CN209267248U - A kind of automatic charging system based on energy acquisition - Google Patents

Abstract

The utility model discloses a kind of automatic charging systems based on energy acquisition, the kinetic energy acquisition system and solar collecting device connecting including charging unit and respectively with charging unit；Kinetic energy acquisition system includes multiple kinetic energy acquisition devices laid side by side and multiple acquired kinetic energy of kinetic energy acquisition device is converted to the generator of electric energy, and each kinetic energy acquisition device includes supporting element, drives the main energy collecting device of swivel becket rotation and the central gear in swivel becket and the secondary energy collecting device that can be moved back and forth between central gear and swivel becket；The central gear of multiple kinetic energy acquisition devices is in coaxial laying and its gear shaft is connected as one from front to back and is formed assembling axis, and the power input shaft for assembling axis and generator is coaxially connected.The structure design of the utility model is reasonable, easy to use and using effect is good, economical and practical, can be carried out easy, effectively acquisition to kinetic energy and the sun, and institute's collecting energy can be converted to electric energy and be stored or utilized.

Description

A kind of automatic charging system based on energy acquisition

Technical field

The utility model relates to a kind of charging systems, more particularly, to a kind of automatic charging system based on energy acquisition.

Background technique

Mechanical energy is the summation of kinetic energy and potential energy, and potential energy is divided into gravitional force and elastic potential energy again.Determine kinetic energy is matter Amount and speed；Determine gravitional force is quality and height；Determine elastic potential energy is stiffness factor and deformation quantity.Mechanical energy is Indicate the physical quantity of object moving state and height.It can be converted between the kinetic energy and potential energy of object.In only kinetic energy and During potential energy mutually converts, the total amount of mechanical energy is remained unchanged, i.e., mechanical energy is conservation.Wind energy and water energy also belong to dynamic Energy.

Nowadays, with the continuous progress of the development of science and technology and society, green technology is increasingly subject to people's attention.Institute Meaning green technology, which refers to, can be reduced pollution, reduces consumption and improves the technical system of ecology.It is necessary to find and study new letter Just, the energy is saved and recycled to easy and effective method, thus energy acquisition technology just becomes more and more important.Energy is adopted Collection technology refers to that the de minimis energy (such as luminous energy, vibrational energy, wind energy, thermal energy, water energy external energy) that surrounding occurs is converted to The technology of electric energy.The energy source that energy acquisition technology is converted is very rich, it is necessary to actually occur and not sharp to above-mentioned External energy is converted effectively to recycle.Meanwhile the electric energy converted can be used to other power electronic equipments, and And it is widely applicable, it is able to satisfy the power demands of a variety of industries.In addition, the electric energy converted is independent of battery or power socket, Electric energy directly can be provided for corresponding electronic equipment, easy to use, for example portable electronic device charging etc.；Also, can have Effect is suitable for the occasion that the electric power such as underground mine, desert, outlying district can not be transported to.

A variety of conventional energy collecting systems are currently, there are, but above-mentioned conventional energy collecting system is usually that will vibrate The energy such as energy are converted to electric energy and its working principle is that generating electric energy using piezoelectric material, and piezoelectric material generates charge by vibration, Every 1 cubic centimetre of piezoelectric material can produce the electric energy of up to 0.5 milliwatt, which can be used to drive small device, such as rise It fights device, wrist-watch or wireless sensor etc..In actual use, in above-mentioned conventional energy collecting system, piezoelectric material can be by appointing The aperiodic vibration of meaning obtains regenerated electric power, for example, generated on bridge in vehicle travel process vibration, industrial circle Mechanically actuated etc., although the above-mentioned energy collecting system based on piezoelectric material can be provided for a portable electronic device it is enough Electric energy, but piezoelectric material is expensive.Therefore, it is necessary to be improved to routine based on the energy collecting system of piezoelectric material, mention Good, the economical and practical automatic charging based on energy acquisition for a kind of reasonable in design, easy to use and using effect System can be carried out easy, effectively acquisition to kinetic energy and the sun, and institute's collecting energy can be converted to electric energy and carry out storage or benefit With.

Utility model content

The technical problem to be solved by the utility model is in view of the deficiency of the prior art, provide one kind to be based on The automatic charging system of energy acquisition, reasonable in design, easy to use and using effect is good, economical and practical, can be right Kinetic energy and the sun can be carried out easy, effectively acquisition, and institute's collecting energy can be converted to electric energy and be stored or utilized.

In order to solve the above technical problems, the technical solution adopted in the utility model is: a kind of based on the automatic of energy acquisition Charging system, it is characterised in that: the kinetic energy acquisition system that is connect including charging unit and respectively with the charging unit and too Positive energy acquisition device；

The charging unit includes rechargeable battery, the charging circuit to charge to rechargeable battery and connect with rechargeable battery Battery charging interface；

The kinetic energy acquisition system includes multiple kinetic energy acquisition devices laid side by side and fills multiple kinetic energy acquisitions The generator that acquired kinetic energy is converted to electric energy is set, the structure snd size of multiple kinetic energy acquisition devices are all the same and it is in flat Row is laid；

The solar collecting device and generator are connect with charging circuit；

The main energy that each kinetic energy acquisition device includes supporting element, is mounted on supporting element and swivel becket is driven to rotate Collector is measured, and is mounted on supporting element and the central gear that is located in swivel becket and can be between central gear and swivel becket The secondary energy collecting device moved back and forth, the main energy collecting device are located at the outside of swivel becket；The central gear and institute It states time energy collecting device matching merging to export the energy of the secondary energy collecting device acquisition, described in the swivel becket driving Secondary energy collecting device moves back and forth；

The central gear of multiple kinetic energy acquisition devices is in coaxial laying and its toothed disc is in parallel laying, multiple The gear shaft of the central gear of the kinetic energy acquisition device is connected as one from front to back and forms an assembling axis；The assembling Axis is the power output shaft of the kinetic energy acquisition system, and the power input shaft of the assembling axis and generator is coaxially connected；It is described Multiple kinetic energy acquisition devices are with the assembling perpendicular laying of axis in kinetic energy acquisition system, institute in the kinetic energy acquisition system Have that main energy collecting device is laid on same cylindrical surface and it is along the circumferential direction uniformly distributed.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: the solar collecting device is the sun It can solar panel.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: further including the solar energy confession of charging circuit Electrical interface and the generator powered interface being connect with generator.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: the supporting element is support plate or support Frame, the swivel becket, main energy collecting device and multiple secondary energy collecting devices are laid with supporting element in parallel.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: the main energy collecting device includes installation The first main shaft on supporting element is sleeved on the first main shaft and can be around the first rotating member that the first main shaft is rotated and by One rotating member drives the first rotating mechanism for driving swivel becket to be rotated while rotated and rotated, first rotation Mechanism is connect with the first rotating member and swivel becket respectively.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: first rotating mechanism is and first The first gear ring that main shaft is coaxially laid, first main shaft are located on the inside of first gear ring, and first gear ring is located at first Below rotating member；The main energy collecting device further includes the installation pedestal for the installation of the first main shaft bottom and is sleeved on the first main shaft Outside and the first energy-stored spring that first gear ring can be driven to be rotated；The installation pedestal is fixedly mounted on supporting element, The first rotating member coaxial package is on the first main shaft top；First energy-stored spring is connected to the second main shaft and first gear Between ring, the first gear ring set is on the outside of the first energy-stored spring.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: institute in each kinetic energy acquisition device The quantity for stating time energy collecting device is no less than two；

