CN202798527U - Solar mobile power station - Google Patents

Solar mobile power station Download PDF

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Publication number
CN202798527U
CN202798527U CN2012205087258U CN201220508725U CN202798527U CN 202798527 U CN202798527 U CN 202798527U CN 2012205087258 U CN2012205087258 U CN 2012205087258U CN 201220508725 U CN201220508725 U CN 201220508725U CN 202798527 U CN202798527 U CN 202798527U
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push rod
assembly
lighting system
operated valve
pneumatic operated
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CN2012205087258U
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李万红
李正
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/50Photovoltaic [PV] energy

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  • Arrangement Of Elements, Cooling, Sealing, Or The Like Of Lighting Devices (AREA)

Abstract

The utility model belongs to the solar field, especially to a solar mobile power station, comprising a lighting system, a vehicle-mounted mobile system and a control system. The lighting system comprises a lighting plate (01), a tracking assembly (02), a foot stool (03), a duplex pneumatic valve B (1), a push rod B (2), a connecting support (3), a level indicator (4), a bearing (5), a support rotating block (6), a chute and sliding block (7), a push rod A (8), a pneumatic valve A (9), an L rack A (10), a helical gear (11), a cross support (12), a support bolt (13), a total assembly (14), a fine tuning knob (15), an assembly bolt (16), a foot stool connecting block (17), a foot stool and locking button (18), an L rack B (19), a push rod C (20) and a strengthening steel chisel (20'). The lighting system possesses the function of real-timely tracking a solar optical axis and the detachable and combination functions, and the control system is placed in a vehicle of the vehicle-mounted mobile system. The solar mobile power station is suitable for the military, scientific research, nomadism and disaster rescue field power supply and heat supply.

