CN105162402A - Chain-drive low-vibration solar power supply device - Google Patents
Chain-drive low-vibration solar power supply device Download PDFInfo
- Publication number
- CN105162402A CN105162402A CN201510517361.8A CN201510517361A CN105162402A CN 105162402 A CN105162402 A CN 105162402A CN 201510517361 A CN201510517361 A CN 201510517361A CN 105162402 A CN105162402 A CN 105162402A
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- China
- Prior art keywords
- skewback
- front wheel
- rear roller
- install bin
- column
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
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Abstract
The invention discloses a chain-drive low-vibration solar power supply device. The power supply device comprises an upright post (10), a front idler wheel (13), a rear idler wheel (14), a left mounting box (22) and a right mounting box (12), wherein front and back two orbit grooves (120) are formed in the upright post (10); the front idler wheel (13) and the rear idler wheel (14) can roll in the two orbit grooves (120) respectively; the left mounting box (22) and the right mounting box (12) are connected with the front idler wheel (13) and the rear idler wheel (14) and are arranged at two sides of the upright post (10); a left solar panel (24) and a right solar panel (26) are carried on the left mounting box (22) and the right mounting box (12) respectively; a left battery assembly (23) and a right battery assembly (25) are arranged on the left mounting box (22) and the right mounting box (12) respectively; and each of the left mounting box (22) and the right mounting box (12) comprises a support frame body (9).
Description
Technical field
The application relates to field of solar energy, is specially the solar electric power feedway of a kind of usage chain transmission and low vibrations.
Background technology
In some job sites, often need to use removable power supply facilities.And some accumulator plants etc. are due to finite capacity, be difficult to the removable electricity consumption needs realizing continuous several times.The solar powered facility of some simple constructions then can remedy such and insufficient to a great extent.
Operating environment requirements due to solar battery panel and the requirement for daylighting, solar cell for supplying power facility often needs to set up certain altitude.More existing devices are the pattern that is fixedly installed of a kind of battery panel often, and this pattern that is fixedly installed forms certain difficulty in erection, and is also difficult to the mobility requirement meeting partition and transport fast.
Summary of the invention
The object of the present invention is to provide the solar electric power feedway of a kind of usage chain transmission and low vibrations, it can overcome above-mentioned defect.
According to usage chain transmission of the present invention and the solar electric power feedway of low vibrations, comprise with the column of former and later two rail grooves, the front wheel that can roll in described two rail grooves respectively with rear roller and be connected with described front wheel and rear roller and be arranged on the left install bin of described column both sides and right install bin, left install bin and right install bin carry respectively left solar battery panel and right solar battery panel and be respectively arranged with left battery component and right battery component; wherein, described left install bin and right install bin is each includes supporting frame, be provided with in each support frame as described above body can in the longitudinal direction slide in opposition and from slide two roller compression skewbacks: front wheel compress skewback and rear roller compression skewback, described front wheel compresses in skewback and rear roller compression skewback can be provided with front rotary shaft and rear rotating shaft respectively rotationally, to be connected with described front wheel and rear roller respectively, wherein, the side that described front wheel compression skewback and rear roller compression skewback face one another is respectively arranged with top compression elasticity element and separates described front wheel compression skewback and rear roller compression skewback top to be pressed, described front wheel compresses side away from each other that skewback and rear roller compress skewback and is respectively arranged with skewback inclined-plane and engages with the voussoir inclined-plane on the voussoir protuberance by the front and back position place with sliding wedge parts and when the square upward sliding away from described column, described front wheel compressed skewback and rear roller in described sliding wedge portion and compress skewback top and be pressed against closely, thus described front wheel and rear roller are entered in described rail groove and is close to described column, right sprocket wheel in the rear rotating shaft of described right install bin is walked motor power by right chain with the right lateral be positioned on rear side of described rear rotating shaft and is connected, left sprocket wheel on the front rotary shaft of described left install bin is walked motor power by left chain with the left lateral be positioned on front side of described front rotary shaft and is connected, thus, when described front wheel and rear roller to enter in described rail groove and are close to described column, described right chain and described left chain are tensioned, described sliding wedge portion comprises described voussoir protuberance, the slip joint portion be fixedly connected with described voussoir protuberance is to contact with the inner slide of support frame as described above body, and the screw thread pushing part be fixedly installed between described slip joint portion, the middle part of described screw thread pushing part be provided with promote screw with the lead-screw threaded engagement driven by clamping motor, described clamping motor is fixedly mounted on the fixing and mounting bracket in support frame as described above body, wherein, the end that described front rotary shaft and rear rotating shaft are stretched out away from described column be provided with lock shaft junction surface in order at described sliding wedge parts described front rotary shaft and rear rotating shaft top be pressed against closely put in place after to engage with the sticking department be fixedly installed on described fixing and mounting bracket thus realize the spin locking to described front rotary shaft and rear rotating shaft, described column top is fixedly installed the limiting plate limiting described front wheel and rear roller upward position, is provided with buffer stopper in two rail grooves of described limiting plate lower end, be provided with anti-vibration heel block between described clamping motor and described fixing and mounting bracket, described anti-vibration heel block is in order to reduce the vibrations produced when described clamping motor runs.
