CN203734590U - Portable wind-solar hybrid power generating system - Google Patents

Abstract

The utility model relates to a portable wind-solar hybrid power generating system which comprises the components of: a wind power generator, a solar photovoltaic assembly, an accumulator, a controller and a base. The wind power generator comprises a motor body, a rotating shaft and a blade assembly. The motor body is mounted on the controller. The motor body, the accumulator and the solar photovoltaic assembly are respectively connected with the controller electrically. The blade assembly is detachably mounted on the rotating shaft. The outer periphery of the base is hinged with the components of: a housing which is upwards turned relative to the base in accommodation and forms a housing with a chamber, and a plurality of supporting boards which can be used as whole system supporting components in use. The rotating shaft is obtained through combining a plurality of connecting rods with same diameter. Each connecting rod is detachably mounted on the motor body and is accommodated in the housing. The solar photovoltaic assembly and the accumulator is mounted on at least one supporting rod and are accommodated in the housing. The blade assembly is accommodated in the housing. The whole system is integrated in accommodation, thereby facilitating carrying and mounting.

Description

Portable wind and light complementary electricity generation system

Technical field

The utility model belongs to wind and solar hybrid generating system, relates in particular to a kind of portable wind and light complementary electricity generation system.

Background technology

Along with the continuous progress of society, the mankind are increasing to the demand of the energy, the energy using at present, mainly contain the nonrenewable resourceses such as coal, oil, natural gas, in promoting human social development, bring serious environmental pollution and the ecosystem to destroy, therefore, the important content that various countries pursue the strategy of sustainable development to development and utilizations renewable, pollution-free new forms of energy, solar energy, wind energy are as inexhaustible renewable resource, pollution-free and widely distributed, can solve to a great extent the problem of mankind's energy deficiency and environmental pollution.

Solar energy and wind energy have very strong complementarity in time with on region, when daytime, sunlight was the strongest, wind-force a little less than, illumination in evening is very weak, but wind-force is strengthened because earth's surface difference variation is large; In the time of summer, the large but wind-force of intensity of illumination a little less than, when winter, intensity of illumination weakens and wind-force is strengthened, and by the use of working in coordination of solar energy and wind energy, realizes the maximization of using energy source.

Wind and solar hybrid generating system, can be electric energy by solar energy and wind energy transformation simultaneously, very suitable to frontier sentry, ungetable local use the such as outlying pastoral area and island, existing wind and solar hybrid generating system comprises wind-driven generator and solar photovoltaic assembly, there is at present a kind of portable wind and light complementary electricity generation system, comprise wind-driven generator and support, wind-driven generator is arranged on the top of support, this kind of wind-driven generator can only receive the wind of a wind direction, wind energy utilization is lower, and between each structure, all adopt the connection mode being fixedly installed, cause wind and solar hybrid generating system overall volume larger, under the occasion of carrying inconvenience and maybe need to rescue in remote districts, cannot use.Separately there is a kind of Portable vertical axle wind-solar complementary type electric supply installation, that vertical axis aerogenerator is movably arranged on a top board, when dismounting, only the lamp stand of vertical axis aerogenerator is arranged in device body frame and is received, and miscellaneous part still adopts the fixed form while use, same electric supply installation overall volume is larger, carries inconvenience.

Utility model content

The purpose of this utility model is to provide a kind of portable wind and light complementary electricity generation system, is intended to solve the problem that existing wind and solar hybrid generating system volume ratio is large, be not easy to carry.

The utility model is to realize like this, a kind of portable wind and light complementary electricity generation system, comprise wind-driven generator, solar photovoltaic assembly, batteries, controller and base, described wind-driven generator comprises motor body, rotating shaft and blade assembly, described motor body, described batteries and described solar photovoltaic assembly are electrically connected respectively described blade assembly and are detachably installed in described rotating shaft with described controller, described rotating shaft is detachably installed on described motor body, described motor body is detachably installed on described controller, described controller is detachably installed on described base, the periphery of described base is hinged with upwards to overturn and to enclose at relatively described base of when storage and forms the housing with a cavity, and can be used as in use multiple supporting brackets of whole system supporting member, described rotating shaft is by detachably becoming the identical connecting rod in multiple bars footpath to constitute, each described connecting rod removes and installs on described motor body and is accommodated in described housing, described solar photovoltaic assembly, described batteries is installed at least one described supporting bracket, and be accommodated in described housing, described blade assembly is accommodated in described housing.