Description

The solar energy mobile power station
Technical field
The invention belongs to the field of solar energy, especially a kind of solar energy mobile power station.
Background technology
The world today, the fossil energies such as coal, oil signal for help repeatedly, and problem of environmental pollution is increasingly serious.And the tool potentiality, the reproducible clean energy resource of solar energy conduct, the spatter property of the unlimitedness of its reserves, the generality of existence, application and the economy of utilization are more and more favored by people.Active development solar energy is greatly developed photovoltaic generation, has obtained in the world unprecedented attention, has classified the state basic policy of various countries' sustainable development as.Yet the development and use of current solar energy all are along " height " future development with " greatly ", so-called " height ", be exactly solar energy to adopt the energy device all be the highest point that places building, or set up high thermal-arrest tower.So-called " greatly ", because 1 square metre solar module, the power of output only has about 180W and 130W, the solar photovoltaic power plant that Spain ACCIONA company builds in Portugal, installed capacity 46 megawatts, large 140 square metres of every solar panel, 250 hectares of power station floor spaces (3750 mu), can only satisfy the daily electricity consumption of 30,000 family families, the contradiction in land resource transducing source has some idea of.But, in daily social practice because of the remote environments that can not get supply of electric power or a large amount of exist, heat supply and power supply such as military affairs, scientific investigation, nomadic, the disaster relief and various field works, if the electricity consumption hard problem of these remote environments, can realize with the solar energy mobile power station, should be a kind of more satisfactory solution.
Summary of the invention
This patent proposes a kind of solar energy mobile power station technical scheme for solving remote environments electricity consumption difficulty exactly.
The solar energy mobile power station comprises Combined lighting system (0), vehicle-mounted mobile system and control system; Described solar energy mobile power station is fit to field power supply and the heat supply of military affairs, scientific investigation, nomadic, the disaster relief; Described lighting system (0) has real-time tracking sun optical axis and function detachable, combination; Described Combined lighting system (0) is by plane skylight (01), tracking assembly (02), (03) three modular unit combination of foot rest.
The invention has the advantages that.
Transformation energy is high.Plane skylight (01) has the function of real-time tracing sun optical axis, in conjunction with lens group optically focused technology (see: the application formerly authorized patent No. is that 2012201981203 water-cooled concentration photovoltaic solar can generating field and the patent of 2,012,201,396,214 1 kinds of solar energy array type lens groups) synergistic application, plane skylight (01) can obtain up to the solar energy transfer ratio more than 50%.
Flexibly mobile.A solar energy mobile power station, a common automobile is just pulled on and can be set out, and automobile not only solves the mobile task of mobile power station, also doubles as the Control and Schedule chamber of mobile power station.Structural design capable of being combined, as to split, more hauling more and running faster provides prerequisite.
Strong adaptability.The installation mould of tripod type guarantees that the solar energy mobile power station can adapt to any environment of building a station.Insert the fixedly drill rod that designs on the pin, improved the ability of the anti-abominable natural conditions of Combined lighting system (0).
Volume is small and exquisite.Conventional sunlight axle is followed the tracks of parts and is all realized by gear drive, its complicated structure, unavoidable dependence spragging gear, turbine, worm screw, electro-motor drive in the tracking parts, so mechanism is complicated, it is also large to occupy the space, if gathered the technical scheme of pneumatic actuation, it is simple and reliable that driving mechanism becomes, and can significantly save space and the weight of installation, is highly suitable for the application on the solar energy mobile power station.
With low cost.Pneumatic actuation is compared with Mechanical Driven, and advantage is clearly, and special in the situation of need multiple unit parts collaborative work, the advantage of pneumatic actuation is just more outstanding, and for manufacturing person, production cost will significantly reduce.
Be widely used.This solar energy mobile power station is particularly suitable for military affairs, scientific investigation, nomadic, the disaster relief and the power supply of open-air occasion and heat supply.