Valuably, wherein, when described front wheel and rear roller to enter in described rail groove and are close to described column thus can move up and down, described lock shaft junction surface not yet engages with described sticking department, when described sliding wedge portion continues to slide on the direction away from described column, described lock shaft junction surface engages with described sticking department thus realizes locking.
By the present invention, owing to using the drive unit that can move up and down to be moved up and down by solar battery panel, be therefore able to first suppose column before being in place by battery panel, it reduce erection of equipment difficulty.After column hypothesis is fixed, battery panel assembly is being moved into place by moving up and down, and is utilizing locking device to lock.And when needing to dismantle, can first battery panel assembly be fallen, and then column is removed, thus avoid the destroying infection risk to battery panel assembly and convenient operation.
In the present invention, by arranging the flexible member two roller supportings can opened and the voussoir that two rollers can be pressed against toward each other, two rollers unclamping and compression for described rib can be realized power, and, by using chain drive, while permission rotating shaft is carried out being shifted, power transmission can be carried out when reaching condition, namely not affecting the one-movement-freedom-degree of rotating shaft when power transmission is carried out in guarantee; And by being symmetrical arranged about two install bins, the effect of constitutional balance can be played and the travel driving motor arranged by diagonal angle, two rollers can be made all to have power input, and avoid the power transmission of long distance.Whole device structure is comparatively simple, stabilized structure and cost is lower, reliable.
Accompanying drawing explanation
Fig. 1 is the overall structure schematic diagram of the electric power generator of solar battery panel of the present invention.
Fig. 2 is the detailed results schematic diagram at left install bin in Fig. 1 and right install bin place.
Embodiment
Below by the specific embodiment in conjunction with Fig. 1-2, the present invention is described in detail.
According to the usage chain transmission of embodiment and the solar electric power feedway of low vibrations, comprise with the column 10 of former and later two rail grooves 120, the front wheel 13 that can roll in described two rail grooves 120 respectively and rear roller 14 and be connected with described front wheel 13 and rear roller 14 and be arranged on left install bin 22 and the right install bin 12 of described column 10 both sides, left install bin 22 and right install bin 12 carry respectively left solar battery panel 24 and right solar battery panel 26 and be respectively arranged with left battery component 23 and right battery component 25; wherein, described left install bin 22 and right install bin 12 is each includes supporting frame 9, be provided with in each support frame as described above body 9 can in the longitudinal direction slide in opposition and from slide two roller compression skewbacks: front wheel compress skewback 4 and rear roller compression skewback 5, described front wheel compresses in skewback 4 and rear roller compression skewback 5 can be provided with front rotary shaft 6 and rear rotating shaft 7 respectively rotationally, to be connected with described front wheel 13 and rear roller 14 respectively, wherein, the side that described front wheel compression skewback 4 and rear roller compression skewback 5 face one another is respectively arranged with top compression elasticity element 41,51 push up pressure separately so that described front wheel compression skewback 4 and rear roller are compressed skewback 5, described front wheel compresses side away from each other that skewback 4 and rear roller compress skewback 5 and is respectively arranged with skewback inclined-plane and engages with the voussoir inclined-plane on the voussoir protuberance 81 by the front and back position place with sliding wedge parts 8 and when the square upward sliding away from described column 10, described front wheel compressed skewback 4 and rear roller in described sliding wedge portion 8 and compress skewback 5 and push up and be pressed against closely, thus described front wheel 13 and rear roller 14 are entered in described rail groove 120 and is close to described column 10, right sprocket wheel 78 in the rear rotating shaft 7 of described right install bin 12 is connected with right movable motor 11 power be positioned on rear side of described rear rotating shaft 7 by right chain 71, left sprocket wheel 780 on the front rotary shaft 6 of described left install bin 22 is connected with left movable motor 110 power be positioned on front side of described front rotary shaft 7 by left chain 710, thus, when described front wheel 13 and rear roller 14 to enter in described rail groove 120 and are close to described column 10, described right chain 71 and described left chain 710 are tensioned, described sliding wedge portion 8 comprises described voussoir protuberance 81, the slip joint portion be fixedly connected with described voussoir protuberance 81 is to contact with the inner slide of support frame as described above body 9, and the screw thread pushing part 82 be fixedly installed between described slip joint portion, the middle part of described screw thread pushing part 82 be provided with promote screw with lead-screw 15 threaded engagement driven by clamping motor 16, described clamping motor 16 is fixedly mounted on the fixing and mounting bracket 67 in support frame as described above body 9, wherein, the end that described front rotary shaft 6 and rear rotating shaft 7 are stretched out away from described column 10 be provided with lock shaft junction surface 70 in order at described sliding wedge parts 8 described front rotary shaft 6 and rear rotating shaft 7 top be pressed against closely put in place after to engage with the sticking department 701 be fixedly installed on described fixing and mounting bracket 67 thus realize the spin locking to described front rotary shaft 6 and rear rotating shaft 7, described column 10 top is fixedly installed the limiting plate 101 limiting described front wheel 13 and rear roller 14 upward position, is provided with buffer stopper 102 in two rail grooves 120 of described limiting plate 101 lower end, be provided with anti-vibration heel block 670 between described clamping motor 16 and described fixing and mounting bracket 67, described anti-vibration heel block 670 is in order to reduce the vibrations produced when described clamping motor 16 runs.