The secondary energy collecting device includes the mobile foundation that can be moved back and forth between central gear and swivel becket, pushes away Dynamic mobile foundation to far from the mobile translation mechanism in central gear side, the second main shaft being mounted on mobile foundation, can drive The second rotating mechanism that central gear is rotated is sleeved on the outside of the second main shaft and can be by second rotating mechanism drive The second energy-stored spring that central gear is rotated and rotated and rotated around the second main shaft while, drive described second turn Motivation structure synchronize carry out rotation and to the second rotating member that the second energy-stored spring is compressed, second energy-stored spring is connected to Between second main shaft and second rotating mechanism；Second rotating mechanism is connect with the second rotating member, second rotation Part is sleeved on the second main shaft；The translation mechanism is mounted on supporting element and it is located at below mobile foundation, the translation machine Structure is connect with mobile foundation.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: second rotating mechanism is and second The second gear ring that main shaft is coaxially laid and can be meshed with central gear, second main shaft are located on the inside of second gear ring, And second gear ring is located at below the second rotating member；

Locating part, the mobile foundation of each secondary energy collecting device are provided on the outside of each secondary energy collecting device Outside, which is provided with one, can be hooked in mounting part or be capable of clamping the clamp on locating part on locating part.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: the swivel becket includes and central gear In the annulus coaxially laid and push the secondary energy collecting device to the convex block mobile close to central gear side, the convex block cloth It is located on the inner sidewall of the annulus.

Above-mentioned a kind of automatic charging system based on energy acquisition, it is characterized in that: the annulus is third gear ring；It is described The quantity of convex block is one or more, the along the circumferential direction uniformly distributed inner sidewall in the third gear ring of multiple convex blocks On.

Compared with the prior art, the utility model has the following advantages:

1, reasonable in design, easy to use and input cost is lower.

2, used kinetic energy acquisition system can be acquired a variety of kinetic energy, including wind energy, whose energy, vibrational energy, swing Energy, rotating energy etc..

3, used kinetic energy acquisition device structure is simple and processing and fabricating and installation are laid conveniently, and input cost is lower, The kinetic energy acquisition device is reasonable in design, mainly includes a supporting element, a main energy acquisition being mounted on supporting element Device, swivel becket, a multiple secondary energy collecting device being installed in swivel becket rotated by the drive of main energy collecting device With the central gear exported to multiple secondary energy collecting device institute collecting energies.Also, easy to use and using effect It is good, collecting energy (de minimis energy occurred around i.e.) effect the utility model will be directly needed, and drive the first rotating member and the The rotation of two rotating members just can complete energy acquisition process, and the de minimis energy that surrounding can occur carries out simplicity, quickly and efficiently adopts Collection, and conversion process of energy can be completed.Energy collected is exported by central gear, and central gear can be directly simple with generator Just connect, so as to exported energy is easy, be quickly converted as electric energy, be corresponding power supply for electrical equipment, it is economical and practical.

4, kinetic energy acquisition system is combined with to the solar collecting device that solar energy is acquired, forms a kind of combination The charging system of formula can be carried out kinetic energy and the sun and effectively acquire and utilize, and the simplicity that charges, and use mode of operation spirit Living, battery charging interface, solar powered interface and generator powered interface can be used as the charging interface of electrical equipment.

5, using effect is good and practical value is high, can be used as charging station use, can be automatically performed kinetic energy and solar energy is adopted Collect and be converted to electric energy and carry out storage utilization, meets the charge requirement of different occasions.The utility model is such as installed on city road The good occasion of road ventilation state, wind energy and solar energy can be acquired using the utility model and be converted to power storage with It utilizes, meets the charge requirement of city electric vehicle；When the utility model is installed on river, the utility model is utilized Power storage can be acquired and be converted to water energy and solar energy and is utilized, and marine vehicle and river village nearby are met The temporary power connection demand of the people；When the utility model is installed on vibrating machine (vibrating screen in such as construction site), this reality is utilized Power storage is acquired and be converted to the kinetic energy during solar energy and mechanical vibration with New Energy and is utilized, is met The temporary power connection demand of electronic construction equipment in the construction sites such as construction site.

In conclusion the structure design of the utility model is reasonable, easy to use and using effect is good, economical and practical, energy Easy, effectively acquisition can be carried out to kinetic energy and the sun, and institute's collecting energy can be converted to electric energy and be stored or utilized.

Below by drawings and examples, the technical solution of the utility model is described in further detail.

Detailed description of the invention

Fig. 1 is the schematic block circuit diagram in the utility model embodiment 1.

Fig. 2 is the structural schematic diagram of kinetic energy acquisition system in the utility model embodiment 1.

Fig. 3 A is the plane of all main energy collecting devices and swivel becket in kinetic energy acquisition system in the utility model embodiment 1 Layout position illustration.

Fig. 3 B is main energy collecting device in each kinetic energy acquisition device in the utility model embodiment 1 and time energy collecting device Plane layout position illustration.

Fig. 4 is the structural schematic diagram that axis and central gear are assembled in the utility model embodiment 1.

Fig. 5 is the structural schematic diagram of kinetic energy acquisition device in the utility model embodiment 1.

Fig. 6 is supporting element, main energy collecting device, swivel becket, central gear and translation mechanism in the utility model embodiment 1 Structural schematic diagram.

Fig. 7 A is the structural schematic diagram of main energy collecting device in the utility model embodiment 1.

Fig. 7 B is the structural schematic diagram of installation pedestal in the utility model embodiment 1, the first main shaft and the first energy-stored spring.

Fig. 8 A is the structural schematic diagram of time energy collecting device in the utility model embodiment 1.

Fig. 8 B is the structural schematic diagram of mobile foundation, the second main shaft and the second energy-stored spring in the utility model embodiment 1.

Fig. 8 C is the structural schematic diagram of mobile foundation and guide part in the utility model embodiment 1.

Fig. 9 is the structural schematic diagram of translation mechanism in the utility model embodiment 1.

Figure 10 is locating part and the mated condition schematic diagram for mounting part in the utility model embodiment 1.

Figure 11 is the layout position illustration of swivel becket and central gear in the utility model embodiment 1.

Figure 12 is to show when time energy collecting device energy discharges in the utility model embodiment 1 with the installation position of central gear It is intended to.

Figure 13 is the rotating state diagram of main energy collecting device and swivel becket in the utility model embodiment 1.