Technical scheme of the present invention is to realize like this.
Described plane skylight (01) comprises support spin-block (6), chute and slide block (7), cross frame (12), support bracket bolt (13); Described plane skylight (01), adopt the water-cooled concentration photovoltaic solar can lighting technique, have the supplying functional (see: the application formerly authorized patent No. is that 2012201981203 water-cooled concentration photovoltaic solar can generating field and the patent of 2,012,201,396,214 1 kinds of solar energy array type lens groups) of hot water and electric power concurrently; The back side of described plane skylight (01) is provided with cross frame (12); The center of described cross frame (12) is provided with and the support spin-block (6) that is connected supporting (3) top and joins; The close pneumatic operated valve A(9 of described cross frame (12)) on the vertical frame, is provided with chute and slide block (7); Slide block in described chute and the slide block (7), with pneumatic operated valve A(9) in push rod A(8) the upper end join, along with push rod A(8) move up and down, be installed on the plane skylight (01) on the cross frame (12), can connect supporting (3) and do the adjustment of vertical angle; Described tracking assembly (02) comprises twin pneumatic operated valve B(1), push rod B(2), connect supporting (3), bearing (5), push rod A(8), pneumatic operated valve A(9), " L " frame A(10), helical gear (11), assembly seat (14), " L " frame B(19), push rod C(20).
Described tracking assembly (02) has the function of real-time tracking sun optical axis, to obtain the maximum conversion value of solar energy; Described pneumatic operated valve A(9), by " L " frame A(10) be fixed in the top of the bearing pedestal that connects supporting (3); Described bearing pedestal is provided with " L " frame A(10) installation screw, pneumatic operated valve A(9) by " L " frame A(10) be installed on the bearing pedestal; Described connection supporting (3), its upper end joins with support spin-block (6), is the pillar of carrying plane skylight (01), and its lower end then is bearing pedestal, and bearing (5) is installed on wherein; Described bearing (5) consolidation ground is overlapping on assembly seat (14); The outside of the bearing pedestal of described connection supporting (3) lower end, consolidation ground is overlapping has helical gear (11), helical gear (11) is at twin pneumatic operated valve B(1) push rod B(2) and push rod C(20) drive under, helical gear (11) is done horizontally rotating of both forward and reverse directions; Described twin pneumatic operated valve B(1), by " L " frame B(19) be fixedly mounted on the below of assembly seat (14); Described connection supporting (3) is being overlapped on assembly seat (14) by bearing (5) consolidation, realizes connecting supporting (3) and can rotate on assembly seat (14); The consolidation ground, the outside of described bearing pedestal is overlapping and helical gear is being arranged (11), and the tooth section of helical gear (11) stretches into twin pneumatic operated valve B(1) push rod B(2) with push rod C(20) in the space that forms; Described push rod B(2) and push rod C(20) program control lower in control system, driven helical gear (11) is done the action that horizontally rotates and lock helical gear (11) forward or backwards; Described foot rest (03) comprises that spirit level (4), vernier knob (15), assembly bolt (16), foot rest connect piece (17), foot rest and locking button (18) and reinforce drill rod (20 '); Described foot rest (03) has the function that adapts to any installation landform and adjust precisely installation of Combined lighting system (0), reliably install.
Described foot rest connects piece (17), on it, and connecting assembly seat (14), tracking assembly (02) and plane skylight (01) with carrier combination formula lighting system (0), it is lower, by three foot rests and locking button (18), makes Combined lighting system (0) can adapt to any installation landform; Described foot rest inserts on the underground position, is provided with the through hole of reinforcing drill rod (20 '), and reinforcing drill rod (20 ') passes through hole and squeezes in the ground of installation, with the reliability of practical guarantee Combined lighting system (0) installation.
Described foot rest connects piece (17), is block triangle, and leg-of-mutton center is provided with the cylindrical hole that assembly seat (14) inserts, and the center of cylindrical hole bottom is provided with the circular hole that assembly bolt (16) passes.
The head of described assembly bolt (16) is flat strip shaped, in order to pass the set flat round hole in assembly seat (14) bottom; The head of described assembly bolt (16) is inlaid with spirit level (4), and checking the accurate installation of Combined lighting system (0), described foot rest connects on the position at three angles of piece (17), is equipped with vernier knob (15) and foot rest and locking button (18).