Further, also comprise a top cover, described housing has an openend, and described top cover is detachably installed on the top of described rotating shaft or is detachably installed on described open end and is fixedly connected with the each described supporting bracket of upwards overturning after enclosing.

Particularly, described in each, one end of connecting rod is all installed with the first connector, described in adjacent two, connecting rod links together by described the first connector, and described top cover removably connects or removably connects with the other end of the described connecting rod that is placed in described top end with described the first connector that is placed in described top end.

Further, described in each, the other end of connecting rod is equipped with the second connector, described the second connector removably connects with described the first connector corresponding on connecting rod described in another, and described second connector of described top cover and described top end removably connects.

Preferably, described the first connector is provided with the first grab, described the second connector is provided with first draw-in groove suitable with described the first grab, described the first grab and described the first draw-in groove engagement connection, described top cover is provided with second grab suitable with described the first draw-in groove, described the first draw-in groove and described the second grab engagement connection.

Further, described motor body is provided with the mounting groove corresponding with described connecting rod number, and described mounting groove and described the first connector profile are suitable, and each described connecting rod is detachably installed in described mounting groove by described the first connector.

Further, described blade assembly comprises blade and the first blade connecting rod, described the first connector is provided with first joint suitable with described the first blade connecting rod, one end of described the first blade connecting rod and described blade removably connect, the other end and described the first joint removably connect, described the first blade connecting rod is detachably installed in described supporting bracket and is accommodated in described housing, and described blade can be accommodated in described housing.

Particularly, described blade assembly also comprises the second blade connecting rod, described the second blade connecting rod is corresponding one by one with described the first blade connecting rod, described the second connector is provided with second joint suitable with described the second blade connecting rod, described second one end of blade connecting rod and the other end of described blade removably connect, the other end and described the second joint removably connect, and described the second blade connecting rod is detachably installed in described supporting bracket and is accommodated in described housing.

Preferably, described the first joint is set to two, and be symmetrical arranged in the center line of described the first connector, described blade is resistance-type blade, described resistance-type blade is provided with first installing hole suitable with described the first blade connecting rod, described first blade connecting rod one end is detachably installed in described the first installing hole, and the other end is connected with described the first joint screw thread.

Preferably, described the first joint is set to four, and in the Central Symmetry setting of described the first connector, described the second joint is set to four, and in the Central Symmetry of described the second connector, described blade is lift-type blade, described lift-type blade one end is provided with second installing hole suitable with described the first blade connecting rod, the other end is provided with three installing hole suitable with described the second blade connecting rod, described first blade connecting rod one end is detachably installed in described the second installing hole, the other end is connected with described the first joint screw thread, described second blade connecting rod one end is detachably installed in described the 3rd installing hole, the other end is connected with described the second joint screw thread.

The beneficial effect of the Portable vertical axle wind and solar hybrid generating system that the utility model provides is: the rotating shaft multiple connecting rods of detachable one-tenth of wind-driven generator also can be accommodated in housing, the blade assembly of wind-driven generator, batteries and solar photovoltaic assembly can be accommodated in housing, reduce the overall volume of wind and solar hybrid generating system, be easy to carry, when installation, connecting rod is taken off from motor body, adjacent two connecting rods link together by the first connector, and assemble successively other connecting rods, simple to operate, be convenient to install, in addition, the bar footpath of each connecting rod is identical, the rotating shaft diameter of axle being formed by connecting is identical, in the time that blade assembly is rotated by windage, in rotating shaft, each point is stressed identical, therefore, can eliminate rotating shaft due to unbalance stress, easily there is the phenomenon of deflection in various degree in its top, improve wind energy utilization.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the portable wind and light complementary electricity generation system that provides of the utility model embodiment mono-;

Fig. 2 is another schematic perspective view of Fig. 1;

Fig. 3 is another structural representation of Fig. 1 Leaf;

Fig. 4 is another schematic perspective view of Fig. 3;

Fig. 5 is the schematic perspective view that in Fig. 1, portable wind and light complementary electricity generation system is collapse state;

Fig. 6 is the schematic perspective view of the generator that provides of the utility model embodiment mono-;