Figure 14 is the circuit connection diagram of kinetic energy acquisition system and charging circuit in the utility model embodiment 1.

Figure 15 is the layout position illustration of multiple kinetic energy acquisition devices in the utility model embodiment 2.

Figure 16 A be in the utility model embodiment 3 in kinetic energy acquisition system all main energy collecting devices and swivel becket it is flat Face layout position illustration.

Figure 16 B is the main energy collecting device of kinetic energy acquisition device and time energy collecting device in the utility model embodiment 3 Plane layout position illustration.

Figure 17 is the structural schematic diagram that axis and column gear are assembled in the utility model embodiment 4.

Description of symbols:

1-generator；2-kinetic energy acquisition devices；3-rechargeable batteries；

4-battery charging interfaces；5-charging circuits；6-solar panels；

7-solar powered interfaces；8-generator powered interfaces；9-assembling axis；

10-column gears；101-supporting elements；

102-main energy collecting devices；103-installation pedestals；

104-the first main shaft；105-the first rotating member；106-first gear rings；

107-the first gear teeth；108-the first upper cover；109-swivel beckets；

110-third the gear teeth；111-convex blocks；112-locating parts；

113-first time energy collecting devices；114-second energy collecting device；

115-third time energy collecting devices；116-the four energy collecting device；

117-internal cavities；118-mobile foundations；119-the second main shaft；

120-the second rotating member；121-second gear rings；122-the second gear teeth；

123-the second energy-stored spring；124-central gears；125-fourth round teeth；

126-guide parts；127-guide grooves；128-reset springs；

129-the first energy-stored spring；130-first annular grooves；131-the second upper cover；

132-guide ledges；133-second annular grooves；134-hooks.

Specific embodiment

As shown in Fig. 1, Figure 14, the kinetic energy acquisition system that is connect including charging unit and respectively with the charging unit and Solar collecting device；

The charging circuit 5 and and rechargeable battery that the charging unit includes rechargeable battery 3, is charged to rechargeable battery 3 The battery charging interface 4 of 3 connections；

As shown in Fig. 2, the kinetic energy acquisition system includes multiple kinetic energy acquisition devices 2 laid side by side and by multiple institutes State the generator 1 that the acquired kinetic energy of kinetic energy acquisition device 2 is converted to electric energy, the structure and ruler of multiple kinetic energy acquisition devices 2 It is very little all the same and it lays in parallel；

The solar collecting device and generator 1 are connect with charging circuit 5；

As shown in Figure 5, Figure 6, each kinetic energy acquisition device 2 includes supporting element 101, is mounted on supporting element 101 And the main energy collecting device 102 for driving swivel becket 109 to rotate, and be mounted on supporting element 101 and be located in swivel becket 109 Central gear 124 and the secondary energy collecting device that can be moved back and forth between central gear 124 and swivel becket 109, the master Energy collecting device 102 is located at the outside of swivel becket 109；The central gear 124 merges pair with the secondary energy collecting device matching The energy of the secondary energy collecting device acquisition is exported, and it is reciprocal that the swivel becket 109 drives the secondary energy collecting device to carry out It is mobile；The main energy collecting device 102 is to drive the rotating member rotated by kinetic energy；

The central gear 124 of multiple kinetic energy acquisition devices 2 is in coaxial laying and its toothed disc is in parallel laying, The gear shaft of the central gear 124 of multiple kinetic energy acquisition devices 2 is connected as one from front to back and forms an assembling axis 9；The assembling axis 9 is the power output shaft of the kinetic energy acquisition system, the power input shaft of the assembling axis 9 and generator 1 It is coaxially connected；Multiple kinetic energy acquisition devices 2 are described dynamic with the assembling perpendicular laying of axis 9 in the kinetic energy acquisition system All main energy collecting devices 102 in energy acquisition system are laid on same cylindrical surface and it is along the circumferential direction uniformly distributed, It is detailed in Fig. 3 A.

In actual use, all main energy collecting devices 102 in the kinetic energy acquisition system, which synchronize, is rotated, and All main energy collecting devices 102 in kinetic energy acquisition system described in any moment are along the circumferential direction in uniformly distributed.

As shown in figure 14, pass through cable connection shape between the solar collecting device and generator 1 and charging circuit 5 At charge circuit, charging control switch K is serially connected on the charge circuit.

In the present embodiment, the assembling axis 9 is in a straight axis, is detailed in Fig. 4.

When actual processing, the assembling axis 9 both can be that the gear shaft of multiple central gears 124 is passed through connecting shaft The axis being formed by connecting a, or gear shaft by multiple central gears 124 processes integral axis.

In the present embodiment, the structure snd size of multiple kinetic energy acquisition devices 2 are all the same.Also, multiple kinetic energy Acquisition device 2 from top to bottom carries out being laid on same vertical plane, and the built-up shaft is arranged vertically.

In actual use, multiple kinetic energy acquisition devices 2 can also from top to bottom carry out being laid on same inclined surface Or it is laid in same level from left to right.

In the present embodiment, the quantity of the kinetic energy acquisition device 2 is 4.

In actual use, according to specific needs, the quantity to kinetic energy acquisition device 2 and each kinetic energy acquisition device 2 Installation position adjusts accordingly respectively.

Wherein, the quantity of the kinetic energy acquisition device 2 is denoted as N, and N is positive integer and N >=2.

In the present embodiment, 4 main energy collecting devices 102 in the kinetic energy acquisition system are laid in same cylinder On face and it is along the circumferential direction uniformly distributed, 4 main energy collecting devices 102 along assembling axis central axis from top to bottom It lays.

In the present embodiment, the solar collecting device is solar panel 6.

In actual use, the solar collecting device is installed on kinetic energy acquisition system side.

Meanwhile the utility model further include the solar powered interface 7 being connect with the solar collecting device and with hair The generator powered interface 8 that motor 1 connects.

It in actual use, both can be by filling after acquired solar energy is converted to electric energy by the solar collecting device Circuit 5 charges to rechargeable battery 3, to synchronize storage to the electric energy after conversion；Meanwhile it can also be supplied by solar energy Electric energy after conversion is directly fed to electrical equipment and utilized by electrical interface 7, and easy to use and usage mode is flexible.

Correspondingly, each kinetic energy acquisition device 2 kinetic energy collected is converted to electricity by generator 1 in the kinetic energy acquisition system After energy, it can both be charged by charging circuit 5 to rechargeable battery 3, to synchronize storage to the electric energy after conversion；Together When, also the electric energy after conversion directly can be fed to electrical equipment by generator powered interface 8 and utilized, use operation letter Just and usage mode is flexible.

In actual use, after storing using the electric energy after 3 pairs of rechargeable battery conversions, battery charging interface can be passed through 4 be power supply for electrical equipment at any time, very easy using operating.

In the present embodiment, the battery charging interface 4 is USB interface.

Also, the solar powered interface 7 and generator powered interface 8 are USB interface.