Described twin pneumatic operated valve B(1), comprise lower valve body (21), rear chamber liquid mouth (22), installation screw (23), sealing ring A(24), square guide pillar (25), cup liquid mouth (26), push rod C(20), sealing ring B(27), push rod cup (28), push rod circular arc head (29), upper valve body C(30), connect bottom (31), push rod B(2) and push rod C(20), push rod square hole (32), front liquid chamber (33), upper valve body B(34), and rear liquid chamber (35).
Described twin pneumatic operated valve B(1), by two symmetrical upper valve body C(30) and upper valve body B(34) fit and (31) continuous rear duplex structure that forms bottom being connected with lower valve body (21); Described push rod B(2) and push rod C(20) push rod cup (28) of front end, the first half of its head has longitudinally been eliminated 1/2, stay 1/2 be designed to circular-arc so that push rod cup (28) can be realized the flexibly action of advance and retreat between helical gear two helical teeth; Described push rod B(2) and push rod C(20) centre bit of rear end, be provided with push rod square hole (32), push rod square hole (32) is overlapping on square guide pillar (25).
Described solar energy mobile power station adopts pneumatic gearing.
Described solar energy mobile power station is the installed capacity that determines mobile power station with vehicle-mounted ability; The delivered payload capability that Combined lighting system (0) is capable of being combined, structural design that split has greatly improved mobile instrument, Combined lighting system (0) splits, the structure of combination, be designed to plane skylight (01), follow the tracks of assembly (02), (03) three modular unit of foot rest, each unit module is by support bracket bolt (13) and assembly bolt (16) partable.
Described control system is arranged on the automobile of delivery vehicle, and described control system is by the equipment of known air pressure original paper, electrical equipment original paper and electric power storage distribution.
Description of drawings
Accompanying drawing 1 is solar energy mobile power station Combined lighting system of the present invention (0) overall structure schematic diagram.
Accompanying drawing 2 is tracing type Combined lighting system of the present invention (0) partial structurtes schematic diagram.
Accompanying drawing 3 is the structure chart of twin pneumatic operated valve of the present invention (1).
Accompanying drawing 4 is tracing type Combined lighting system of the present invention (0) combination, fractionation schematic diagram.
Accompanying drawing 5 is tracing type Combined lighting system of the present invention (0) tracking sunlight axle schematic diagram.
Accompanying drawing 6 is arranged schematic diagram for tracing type Combined lighting system of the present invention (0) array.
Embodiment
Describe the present invention in detail below in conjunction with accompanying drawing.
The mark title of accompanying drawing 1 is: plane skylight (01), follow the tracks of assembly (02), foot rest (03), twin pneumatic operated valve B(1), push rod B(2), connect supporting (3), spirit level (4), bearing (5), support spin-block (6), chute and slide block (7), push rod A(8), pneumatic operated valve A(9), " L " frame A(10), helical gear (11), cross frame (12), support bracket bolt (13), assembly seat (14), vernier knob (15), assembly bolt (16), foot rest connects piece (17), foot rest and locking button (18), " L " frame B(19), push rod C(20) and reinforce drill rod (20 ').
The mark title of accompanying drawing 3 is: twin pneumatic operated valve B(1), push rod B(2), push rod C(20), lower valve body (21), rear chamber liquid mouth (22), installation screw (23), sealing ring A(24), square guide pillar (25), cup liquid mouth (26), sealing ring B(27), push rod cup (28), push rod circular arc head (29), upper valve body C(30), connect bottom (31), push rod square hole (32), front liquid chamber (33), upper valve body B(34), and rear liquid chamber (35).
Describe the present invention in detail below in conjunction with accompanying drawing.
As shown in Figure 6, the solar energy mobile power station comprises Combined lighting system (0), vehicle-mounted mobile system and control system.
As shown in Figure 1 and Figure 2, described Combined lighting system (0) is by plane skylight (01), tracking assembly (02), (03) three modular unit combination of foot rest.
As shown in Figure 1 and Figure 2, described tracking assembly (02) comprises twin pneumatic operated valve B(1), push rod B(2), connect supporting (3), bearing (5), push rod A(8), pneumatic operated valve A(9), " L " frame A(10), helical gear (11), assembly seat (14), foot rest and locking button (18) " L " frame B(19), push rod C(20); Described tracking assembly (02) has the function of real-time tracking sun optical axis, to obtain the maximum conversion value of solar energy.