Fig. 7 is another schematic perspective view of Fig. 6;

Fig. 8 is the schematic perspective view of the base that provides of the utility model embodiment mono-;

Fig. 9 is the top cover schematic perspective view that the utility model embodiment mono-provides;

The schematic perspective view of the portable wind and light complementary electricity generation system that Figure 10 provides for the utility model embodiment bis-;

Figure 11 is the schematic perspective view that Figure 10 does not install blade assembly;

Figure 12 is the schematic perspective view of the connecting rod that provides of the utility model embodiment bis-;

Figure 13 is another schematic perspective view of Figure 12.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Below in conjunction with specific embodiment, the utility model is described in detail.

Embodiment mono-

As shown in Figures 1 to 5, a kind of portable wind and light complementary electricity generation system that the utility model embodiment provides, comprise wind-driven generator 1, solar photovoltaic assembly (not shown), batteries (not shown), controller (not shown) and base 2, wind-driven generator 1 comprises motor body 11, rotating shaft 12 and blade assembly 13, rotating shaft 12 is detachably installed on motor body 11, on the detachable installation of motor body 11 and controller, controller is detachably installed on base 2, blade assembly 13 is detachably installed in rotating shaft 12, motor body 11 is detachably installed on controller, controller is detachably installed on base 2, motor body 11, solar photovoltaic assembly, batteries is electrically connected with controller respectively, the periphery of base 2 is hinged with multiple supporting brackets 3, each supporting bracket 3 can upwards be overturn and enclose formation housing 31 by relative base 2 in the time of storage, and can be used as in use whole system supporting member, housing 31 has a cavity 310, rotating shaft 12 is by detachably becoming the identical connecting rod 121 in multiple bars footpath to constitute, each connecting rod 121 removes and installs on motor body 11 and can be accommodated in housing 31, solar photovoltaic assembly, batteries is installed at least one supporting bracket 3, and be accommodated in the cavity 310 of housing 31, blade assembly 13 also can be accommodated in housing 31.

Or each connecting rod 121 removes and installs on controller or base 2, motor body 11 can be carried separately, and whole system is split into multiple independent members, can be shared by many people, alleviates and carries burden.

In the present embodiment, rotating shaft 12 is disassembled into multiple connecting rods 121, connecting rod 121 can be according to user's request, adopt metal or nonmetal making, the bar footpath of each connecting rod 121 is identical, and be detachably installed on motor body 11, blade assembly 13 removably connects with rotating shaft 12, therefore, the present embodiment provides wind-driven generator 1 detachable one-tenth multiple separate parts, and be accommodated in housing 31, the wind-driven generator that the wind and solar hybrid generating system providing with respect to prior art provides, not only wind-driven generator 1 is accommodated in housing 31 completely, and, rotating shaft 12 bar footpaths, each point place are identical, when blade assembly 13 is subject to wind effect, rotate, rotating shaft 12 each points are stressed identical, eliminate prior art and adopt Telescopic shaft type structure, rotating shaft each point unbalance stress, the top of rotating shaft easily deflects, affect the utilance of wind energy, in addition, connecting rod 121 is fixed on motor body 11, even in transportation, connecting rod 121 can be not loose yet, be easy to carry.

In the present embodiment, supporting bracket 3 is articulated with the periphery of base 2, and be around shape and arrange, supporting bracket 3 base 2 foldings or open relatively, the supporting bracket 3 of opening can provide firm support, when upwards folding, supporting bracket 3 can form housing 31, by connecting rod 121, blade assembly 13, motor body 11, batteries, solar photovoltaic assembly is all accommodated in the cavity 310 of housing 31, be that wind-driven generator is accommodated in cavity 310 completely, reduce wind and solar hybrid generating system overall volume, be easy to carry, the opening angle of supporting bracket 3 can be adjusted suitable angle according to physical features height, on base 2, be also provided with the support bar 4 for fixed support plate 3, base 2 is provided with the installing hole (not shown) for support bar 4 is installed, one end of support bar 4 is provided with external screw thread, installing hole is provided with internal thread, one end of support bar 4 is threaded with installing hole, the other end is resisted against in supporting bracket 3, for the opening angle of fixed support plate 3, when supporting bracket 3 is adjusted opening angle according to physical features, one end of support bar 4 is propped up and is peaked in supporting bracket 3, make whole electricity generation system working in environment stably, further guarantee the normal operation of whole electricity generation system.