In actual use, the battery charging interface 4, solar powered interface 7 and generator powered interface 8 can also be adopted With other types of connecting interface.

In the present embodiment, it is in that the annulus coaxially laid and promotion are described secondary that the swivel becket 109, which includes with central gear 124, Energy collecting device is laid in the inside of the annulus to the convex block 111 mobile close to 124 side of central gear, the convex block 111 On wall.

Also, the annulus is third gear ring.

In the present embodiment, as shown in Figure 3B, the number of main energy collecting device 102 described in each kinetic energy acquisition device 2 Amount is one, and the swivel becket 109 is rotated by the drive of main energy collecting device 102；The quantity of the secondary energy collecting device No less than two.

Also, the gear shaft of the central gear 124 is mounted on supporting element 101.

In actual use, can according to specific needs, included main energy collecting device in each kinetic energy acquisition device 2 102 quantity may be it is multiple, multiple main energy collecting devices 102 along the circumferential direction lay in the same plane and its It is laid in 109 outside of swivel becket.

In the present embodiment, in each kinetic energy acquisition device 2 structure of multiple secondary energy collecting devices it is all the same and It is along the circumferential direction laid in 124 side of central gear, and the main energy collecting device 102 is located at 109 side of swivel becket.

In actual use, the supporting element 101 is support plate or support frame, the swivel becket 109, main energy collecting device 102 and multiple secondary energy collecting devices with supporting element 101 in it is parallel laying.

In the present embodiment, the supporting element 101 is support plate.

The support plate can have any shape or the plate of size, and any moveable plate, arbitrarily can article Panel or side plate etc. can be used as the use of supporting element 101.

As shown in Figure 7 A, the main energy collecting device 102 includes the first main shaft 104 being mounted on supporting element 101, suit It can drive on the first main shaft 104 and around the first rotating member 105 that the first main shaft 104 is rotated and by the first rotating member 105 The first rotating mechanism for driving swivel becket 109 to be rotated while rotated and rotated, the first rotating mechanism difference It is connect with the first rotating member 105 and swivel becket 109.

In conjunction with Fig. 8 A and Fig. 8 B, the secondary energy collecting device includes that can carry out between central gear 124 and swivel becket 109 The mobile foundation 118 of reciprocating movement pushes mobile foundation 118 to far from the mobile translation mechanism in 124 side of central gear, installation The second main shaft 119 on mobile foundation 118, is sleeved at the second rotating mechanism that central gear 124 can be driven to be rotated The second energy-stored spring two main shafts 119 outside and central gear 124 can be driven to be rotated by second rotating mechanism 123 with driven while rotated and rotated around the second main shaft 119 second rotating mechanism synchronize carry out rotation and to the The second rotating member 120 that two energy-stored springs 123 are compressed, second energy-stored spring 123 are connected to the second main shaft 119 and institute It states between the second rotating mechanism；Second rotating mechanism is connect with the second rotating member 120, and second rotating member 120 is set with On the second main shaft 119；The translation mechanism is mounted on supporting element 101 and it is located at 118 lower section of mobile foundation, the translation Mechanism is connect with mobile foundation 118.

In the present embodiment, the structure snd size of multiple secondary energy collecting devices are equal in each kinetic energy acquisition device 2 It is identical and it is laid on same plane.

In the present embodiment, as shown in figures 7 a and 7b, the main energy collecting device 102 further includes for 104 bottom of the first main shaft The installation pedestal 103 of portion's installation, the installation pedestal 103 are fixedly mounted on supporting element 101, and first rotating member 105 is same Axle sleeve is mounted in 104 top of the first main shaft.First rotating mechanism is the first gear ring coaxially laid with the first main shaft 104 106, first main shaft 104 is located at 106 inside of first gear ring, and first gear ring 106 is located under the first rotating member 105 Side.

When actual installation, the first gear ring 106 is meshed with the third gear ring.

In the present embodiment, the installation pedestal 103 is the round base being mounted on supporting element 101 and upper part is provided with one A first annular groove 130 rotated for first gear ring 106, first main shaft 104 are fixedly mounted in installation pedestal 103 Portion.

When actual processing, the installation pedestal 103 can also use other shapes of pedestal, such as oval, rectangular, triangle Shape etc..

In the present embodiment, the main energy collecting device 102 further includes being sleeved on 104 outside of the first main shaft and capable of driving first The first energy-stored spring 129 that gear ring 106 is rotated, first energy-stored spring 129 are connected to the second main shaft 119 and first Between gear ring 106, the first gear ring 106 is sleeved on 129 outside of the first energy-stored spring.

When actual installation, the outer end of first energy-stored spring 129 is fixed on the inner sidewall of first gear ring 106 and it Inner end is fixed on the lateral wall of the first main shaft 104, thus first energy-stored spring 129 be connected to first gear ring 106 with Between first main shaft 104.

In the present embodiment, the first gear ring 106 be on round and its lateral wall it is along the circumferential direction uniformly distributed have it is more A first gear teeth 107.

When actual processing, the first gear ring 106 is formed and uniformly distributed on its lateral wall by a strip plate benging There are multiple first gear teeth 107.

In the present embodiment, the main energy collecting device 102 further includes first upper cover of the lid on first gear ring 106 108, the through-hole passed through for the first main shaft 104 is provided in the middle part of first upper cover 108, first upper cover 108 is located at first turn Below moving part 105 and it is located at 129 top of the first energy-stored spring.Also, first upper cover 108 is with supporting element 101 in parallel It lays.

In the present embodiment, the upper end of first main shaft 104 is provided with the first limit limited to the first rotating member 105 Position bulge loop, the upper end of second main shaft 119 is provided with the second position limiting convex ring limited to the second rotating member 120.

Also, first energy-stored spring 129 and the second energy-stored spring 123 be scroll spring and the two with the branch Fagging is laid in parallel.

In the present embodiment, first main shaft 104 and the perpendicular laying of the support plate, 105 He of the first rotating member First gear ring 106 is laid with the support plate in parallel.

In the present embodiment, first rotating member 105 and the second rotating member 120 are sector.When actual processing, described One rotating member 105 and the second rotating member 120 can also use other shapes, such as round, impeller shape.

In the present embodiment, first rotating member 105 and first gear ring 106 are connected as one, first rotating member While 105 rotation, drives first gear ring 106 to synchronize and rotated, and mutually the first energy-stored spring 129 should compressed At energy storage；Correspondingly, when first energy-stored spring 129 is sprung back, the first energy-stored spring 129 carries out energy release, and band Dynamic first gear ring 106, which synchronizes, to be rotated.

Also, first upper cover 108 it is parallel with the first rotating member 105 laying and its to underlying first energy storage bullet Spring 129 is protected.In the present embodiment, first rotating member 105 is fixed in the first upper cover 108, first upper cover 108 It is fixed on first gear ring 106, the first rotating member 105 described in this way is fastened by the first upper cover 108 with first gear ring 106 It is connected as one, drives first gear ring 106 to synchronize the mesh rotated while to be able to achieve the rotation of the first rotating member 105 's.