As shown in Figure 1 and Figure 2, described plane skylight (01), its front that faces south is laid with solar panel, and its back side is provided with cross frame (12); On the centre bit of described cross frame (12), be provided with and the support spin-block (6) that is connected supporting (3) and is connected.
As shown in Figure 1 and Figure 2, described cross frame (12) is near pneumatic operated valve A(9) vertical frame on, be provided with chute and slide block (7).
As shown in Figure 1 and Figure 2, described pneumatic operated valve A(9), by " L " frame A(10) be fixed on the bearing pedestal top that connects supporting (3); Described pneumatic operated valve A(9) front end push rod A(8), be connected with chute on the cross frame (12) that is arranged in plane skylight (01) back side and the slide block of slide block (7), along with push rod A(8) motion, plane skylight (01) can be adjusted vertical angle connecting in the supporting (3).
As shown in Figure 1 and Figure 2, described bearing (5) is arranged in the bearing pedestal that connects supporting (3) lower end; Described bearing (5), consolidation ground are overlapping on assembly seat (14), to realize that being installed on the plane skylight (01) that connects in the supporting (3) can do rotatablely moving of level in assembly seat (14).
As shown in Figure 1 and Figure 2, described plane skylight (01) is by pneumatic operated valve A(9) and twin pneumatic operated valve B(1) drive, can realize the adjustment of vertical angle and horizontal angle, with axis and the sun optical axis keeping parallelism of real-time plane skylight (01), obtain the solar energy transfer ratio more than 50%.
As shown in Figure 3, described twin pneumatic operated valve B(1), by two symmetrical upper valve body C(30 and upper valve body B(34) fit with lower valve body (21), and form duplex structure after bottom (31) links to each other by connecting; Described push rod B(2) and push rod C(20) push rod cup (28) of front end, the first half of its head has been eliminated 1/2, stay 1/2 be designed to circular-arc so that push rod cup (28) can be realized the action of advancing and retreat flexibly between helical gear two helical teeth; Described push rod B(2) and push rod C(20) centre bit of rear end, be provided with push rod square hole (32), described push rod square hole (32) is overlapping on square guide pillar (25).
As shown in Figure 1 and Figure 2, described bearing pedestal is provided with " L " frame A(10) installation screw, pneumatic operated valve A(9) by " L " frame A(10) be installed on the bearing pedestal.
As shown in Figure 1 and Figure 2, the outside of described bearing pedestal, consolidation ground are being overlapped has helical gear (11), and the tooth section of helical gear (11) stretches into twin pneumatic operated valve B(1) push rod B(2) and push rod C(20) in the space that forms; Described push rod B(2) and push rod C(20), program control lower in dynamical system, driven helical gear (11) is as forward and the reverse action that horizontally rotates and lock helical gear (11).
As shown in Figure 1, described solar energy mobile power station adopts pneumatic gearing.
As shown in Figure 4, the combination of described solar energy mobile power station tracing type Combined lighting system (0), the structure of fractionation, be designed to plane skylight (01), follow the tracks of assembly (02), (03) three unit module of foot rest, each unit module is by support bracket bolt (13) and assembly bolt (16) partable.
As shown in Figure 4, the delivered payload capability that Combined lighting system (0) is capable of being combined, structural design that split has greatly improved mobile instrument.
As shown in Figure 5, tracing type plane skylight tracking sunlight axle schematic diagram.
As shown in Figure 6, described solar energy mobile power station tracing type Combined lighting system (0) is respectively by pneumatic operated valve A(9) and twin pneumatic operated valve B(1) realize the adjustment of the vertical angle of lighting system (0) and horizontal angle, with the axis that ensures the plane skylight (01) in the lighting system (0) all the time with sunlight axle keeping parallelism, to obtain the maximum conversion value of solar energy.
As shown in Figure 6, described solar energy mobile power station is to determine the mobile power station installed capacity with the onboard capabilities of automobile, a solar energy mobile power station, and a common automobile just can be pulled on and set out; Described capable of being combined, the structural design that splits provides advantage for hauling more and running faster.
As shown in Figure 6, described automobile not only solves the mobile task of mobile power station, also doubles as the Control and Schedule chamber of mobile power station; The included known air pressure device of described control system, electric device and electric power storage controller switching equipment all can be arranged in the automobile of delivery vehicle.