Preferably, supporting bracket 3 is set to three, and in the Central Symmetry setting of base 2, supporting bracket 3 can adopt metal or non-metallic material to make, supporting bracket 3 is arc, it is cylindric that three supporting brackets 3 upwards turn down the housing 31 forming, the cavity of cavity 310 is larger, the all parts of wind-driven generator 1 can be accommodated in cavity 310, solar photovoltaic assembly and batteries are installed in supporting bracket 3, solar photovoltaic assembly can be accepted solar energy, and produce electric energy, by controller by electrical power storage in batteries, when disassembled for transport, supporting bracket 3 foldings, solar photovoltaic assembly and batteries are all collapsed in housing 31, thereby in the time of transport or carrying, protection solar photovoltaic assembly and batteries are avoided outside destroy, in addition, also can be in batteries embedded triones navigation system or GPS positioning chip as required, when emergent, convenient extraneous search and location.

Preferably, the shell of motor body 11 can adopt metal or nonmetal making according to user's demand, motor body 11 is detachably installed on controller, if in use, if the power of single motor body 11 cannot meet user demand, can, by the mode of removably connecting, multiple motor bodies 11 be assembled into group of motors, increase the generated output of motor body 11.

Preferably, wind-driven generator 1 is vertical axis aerogenerator, the rotating shaft 12 of vertical axis aerogenerator is vertical with wind direction, and blade assembly 13 is without to wind, can accept the wind of any wind direction, therefore vertical axis aerogenerator generating efficiency is higher, stability is stronger, in addition, compared to horizontal axis wind-driven generator, the motor body 11 of vertical axis aerogenerator can be installed on the ground, repair and maintenance is convenient, when installation, motor body 11 is installed on controller, again rotating shaft 12 is installed on motor body 11, blade assembly 13 is installed in rotating shaft 12, can complete assembling, simple to operate.

As shown in Fig. 2, Fig. 5 and Fig. 9, portable wind and light complementary electricity generation system also comprises top cover 5, housing 31 has openend 311, assembled when rotating shaft 12, top cover 5 is detachably arranged on the top of rotating shaft 12, or, when rotating shaft 12 is disassembled into multiple connecting rods 121, connecting rod 121 is accommodated in housing 31, and top cover 5 is detachably installed on openend 311 places, and is fixedly connected with the supporting bracket 3 of upwards overturning after enclosing.Supporting bracket 3 is provided with grab 32, top cover 5 is provided with the draw-in groove 51 suitable with grab 32, top cover 5 is covered on openend 311 places of housing 31, grab 32 and draw-in groove 51 engagement connections, keep housing 31 indeformable, prevent that housing 31 is in transportation, supporting bracket 3 is subject to External Force Acting and occurs loose, adopt binding mode compared to prior art, operate more simple, and top cover 5 is connected more firm with supporting bracket 3, housing 31 is difficult for loose, top cover 5 can be according to user's request, adopt metal or non-metallic material to make, certainly, also can place in the inside of top cover 5 batteries or Big Dipper navigation or GPS navigation system, or 3G or 4G chip are placed in the inside at top cover 5, set up WIFI focus, meet the demand that outdoor subscriber is surfed the Net or set up local area network (LAN).

As Fig. 2, shown in Fig. 4 and Fig. 5, the multiple connecting rods 121 of rotating shaft 12 detachable one-tenth, one end of each connecting rod 121 is all installed with the first connector 122, adjacent two connecting rods 121 link together by the first connector 122, when installation, the other end of another connecting rod 121 and the first connector 122 link together, and successively other connecting rods 121 are linked together and are assembled into rotating shaft 12, the other end of connecting rod 121 can plug together and is connected or is threaded or engagement connection with the first connector 122, adjacent two connecting rods 121 are easy to split, simple to operate, in addition, in the time that wind and solar hybrid generating system is installed, without the assembling of using other aids and can complete rotating shaft 12, installation effectiveness is high.