In the present embodiment, the third gear ring is laid with supporting element 101 in parallel.The lateral wall of the third gear ring On along the circumferential direction uniformly distributed have multiple third gear teeth 110.

Also, the quantity of the convex block 111 is one or more, and multiple convex blocks 111 are along the circumferential direction uniformly distributed On the inner sidewall of the third gear ring.

In the present embodiment, as shown in figure 11, the quantity of the convex block 111 is two.

When actual processing, can according to specific needs, the installation position of quantity and each convex block 111 to convex block 111 into The corresponding adjustment of row.In the present embodiment, the angle between two convex blocks 111 is θ.

In conjunction with Fig. 8 A and 8B, second rotating mechanism is and the second main shaft 119 is coaxial lays and can be with central gear 124 The second gear ring 121 being meshed, second main shaft 119 are located at 121 inside of second gear ring, and 121, second gear ring In 120 lower section of the second rotating member.

In the present embodiment, second main shaft 119 and the perpendicular laying of the support plate, 120 He of the second rotating member Second gear ring 121 is laid with the support plate in parallel.

In the present embodiment, the mobile foundation 118 is that round and upper part is provided with one for the rotation of second gear ring 121 Second annular groove 133.

In the present embodiment, the secondary energy collecting device further includes second upper cover 131 of the lid on second gear ring 121, The through-hole passed through for the second main shaft 119 is provided in the middle part of second upper cover 131, second upper cover 131 is located at the second rotating member Below 120 and it is located at 123 top of the second energy-stored spring.Also, second upper cover 131 is laid with supporting element 101 in parallel.

Also, second upper cover 131 it is parallel with the second rotating member 120 laying and its to underlying second energy storage bullet Spring 123 is protected.In the present embodiment, second rotating member 120 is fixed in the second upper cover 131, second upper cover 131 It is fixed on second gear ring 121, the second rotating member 120 described in this way is fastened by the second upper cover 131 with second gear ring 121 It is connected as one, drives second gear ring 121 to synchronize the mesh rotated while to be able to achieve the rotation of the second rotating member 120 's.

In the present embodiment, the second gear ring 121 be on round and its lateral wall it is along the circumferential direction uniformly distributed have it is more A second gear teeth 122.

When actual processing, the second gear ring 121 is formed and uniformly distributed on its lateral wall by a strip plate benging There are multiple second gear teeth 122.

It is along the circumferential direction uniformly distributed on the lateral wall of the central gear 124 to have multiple fourth round teeth in the present embodiment 125。

When actual processing, the quantity of the translation mechanism is identical as the quantity of the secondary energy collecting device, and multiple institutes The installation position for stating translation mechanism is corresponded with the installation position of multiple secondary energy collecting devices respectively.In the present embodiment, The center line of multiple translation mechanisms intersects on the center of circle of swivel becket 109.

As shown in Fig. 6, Fig. 9, the translation mechanism includes the guide part 126 being oriented to mobile foundation 118, described to lead It is fixedly mounted on supporting element 101 to part 126, one is provided on the guide part 126 and is led for what mobile foundation 118 was moved forward and backward To slot 127,118 bottom of mobile foundation is provided in an insertion guide groove 127 and can move before and after the progress of guide groove 127 Dynamic guide ledges 132 are provided on the inside of the guide groove 127 and push guide ledges 132 to far from 124 side of central gear Mobile impeller.

Also, the guide part 126 is laid with supporting element 101 in parallel,

In the present embodiment, the guide part 126 is rectangle.The guide groove 127 is located at the middle part of guide part 126.Institute Stating guide groove 127 is strip slot.And its

In actual use, when the secondary energy collecting device moves back and forth, the equal central axises along guide part 126 Line is moved forward and backward, thus the secondary energy collecting device moves back and forth the also referred to as described secondary energy collecting device and carries out front and back It moves back and forth.Wherein, the secondary energy collecting device forward movement refers to mobile foundation 118 along the central axis of guide part 126 To close to the movement of 124 side of central gear, correspondingly, the secondary energy collecting device, which moves backward, refers to 118 edge of mobile foundation The central axis of guide part 126 is to far from the movement of 124 side of central gear.

In the present embodiment, as shown in Figure 8 C, the cross sections of the guide ledges 132 be isosceles trapezoid and its width by up to Under be gradually increased, the structure of the guide groove 127 is corresponding with the structure of guide ledges 132.

As shown in figure 9, the impeller is reset spring 128 in the present embodiment.

In the present embodiment, it is provided with locating part 112 on the outside of each secondary energy collecting device, each secondary energy is adopted One is provided on the outside of the mobile foundation 118 of storage can be hooked in mounting part or be capable of clamping in locating part on locating part 112 Clamp on 112, is detailed in Fig. 6 and Figure 10.

In actual use, the quantity of the locating part 112 is identical as the quantity of the secondary energy collecting device, multiple limits Position part 112 is located on the outside of multiple secondary energy collecting devices, and the installation position of multiple locating parts 112 respectively with it is more The installation position of a secondary energy collecting device corresponds.The inside that multiple locating parts 112 are respectively positioned on swivel becket 109 is empty In chamber 117.In the present embodiment, multiple locating parts 112 be fixedly mounted in the support plate and its with the support The perpendicular laying of plate.

As shown in the above, the central gear 124 is located at the middle inside of swivel becket 109, multiple secondary energy Collector is respectively positioned in swivel becket 109 and it is along the circumferential direction laid in 124 outside of central gear.Multiple locating parts 112 It is respectively positioned in swivel becket 109 and it is along the circumferential direction laid on the outside of multiple secondary energy collecting devices, and multiple limits On the central axis for the guide part 126 that position part 112 is laid in multiple secondary energy collecting devices respectively.

In the present embodiment, the part that mounts is hook 134.

As shown in Fig. 5, Figure 13, multiple secondary energy collecting devices are respectively positioned on rotation in each kinetic energy acquisition device 2 In the internal cavities 117 of ring 109, the swivel becket 109 is laid on the outside of multiple secondary energy collecting devices and it is in multiple institutes It states and is rotated on the outside of time energy collecting device, the swivel becket 109 is rotated by the drive of main energy collecting device 102.In described Heart gear 124 is located at 117 middle part of internal cavities of swivel becket 109, and multiple secondary energy collecting devices are along the circumferential direction laid in 124 side of central gear.Meanwhile the translation mechanism is provided with below each secondary energy collecting device, it is multiple The secondary energy collecting device can the guide groove 127 respectively along multiple translation mechanisms be moved forward and backward.In actual use, Set hook 134 is matched with the locating part 112 being located on the outside of it on the outside of each secondary energy collecting device, and the secondary energy is adopted in realization The purpose that storage is limited；The swivel becket 109 is while multiple secondary energy collecting device sides rotate, swivel becket Convex block 111 set by 109 insides rotates synchronously, when convex block 111 touches extension set by the secondary energy collecting device outside When hook 134, hook 134 is made to disengage hooked locating part 112, locating part 112 no longer limits the secondary energy collecting device at this time Position.