Claims (4)

1. the solar energy mobile power station comprises Combined lighting system (0), vehicle-mounted mobile system and control system; Described lighting system has real-time tracking sun optical axis and function detachable, combination; Described solar energy mobile power station is fit to field power supply and the heat supply of military affairs, scientific investigation, nomadic, the disaster relief; It is characterized in that described Combined lighting system (0) is by plane skylight (01), tracking assembly (02), (03) three modular unit combination of foot rest; Described plane skylight (01) comprises support spin-block (6), chute and slide block (7), cross frame (12), support bracket bolt (13); Described plane skylight (01) adopts water-cooled concentration photovoltaic solar energy lighting technique, has the supplying functional of hot water and electric power concurrently; The back side of described plane skylight (01) is provided with cross frame (12); The center of described cross frame (12) is provided with and the support spin-block (6) that is connected supporting (3) top and joins; The close pneumatic operated valve A(9 of described cross frame (12)) on the vertical frame, is provided with chute and slide block (7); Slide block in described chute and the slide block (7), with pneumatic operated valve A(9) in push rod A(8) the upper end join, along with push rod A(8) move up and down, be installed on the plane skylight (01) on the cross frame (12), can connect supporting (3) and do the adjustment of vertical angle; Described tracking assembly (02) comprises twin pneumatic operated valve B(1), push rod B(2), connect supporting (3), bearing (5), push rod A(8), pneumatic operated valve A(9), " L " frame A(10), helical gear (11), assembly seat (14), " L " frame B(19), push rod C(20); Described tracking assembly (02) has the function of real-time tracking sun optical axis, to obtain the maximum conversion value of solar energy; Described pneumatic operated valve A(9), by " L " frame A(10) be fixed in the top of the bearing pedestal that connects supporting (3); Described bearing pedestal is provided with " L " frame A(10) installation screw, pneumatic operated valve A(9) by " L " frame A(10) be installed on the bearing pedestal; Described connection supporting (3), its upper end joins with support spin-block (6), is the pillar of carrying plane skylight (01), and its lower end then is bearing pedestal, and bearing (5) is installed on wherein; Described bearing (5) consolidation ground is overlapping on assembly seat (14); The outside of the bearing pedestal of described connection supporting (3) lower end, consolidation ground is overlapping has helical gear (11), helical gear (11) is at twin pneumatic operated valve B(1) push rod B(2) and push rod C(20) drive under, helical gear (11) is done horizontally rotating of both forward and reverse directions; Described twin pneumatic operated valve B(1), by " L " frame B(19) be fixedly mounted on the below of assembly seat (14); Described connection supporting (3) is being overlapped on assembly seat (14) by bearing (5) consolidation, realizes connecting supporting (3) and can rotate on assembly seat (14); The consolidation ground, the outside of described bearing pedestal is overlapping and helical gear is being arranged (11), and the tooth section of helical gear (11) stretches into twin pneumatic operated valve B(1) push rod B(2) with push rod C(20) in the space that forms; Described push rod B(2) and push rod C(20) program control lower in control system, driven helical gear (11) is done the action that horizontally rotates and lock helical gear (11) forward or backwards; Described foot rest (03) comprises that spirit level (4), vernier knob (15), assembly bolt (16), foot rest connect piece (17), foot rest and locking button (18) and reinforce drill rod (20 '); Described foot rest (03) has the function that adapts to any installation landform and adjust precisely installation of Combined lighting system (0), reliably install; Described foot rest connects piece (17), on it, and connecting assembly seat (14), tracking assembly (02) and plane skylight (01) with carrier combination formula lighting system (0), it is lower, by three foot rests and locking button (18), makes Combined lighting system (0) can adapt to any installation landform; Described slotting lower margin inserts on the underground position, is provided with the through hole of reinforcing drill rod (20 '), and reinforcing drill rod (20 ') passes through hole and squeezes in the ground of installation, with the reliability of practical guarantee Combined lighting system (0) installation; Described foot rest connects piece (17), is block triangle, and leg-of-mutton center is provided with the cylindrical hole that assembly seat (14) inserts, and the center of cylindrical hole bottom is provided with the circular hole that assembly bolt (16) passes; The head of described assembly bolt (16) is flat strip shaped, in order to pass the set flat round hole in assembly seat (14) bottom; The head of described assembly bolt (16) is inlaid with spirit level (4), and checking the accurate installation of Combined lighting system (0), described foot rest connects on the position at three angles of piece (17), is equipped with vernier knob (15) and foot rest and locking button (18).
2. solar energy mobile power station according to claim 1, it is characterized in that, described twin pneumatic operated valve B(1), comprise lower valve body (21), rear chamber liquid mouth (22), installation screw (23), sealing ring A(24), square guide pillar (25), cup liquid mouth (26), push rod C(20), sealing ring B(27), push rod cup (28), push rod circular arc head (29), upper valve body C(30), connect bottom (31), push rod B(2) and push rod C(20), push rod square hole (32), front liquid chamber (33), upper valve body B(34), and rear liquid chamber (35); Described twin pneumatic operated valve B(1), by two symmetrical upper valve body C(30) and upper valve body B(34) fit and (31) continuous duplex structure that forms bottom being connected with lower valve body (21); Described push rod B(2) and push rod C(20) push rod cup (28) of front end, the first half of its head has longitudinally been eliminated 1/2, stay 1/2 be designed to circular-arc so that push rod cup (28) can be realized the flexibly action of advance and retreat between helical gear two helical teeth; Described push rod B(2) and push rod C(20) centre bit of rear end, be provided with push rod square hole (32), described push rod square hole (32) is overlapping on square guide pillar (25).
3. solar energy mobile power station according to claim 1, it is characterized in that, described Combined lighting system (0) is detachable, the structure of combination, be designed to plane skylight (01), follow the tracks of assembly (02), (03) three unit module of foot rest, each unit module is by support bracket bolt (13) and assembly bolt (16) partable; Described mobile power station is the installed capacity that determines mobile power station with vehicle-mounted ability; Described Combined lighting system (0) is capable of being combined, the structural design of fractionation, has improved the delivered payload capability of delivery vehicle.
4. solar energy mobile power station according to claim 1 is characterized in that, described control system is arranged on the automobile of delivery vehicle, and described control system comprises the equipment of known air pressure original paper, electrical equipment original paper and electric power storage distribution.
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CN2012205087258U 2012-10-05 2012-10-05 Solar mobile power station Expired - Lifetime CN202798527U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102891633A (en) * 2012-10-05 2013-01-23 李万红 Mobile solar power station

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102891633A (en) * 2012-10-05 2013-01-23 李万红 Mobile solar power station
CN102891633B (en) * 2012-10-05 2015-09-09 宁波市科技园区绿牌软包装技术贸易有限公司 Solar energy mobile power station

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