Further, when rotating shaft 12 completes assembling, blade assembly 13 is installed in rotating shaft 12, top cover 5 is arranged on the top of rotating shaft 12, easy for installation, top cover 5 can removably connect with the first connector 122 of top end or removably connect with the other end of the connecting rod 121 of top end, top cover 5 can or be threaded or adopt other modes of removably connecting to link together with the other end engagement connection of the first connector 122 or connecting rod 121, even if blade assembly 13 is subject to wind effect, when rotation, top cover 5 also can not come off.

As shown in Figure 10 to Figure 13, the other end of each connecting rod 121 is provided with the second connector 123, the second connector 123 removably connects with the first connector 122 on adjacent another connecting rod 121, top cover 5 removably connects with the second connector 123 of top end, rotating shaft 12 can be disassembled into multiple connecting rods 121 at the first connector 122 and the second connector 123 junctions, the one end that is each connecting rod 121 is installed with the first connector 122, the other end is installed with the second connector 123, the first connector 122 connects by buckle with the second corresponding connector 122 or the mode such as be threaded links together, be easy to install, top cover 5 and the second connector 123 link together by snap-in structure or helicitic texture, easy for installation.

As Fig. 9, shown in Figure 11 to Figure 13, the first connector 122 is provided with the first grab 1222, the second connector 123 is provided with the first draw-in groove 1231, the first draw-in groove 1231 and the first grab 1222 are suitable, the first grab 1222 and the first draw-in groove 1231 engagement connections, top cover 5 is provided with the second grab 52, the second grab 52 and the first draw-in groove 1231 are suitable, and the second grab 52 and the first draw-in groove 1231 engagement connections, mounting groove 111 is provided with second draw-in groove 1111 suitable with the first grab 1222, by the engagement connection of the first grab 1222 and the first draw-in groove 1231, multiple connecting rods 121 can be assembled into rotating shaft 12, install simple, in the time that needs fold rotating shaft 12, remove the engagement connection between the first connector 122 and the second connector 123, rotating shaft 12 splits into multiple connecting rods 121, without using other aids, easy operating.The connecting rod 121 of dismounting is by the engagement connection of the first grab 1222 and the second draw-in groove 1111, connecting rod 121 is fixedly mounted on motor body 11, easy for installation, again supporting bracket 3 is folded, form housing 31, top cover 5 also can adopt engagement connection with supporting bracket 3, top cover 5 buttons are located at openend 311 places, the entirety that completes wind and solar hybrid generating system folds, take up room little, be easy to carry, in the time that needs are installed wind and solar hybrid generating system, adjacent two connecting rods 121 link together by the snap-in structure between the first connector 122 and the second connector 123, top cover 5 is arranged on the top of rotating shaft 12, easy for installation, time saving and energy saving.

As shown in Fig. 2, Fig. 5 and Fig. 6, motor body 11 is provided with the mounting groove 111 corresponding with connecting rod 121 numbers, the profile of mounting groove 111 and the first connector 122 is suitable, each the first connector 122 is with mounting groove 111 engagement connections or be threaded, when rotating shaft 12 is disassembled into multiple connecting rods 121, each connecting rod 121 is installed in mounting groove 111 by the first connector 122, is completely fixed by connecting rod 121, even carry or transportation in, connecting rod 121 can be not loose yet.

As shown in Figures 2 to 5, blade assembly 13 comprises blade 131, the first blade connecting rod 132, the first connector 122 is provided with the first joint 1221, the first joint 1221 and the first blade connecting rod 132 are suitable, one end of the first blade connecting rod 132 and blade 131 removably connect, the other end and the first joint 1221 removably connect, multiple connecting rods 121 are assembled into rotating shaft 12 successively, again one end of the first blade connecting rod 132 is arranged on the first corresponding joint 1221, blade 131 is arranged on the other end of the first blade connecting rod 132, complete all component assembling of wind-driven generator 1, simple to operate, the first blade connecting rod 132 can be sheathed on the first joint 1221, or first blade connecting rod 132 be threaded with the first joint 1221, easy for installation, and be easy to dismounting.

Preferably, the first blade connecting rod 132 is pulled down from the first connector 122, supporting bracket 3 is provided with the mount pad 33 for fixing the first blade connecting rod 132, the first blade connecting rod 132 is fixedly arranged on mount pad 33, again supporting bracket 3 is folded into housing 31, blade 131 is placed in the cavity 310 of housing 31, fold integral by wind-driven generator 1, reduce taking up room of electricity generation system, easy to carry and transport.