In actual use, there are two working conditions, i.e. energy storing state and energy for each secondary energy collecting device Release conditions: when the secondary energy collecting device is located at 127 outer end of guide groove, which is in energy storage shape State, second rotating member 120 rotates and second gear ring 121 is driven to synchronize and rotated, mutually cope with the second energy storage bullet at this time Spring 123 carries out compression and completes energy storage, to realize the mesh for storing the received energy of second rotating member 120 's；As shown in Figure 12, when the secondary energy collecting device moves forward (i.e. to mobile close to 124 side of central gear) to guiding When 127 inside of slot, the secondary energy collecting device is abutted with central gear 124, and the second gear ring 121 of the secondary energy collecting device It is meshed with central gear 124, the secondary energy collecting device is in energy release conditions at this time, and second energy-stored spring 123 returns Bullet carries out energy release, and second gear ring 121 is driven to be rotated, and while the rotation of second gear ring 121, drives center Gear 124 is rotated, and the secondary energy collecting device is reached central gear in energy stored by energy storage state to realize 124 and pass through the purpose of central gear 124.

Due to being provided with the translation mechanism below each secondary energy collecting device, and each secondary energy is adopted It is provided with a locating part 112 on the outside of storage, in this way when the secondary energy collecting device is in energy storage state, the secondary energy It measures hook 134 set by 118 outside of mobile foundation of collector to be hooked on the locating part 112 on the outside of it, passes through extension in this way Hook 134 is matched with locating part 112 limits the secondary energy collecting device, makes the secondary energy collecting device during energy storage It is not moved forward and backward, it is ensured that the energy storage process of the secondary energy collecting device is continuous, stablizes and effectively carries out；It is adopted in main energy Under the action of storage 102, the swivel becket 109 is rotated in multiple secondary energy collecting device sides, in rotation process, works as rotation When convex block 111 set by 109 inside of ring touches hook 134 set by secondary energy collecting device outside, convex block 111 is to extension Hook 134 provides inside thrust and hook 134 is made to disengage hooked locating part 112, and locating part 112 is no longer to the secondary energy at this time Collector limit；Later, the secondary energy collecting device is under the inside thrust of convex block 111, along set translation machine below The guide groove 127 of structure is to close to the movement of 124 side of central gear, when being moved to 127 inside of guide groove, the secondary energy acquisition Device is in energy release conditions；When swivel becket 109 turns to set hook 134 on the outside of convex block 111 and the secondary energy collecting device When not touching, the reset spring 128 of the translation mechanism set by secondary energy collecting device lower section pushes the secondary energy to adopt Storage along guide groove 127 to moving close to 124 side of central gear, until being moved to 127 outside of guide groove and the secondary energy is adopted Set hook 134 is hooked on locating part 112 on the outside of storage, and the secondary energy collecting device is in energy storage state at this time；Such as This is constantly repeated, and realizes that the energy of the secondary energy collecting device uninterruptedly stores and energy uninterruptedly discharges process.Synchronization, institute It states an only secondary energy collecting device in kinetic energy acquisition system and is in energy release conditions, the kinetic energy acquisition system described in this way In all secondary energy collecting devices match, realize what multiple secondary energy collecting devices released energy to the same assembling axis 9 Purpose, to complete the energy acquisition process of multiple secondary energy collecting devices.

For any one described kinetic energy acquisition device 2, only has one in kinetic energy acquisition device 2 described in synchronization The secondary energy collecting device is in energy release conditions, deposits between the energy release conditions of the two neighboring secondary energy collecting device At certain time interval (i.e. time interval T), the time interval is related to the velocity of rotation of swivel becket 109.

When being in energy release conditions due to the secondary energy collecting device, the central gear 124 is in energy acquisition shape State.The energy acquisition process of the central gear 124 be it is intermittent, when only with a kinetic energy acquisition device 2, it is described in Time interval T is divided between the two neighboring energy acquisition state in the front and back of heart gear 124.

In the present embodiment, the swivel becket 109 of multiple kinetic energy acquisition devices 2 rotates speed in the kinetic energy acquisition system It spends all the same.Also, since the structure snd size of multiple kinetic energy acquisition devices 2 are all the same, then multiple kinetic energy acquisitions Time in device 2 between the energy release conditions of the two neighboring secondary energy collecting device of same 109 inside of swivel becket It is spaced also all the same.

In the kinetic energy acquisition system, the two neighboring secondary energy collecting device in a kinetic energy acquisition device 2 In time interval between energy release conditions, each kinetic energy acquisition device has one in remaining kinetic energy acquisition device 2 A secondary energy collecting device is in energy release conditions.

All main energy collecting devices 102 in the kinetic energy acquisition system can ensure that synchronization in being laid staggeredly in this way Only have a secondary energy collecting device in the kinetic energy acquisition system and is in energy release conditions.Also, the kinetic energy acquisition When time energy collecting device described in any of system is in energy release conditions, the assembling axis 9 is in energy acquisition state.

In this way, by the way that multiple kinetic energy acquisition devices 2 are arranged, so that assembling axis 9 described in the kinetic energy acquisition system Interval between the two neighboring energy acquisition state in front and back shorten to time interval t, whereinThus, before capable of effectively shortening Interval between two neighboring energy acquisition state afterwards, so as to effectively improve energy acquisition efficiency, to effectively improve electric energy Storage efficiency.

As shown in the above, the switching between two working conditions of the secondary energy collecting device is by swivel becket 109 Rotation is controlled, and specifically the convex block 111 as set by 109 inside of swivel becket is controlled.The swivel becket 109 rotated Cheng Zhong, the convex block 111 are successively touched with hook 134 set by multiple secondary energy collecting devices outsides respectively, from And multiple secondary energy collecting devices is made to switch to energy release conditions by energy storage state respectively.It is described in the present embodiment Convex block 111 is located at 112 top of locating part, it is ensured that the unrestricted position part 112 of the movement of convex block 111 limits.

In actual use, the quantity of convex block 111 set by 109 inside of swivel becket is one or more；Work as swivel becket When the quantity of convex block 111 set by 109 inside is one, in 109 rotation process of swivel becket, the convex block 111 is by elder generation to rear It is successively touched with hook 134 set by multiple secondary energy collecting devices outsides, and the every rotation of swivel becket 109 one week each Secondary energy collecting device completes primary energy release process；When the quantity of the convex block 111 set by the inside of swivel becket 109 is N number of, In 109 rotation process of swivel becket, convex block 111 described in each of N number of described convex block 111 by elder generation after successively with Hook 134 set by the outside of multiple secondary energy collecting devices is touched, and the one week each secondary energy of every rotation of swivel becket 109 Collector completes n times energy release process, so that the energy acquisition efficiency of each kinetic energy acquisition device 2 improves N Times, wherein N is the sum of positive integer, N >=2 and N no more than described in each kinetic energy acquisition device 2 energy collecting device Amount.

