B (en) * | 2019-04-10 | 2024-03-19 | 中国电建集团贵阳勘测设计研究院有限公司 | Wind power cabin cover heat energy recovery system |
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