As Figure 10, Figure 12, shown in Figure 13, the blade assembly 13 that the present embodiment provides also comprises the second blade connecting rod 133, the second blade connecting rod 133 is corresponding one by one with the first blade connecting rod 132, the second connector 123 is provided with second joint 1231 suitable with the second blade connecting rod 133, one end of the second blade connecting rod 133 and blade 131 removably connect, the other end and the second joint 1231 removably connect, the second blade connecting rod 133 is detachably installed in supporting bracket 3 and is accommodated in housing 31, the second blade connecting rod 133 and the first blade connecting rod 132 appearance similars, all can be installed in mount pad 33.

As shown in Figures 1 to 4, blade 131 is resistance-type blade, the first joint 1221 is set to two, and be symmetrical arranged in the center line of the first connector 122, be that each first connector 122 is connected with two first blade connecting rods 132, the both sides that two first blade connecting rods 132 set up the first connector 132 separately, corresponding blade 131 is set to two, blade 131 is provided with the first installing hole 1311 for the first blade connecting rod 132 is installed, the first blade connecting rod 132 is detachably installed in the first installing hole 1311, and be fixedly connected with blade 131, the other end is threaded with the first joint 1221, guarantee in the time that blade 131 is rotated by wind effect, the first blade connecting rod 132 can not depart from blade 131.

As shown in Figure 2, blade 131 cambers, on each first connector 122, be provided with two first joints 1221, two first joints 1221 are connected with respectively two first blade connecting rods 132, symmetrically arranged two first blade connecting rods 132 are connected with two blades 131 respectively, each blade 131 is connected with three the first blade connecting rods 132, as shown in Figure 4, blade 131 curls, on each first connector 122, be provided with two first joints 1221, two first joints 1221 are connected with respectively two first blade connecting rods 132, symmetrically arranged two first blade connecting rods 132 are connected with two blades 131 respectively, when blade 131 rotates, the electric energy producing is more even.

As shown in Fig. 7 and Fig. 8, base 2 is provided with the 3rd draw-in groove 21, controller is provided with the fixture block suitable with the 3rd draw-in groove 21, suitable and the engagement connection of fixture block and the 3rd draw-in groove 21, controller is fixed on base 2 by engagement connection, easy for installation, easy operating, motor body 11 is provided with the 3rd grab 112, controller is provided with four draw-in groove suitable with the 3rd grab 112, suitable and the engagement connection of the 3rd grab 112 and the 4th draw-in groove, motor body 11 is fixed on controller by engagement connection, and in the time that motor body 11 needs to use separately, be convenient to dismounting.

Embodiment bis-

As shown in Figure 10 and Figure 11, the present embodiment is substantially identical with embodiment mono-, difference is, blade 131 is lift-type blade, 131 one-tenth lath-shapeds of blade, the first joint 1221 is set to four, the first joint 1221 is in the Central Symmetry setting of the first connector 122, the second joint 1231 is set to four, and with the Central Symmetry of the second connector 123, one end of lift-type blade is provided with second installing hole 1312 suitable with the first blade connecting rod 132 profiles, the other end is provided with three installing hole 1313 suitable with the second blade connecting rod 133 profiles, the one end that is blade 131 is connected with the first blade connecting rod 132, the other end is connected with the second blade connecting rod 133, one end of the first blade connecting rod 132 is detachably installed in the second installing hole 1312, the other end is threaded with the first joint 1221, second blade connecting rod 133 one end are detachably installed in the 3rd installing hole 1313, the other end is threaded with the second joint 1231, each first connector 122 is connected with four the first blade connecting rods 132, each second connector 123 is connected with four the second blade connecting rods 133, corresponding blade 131 is set to four, the first blade connecting rod 132 is inserted in the second installing hole 1312, and be fixedly connected with blade 131, the second blade connecting rod 133 is inserted in the 3rd installing hole 1313, and be fixedly connected with blade 131, while guaranteeing that blade 131 is rotated by wind effect, the first blade connecting rod 132, the second blade connecting rod 133 can not depart from blade 131.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection range of the present utility model.