In actual use, the quantity of time energy collecting device described in each kinetic energy acquisition device 2 is no less than 3.

In the present embodiment, as shown in figure 5, the quantity of time energy collecting device described in each kinetic energy acquisition device 2 is Four.

Also, four secondary energy collecting devices are along the circumferential direction uniformly distributed.

When actual processing, according to specific needs, to secondary energy collecting device described in each kinetic energy acquisition device 2 The installation position of quantity, size and each secondary energy collecting device adjusts accordingly respectively.

In the present embodiment, in each kinetic energy acquisition device 2 four secondary energy collecting devices along clockwise direction by It is front to back respectively first time energy collecting device 113, second of energy collecting device 114, third time energy collecting device 115 and the 4th Secondary energy collecting device 116.

In actual use, the main energy collecting device 102 and each secondary energy collecting device be there are two working condition, That is energy storing state and energy release conditions.

In actual use, when the secondary energy collecting device is in energy storage state and the second energy-stored spring 123 is complete After energy storage, 121 clamping fixed of second gear ring is on mobile foundation 118, it is ensured that the secondary energy collecting device Second energy-stored spring 123 will not be sprung back；Second gear ring 121 to the secondary energy collecting device is meshed with central gear 124 Afterwards, i.e., when the secondary energy collecting device is in energy release conditions, then the limit to second gear ring 121 is released, makes second gear Ring 121 can rotate automatically.Correspondingly, when main energy collecting device 102 is in energy storage state and the first energy-stored spring 129 is complete After energy storage, 106 clamping fixed of first gear ring is in installation pedestal 103, it is ensured that the secondary energy collecting device First energy-stored spring 129 will not be sprung back；When main energy collecting device 102 is in energy release conditions, then release to first gear The limit of ring 106 enables first gear ring 106 to rotate automatically.

First rotating member 105 and the second rotating member 120 are the revolving part that can be along the circumferential direction rotated or can be into The swing component of row reciprocally swinging.In actual use, by rotating or swinging the supporting element 101, the first rotating member 105 can be driven With the second rotating member 120 synchronize rotated；In 120 rotation process of first rotating member 105 and the second rotating member, described One energy-stored spring 129 and the second energy-stored spring 123 are energy-storage travelling wave tube and the two can be to the first rotating member 105 and the second rotating member Energy in 120 rotation processes is stored respectively, to realize that the de minimis energy that surrounding occurs (is specifically rotated or put Move the kinetic energy of the supporting element 101) purpose that is acquired.Thus, first rotating member 105 and the second rotating member 120 are It is rotated under the action of de minimis energy (kinetic energy for specifically rotating or swinging the supporting element 101) that surrounding occurs.It is real In the use process of border, first rotating member 105, which can be carried out, to be rotated clockwise or counterclockwise, correspondingly, second rotating member 120 can be carried out and rotate clockwise or counterclockwise.

The effect of the secondary energy collecting device is to carry out energy storage by the second energy-stored spring 123 and will utilize to be stored up It deposits energy and drives 124 rotary motion of central gear, to realize energy acquisition；Again by carrying out transmission company with central gear 124 The generator connect produces electricl energy.The energy acquisition process of the secondary energy collecting device be the process that constantly switches of working condition (i.e. The process that energy storage state and energy release conditions are constantly converted).

The effect of the main energy collecting device 102 is that swivel becket 109 is driven to rotate, and rotates reality by swivel becket 109 The purpose that now working condition of each secondary energy collecting device is switched over.Also, the main energy collecting device 102 is in energy storage Under state or energy release conditions, equal energy band turn rotating ring 109 is rotated, and the rotation direction of the swivel becket 109 is unlimited no matter Swivel becket 109 is to rotate counterclockwise or clockwise, and can play the work switched over to the working condition of each secondary energy collecting device With.

To sum up, the de minimis energy (such as kinetic energy) that surrounding occurs capable of being converted into central gear 124 using the utility model Energy acquisition is completed in rotary motion；The central gear 124 is sequentially connected with the generator 1, to produce electricl energy.

In actual use, the supporting element 101, which can be fixed on any one, can be carried out the fitness machine of rotation, vibration or swing On tool, multiple supporting elements 101 in the kinetic energy acquisition system can be both fixed on the same movable machinery, more A supporting element 101 can also be individually fixed on multiple movable machineries.The movable machinery can be mechanical oscillation The casing of equipment, the rotary part of slewing, the vibration component of vibratory equipment, tilting member of rocking apparatus etc., can also be with For the able person such as mobile phone be swing or the small device that rotates on.

In actual use, in the adept machine of mobile phone user's hand and swinging arm walking process, the fortune of mobile phone user's arm Movable property it is lively can, and the first rotating member 105 and the second rotating member 120 is driven to be rotated, main energy collecting device 102 with it is multiple Under the cooperation of the secondary energy collecting device, kinetic energy that multiple secondary energy collecting devices generate mobile phone user's arm motion into Row acquisition, and central gear 124 is driven to be rotated, the kinetic energy that mobile phone user's arm motion generates is carried out to realize The purpose of acquisition.

In actual use, the first rotating member 105 and the second rotating member 120 can also directly be driven to be rotated manually.

In actual use, it can also be placed in the biggish region of wind speed with kinetic energy acquisition device 2, drive branch using wind energy Support member 101 is rotated, vibrated or is swung, while wind energy can also be used and directly drive the first rotating member 105 and the second rotating member 120 are rotated.

Alternatively, it is also possible to which kinetic energy acquisition device 2 to be placed in flowing water (such as river, waterfall), water energy band is utilized Dynamic supporting element 101 is rotated, vibrated or is swung, while water energy can also be used and directly drive the first rotating member 105 and second turn Moving part 120 is rotated.

Thus, using kinetic energy acquisition system described in the utility model, a variety of kinetic energy can be acquired, including wind energy, Whose energy, vibrational energy, swing energy, rotating energy etc..

Embodiment 2

As shown in figure 15, in the present embodiment, unlike the first embodiment: multiple described dynamic in the kinetic energy acquisition system Energy acquisition device 2 is laid in same level from left to right, and the assembling axis 9 is in horizontal layout.

In the present embodiment, the structure and connection relationship of rest part are same as Example 1.

Embodiment 3

As shown in Figure 16 A and Figure 16 B, in the present embodiment, unlike the first embodiment: institute in the kinetic energy acquisition device 2 Quantity including main energy collecting device 102 is two, and two main energy collecting devices 102 are respectively positioned on 109 side of swivel becket.

As shown in Figure 16 A, 8 main energy collecting devices 102 along the circumferential direction uniform cloth in the kinetic energy acquisition system If.

In actual use, synchronization, the only one main energy collecting device 102 are in energy release conditions, in this way Two main energy collecting devices 102 in the kinetic energy acquisition system match, and realize two main energy collecting devices 102 The purpose to release energy to the same swivel becket 109.

In the present embodiment, the structure and connection relationship of rest part are same as Example 1.

Embodiment 4

As shown in figure 17, in the present embodiment, unlike the first embodiment: the toothed disc of multiple central gears 124 connects It is connected in one and forms a column gear 10.

In the present embodiment, the structure and connection relationship of rest part are same as Example 1.

The above is only the preferred embodiment of the utility model, not imposes any restrictions to the utility model, all According to any simple modification to the above embodiments of the utility model technical spirit, change and equivalent structural changes, still Belong in the protection scope of technical solutions of the utility model.

Claims (8)

1. a kind of automatic charging system based on energy acquisition, it is characterised in that: filled including charging unit and respectively with described The kinetic energy acquisition system and solar collecting device of electric installation connection；

The charging unit include rechargeable battery (3), the charging circuit (5) to charge to rechargeable battery (3) and with charging electricity The battery charging interface (4) of pond (3) connection；

The kinetic energy acquisition system includes multiple kinetic energy acquisition devices (2) laid side by side and by multiple kinetic energy acquisition devices (2) acquired kinetic energy is converted to the generator (1) of electric energy, and the structure snd size of multiple kinetic energy acquisition devices (2) are all the same And it lays in parallel；

The solar collecting device and generator (1) are connect with charging circuit (5)；

Each kinetic energy acquisition device (2) includes supporting element (101), is mounted on supporting element (101) and drives swivel becket (109) the main energy collecting device (102) rotated, and it is mounted on the center on supporting element (101) and being located in swivel becket (109) Gear (124) and the secondary energy collecting device that can be moved back and forth between central gear (124) and swivel becket (109), it is described Main energy collecting device (102) is located at the outside of swivel becket (109)；The central gear (124) and the secondary energy collecting device phase The energy of the secondary energy collecting device acquisition is exported with merging, the swivel becket (109) drives the secondary energy acquisition Device moves back and forth；

The central gear (124) of multiple kinetic energy acquisition devices (2) is in coaxial laying and its toothed disc is in parallel laying, The gear shaft of the central gear (124) of multiple kinetic energy acquisition devices (2) is connected as one from front to back and forms a group It fills axis (9)；The power output shaft of the kinetic energy acquisition system is in described assemble axis (9), the assembling axis (9) and generator (1) Power input shaft it is coaxially connected；Multiple kinetic energy acquisition devices (2) are in assembling axis (9) in the kinetic energy acquisition system Vertical runs, all main energy collecting devices (102) in the kinetic energy acquisition system are laid on same cylindrical surface and its edge Circumferencial direction is uniformly distributed；

All main energy collecting devices (102) in the kinetic energy acquisition system are in be laid staggeredly；

The main energy collecting device (102) includes the first main shaft (104) being mounted on supporting element (101), is sleeved on the first master It can drive on axis (104) and around the first rotating member (105) that the first main shaft (104) are rotated and by the first rotating member (105) The first rotating mechanism for driving swivel becket (109) to be rotated while rotated and rotated, first rotating mechanism point It is not connect with the first rotating member (105) and swivel becket (109)；

The quantity of time energy collecting device described in each kinetic energy acquisition device (2) is no less than two；

The secondary energy collecting device includes the movement that can be moved back and forth between central gear (124) and swivel becket (109) Pedestal (118) pushes mobile foundation (118) to the mobile translation mechanism in separate central gear (124) side, is mounted on mobile base Seat (118) on the second main shaft (119), central gear (124) can be driven to be rotated the second rotating mechanism, be sleeved on second On the outside of main shaft (119) and the second energy-stored spring that second rotating mechanism drives central gear (124) be rotated can be passed through (123) with driven while rotated and rotated around the second main shaft (119) second rotating mechanism synchronize rotated simultaneously To the second rotating member (120) that the second energy-stored spring (123) is compressed, second energy-stored spring (123) is connected to second Between main shaft (119) and second rotating mechanism；Second rotating mechanism is connect with the second rotating member (120), and described Two rotating members (120) are sleeved on the second main shaft (119)；The translation mechanism is mounted on supporting element (101) and it is located at shifting Below moving base (118), the translation mechanism is connect with mobile foundation (118).

2. a kind of automatic charging system based on energy acquisition described in accordance with the claim 1, it is characterised in that: the solar energy Acquisition device is solar panel (6).

3. a kind of automatic charging system based on energy acquisition according to claim 1 or 2, it is characterised in that: further include The solar powered interface (7) of charging circuit (5) and the generator powered interface (8) being connect with generator (1).

4. a kind of automatic charging system based on energy acquisition according to claim 1 or 2, it is characterised in that: the branch Support member (101) is support plate or support frame, and the swivel becket (109), main energy collecting device (102) and multiple secondary energy are adopted Storage is laid with supporting element (101) in parallel.

5. a kind of automatic charging system based on energy acquisition described in accordance with the claim 1, it is characterised in that: described first turn Motivation structure is the first gear ring (106) coaxially laid with the first main shaft (104), and first main shaft (104) is located at the first tooth On the inside of torus (106), and first gear ring (106) is located at below the first rotating member (105)；The main energy collecting device (102) It further include supplying the installation pedestal (103) of the first main shaft (104) bottom installation and being sleeved on the outside of the first main shaft (104) and can drive The first energy-stored spring (129) that first gear ring (106) is rotated；The installation pedestal (103) is fixedly mounted on supporting element (101) on, the first rotating member (105) coaxial package is on the first main shaft (104) top；First energy-stored spring (129) It is connected between the second main shaft (119) and first gear ring (106), the first gear ring (106) is sleeved on the first energy storage bullet On the outside of spring (129).

6. a kind of automatic charging system based on energy acquisition described in accordance with the claim 1, it is characterised in that: described second turn Motivation structure is and the second main shaft (119) is coaxial lays and the second gear ring (121) that can be meshed with central gear (124), institute It states the second main shaft (119) to be located on the inside of second gear ring (121), and second gear ring (121) is located under the second rotating member (120) Side；

It is provided with locating part (112) on the outside of each secondary energy collecting device, the mobile base of each secondary energy collecting device One is provided on the outside of seat (118) can be hooked in mounting part or be capable of clamping on locating part (112) on locating part (112) Clamp.

7. a kind of automatic charging system based on energy acquisition according to claim 1 or 2, it is characterised in that: described turn It is in the annulus coaxially laid and the promotion secondary energy collecting device to close to center that rotating ring (109), which includes with central gear (124), The mobile convex block (111) in gear (124) side, the convex block (111) are laid on the inner sidewall of the annulus.

8. a kind of automatic charging system based on energy acquisition according to claim 7, it is characterised in that: the annulus is Third gear ring；The quantity of the convex block (111) is one or more, multiple convex blocks (111) along the circumferential direction uniform cloth It is located on the inner sidewall of the third gear ring.