Claims (10)

1. portable wind and light complementary electricity generation system, comprise wind-driven generator, solar photovoltaic assembly, batteries, controller and base, described wind-driven generator comprises motor body, rotating shaft and blade assembly, described motor body, described batteries and described solar photovoltaic assembly are electrically connected with described controller respectively, it is characterized in that: described blade assembly is detachably installed in described rotating shaft, described rotating shaft is detachably installed on described motor body, described motor body is detachably installed on described controller, described controller is detachably installed on described base, the periphery of described base is hinged with upwards to overturn and to enclose at relatively described base of when storage and forms the housing with a cavity, and can be used as in use multiple supporting brackets of whole system supporting member, described rotating shaft is by detachably becoming the identical connecting rod in multiple bars footpath to constitute, each described connecting rod removes and installs on described motor body and is accommodated in described housing, described solar photovoltaic assembly, described batteries is installed at least one described supporting bracket, and be accommodated in described housing, described blade assembly is accommodated in described housing.

2. portable wind and light complementary electricity generation system as claimed in claim 1, it is characterized in that: also comprise a top cover, described housing has an openend, and described top cover is detachably installed on the top of described rotating shaft or is detachably installed on described open end and is fixedly connected with the each described supporting bracket of upwards overturning after enclosing.

3. portable wind and light complementary electricity generation system as claimed in claim 2, it is characterized in that: described in each, one end of connecting rod is all installed with the first connector, described in adjacent two, connecting rod links together by described the first connector, and described top cover removably connects or removably connects with the other end of the described connecting rod that is placed in described top end with described the first connector that is placed in described top end.

4. portable wind and light complementary electricity generation system as claimed in claim 3, it is characterized in that: described in each, the other end of connecting rod is equipped with the second connector, described the second connector removably connects with described the first connector corresponding on connecting rod described in another, and described second connector of described top cover and described top end removably connects.

5. portable wind and light complementary electricity generation system as claimed in claim 4, it is characterized in that: described the first connector is provided with the first grab, described the second connector is provided with first draw-in groove suitable with described the first grab, described the first grab and described the first draw-in groove engagement connection, described top cover is provided with second grab suitable with described the first draw-in groove, described the first draw-in groove and described the second grab engagement connection.

6. portable wind and light complementary electricity generation system as claimed in claim 3, it is characterized in that: described motor body is provided with the mounting groove corresponding with described connecting rod number, described mounting groove and described the first connector profile are suitable, and each described connecting rod is detachably installed in described mounting groove by described the first connector.

7. the portable wind and light complementary electricity generation system as described in any one in claim 4 to 6, it is characterized in that: described blade assembly comprises blade and the first blade connecting rod, described the first connector is provided with first joint suitable with described the first blade connecting rod, one end of described the first blade connecting rod and described blade removably connect, the other end and described the first joint removably connect, described the first blade connecting rod is detachably installed in described supporting bracket and is accommodated in described housing, and described blade can be accommodated in described housing.

8. portable wind and light complementary electricity generation system as claimed in claim 7, it is characterized in that: described blade assembly also comprises the second blade connecting rod, described the second blade connecting rod is corresponding one by one with described the first blade connecting rod, the second connector is provided with second joint suitable with described the second blade connecting rod, described second one end of blade connecting rod and the other end of described blade removably connect, the other end and described the second joint removably connect, and described the second blade connecting rod is detachably installed in described supporting bracket and is accommodated in described housing.

9. portable wind and light complementary electricity generation system as claimed in claim 8, it is characterized in that: described the first joint is set to two, and be symmetrical arranged in the center line of described the first connector, described blade is resistance-type blade, described resistance-type blade is provided with first installing hole suitable with described the first blade connecting rod, described first blade connecting rod one end is detachably installed in described the first installing hole, and the other end is connected with described the first joint screw thread.

10. portable wind and light complementary electricity generation system as claimed in claim 8, it is characterized in that: described the first joint is set to four, and in the Central Symmetry setting of described the first connector, described the second joint is set to four, and in the Central Symmetry of described the second connector, described blade is lift-type blade, described lift-type blade one end is provided with second installing hole suitable with described the first blade connecting rod, the other end is provided with three installing hole suitable with described the second blade connecting rod, described first blade connecting rod one end is detachably installed in described the second installing hole, the other end is connected with described the first joint screw thread, described second blade connecting rod one end is detachably installed in described the 3rd installing hole, the other end is connected with described the second joint screw thread.