Alternatively, wherein, when described front wheel 13 and rear roller 14 to enter in described rail groove 120 and are close to described column 10 thus can move up and down, described lock shaft junction surface 70 not yet engages with described sticking department 701, when described sliding wedge portion 8 continues to slide on the direction away from described column 10, described lock shaft junction surface 70 engages with described sticking department 701 thus realizes locking
By arranging the flexible member two roller supportings can opened and the voussoir that two rollers can be pressed against toward each other, two rollers unclamping and compression for described rib can be realized power, and, by using chain drive, while permission rotating shaft is carried out being shifted, power transmission can be carried out when reaching condition, namely not affecting the one-movement-freedom-degree of rotating shaft when power transmission is carried out in guarantee; And by being symmetrical arranged about two install bins, the effect of constitutional balance can be played and the travel driving motor arranged by diagonal angle, two rollers can be made all to have power input, and avoid the power transmission of long distance.
By with upper type, those skilled in the art can make various change according to mode of operation within the scope of the invention.
Claims (2)
1. a usage chain transmission and the solar electric power feedway of low vibrations, comprise the column (10) with former and later two rail grooves (120), the front wheel (13) that can roll in described two rail grooves (120) respectively and rear roller (14) and be connected with described front wheel (13) and rear roller (14) and be arranged on left install bin (22) and the right install bin (12) of described column (10) both sides, left install bin (22) and right install bin (12) carry respectively left solar battery panel (24) and right solar battery panel (26) and be respectively arranged with left battery component (23) and right battery component (25), wherein, described left install bin (22) and right install bin (12) is each includes supporting frame (9), be provided with in each support frame as described above body (9) can in the longitudinal direction slide in opposition and from slide two roller compression skewbacks: front wheel compress skewback (4) and rear roller compression skewback (5), described front wheel compresses in skewback (4) and rear roller compression skewback (5) can be provided with front rotary shaft (6) and rear rotating shaft (7) respectively rotationally, to be connected with described front wheel (13) and rear roller (14) respectively, wherein, the side that described front wheel compression skewback (4) and rear roller compression skewback (5) face one another is respectively arranged with top compression elasticity element (41,51) so that described front wheel compression skewback (4) and rear roller are compressed skewback (5) top pressure separately, described front wheel compress side away from each other that skewback (4) and rear roller compress skewback (5) be respectively arranged with skewback inclined-plane to be engaged by the voussoir inclined-plane on the voussoir protuberance (81) at the front and back position place with sliding wedge parts (8) described sliding wedge portion (8) at the square upward sliding away from described column (10) time described front wheel compressed skewback (4) and rear roller and compresses skewback (5) and push up and be pressed against closely, thus described front wheel (13) and rear roller (14) are entered in described rail groove (120) and is close to described column (10), right sprocket wheel (78) in the rear rotating shaft (7) of described right install bin (12) is connected with right movable motor (11) power being positioned at described rear rotating shaft (7) rear side by right chain (71), left sprocket wheel (780) on the front rotary shaft (6) of described left install bin (22) is connected with left movable motor (110) power being positioned at described front rotary shaft (7) front side by left chain (710), thus, when described front wheel (13) and rear roller (14) to enter in described rail groove (120) and are close to described column (10), described right chain (71) and described left chain (710) are tensioned, described sliding wedge portion (8) comprises described voussoir protuberance (81), the slip joint portion be fixedly connected with described voussoir protuberance (81) is to contact with the inner slide of support frame as described above body (9), and the screw thread pushing part (82) be fixedly installed between described slip joint portion, the middle part of described screw thread pushing part (82) be provided with promote screw with lead-screw (15) threaded engagement driven by clamping motor (16), described clamping motor (16) is fixedly mounted on the fixing and mounting bracket (67) in support frame as described above body (9), wherein, the end that described front rotary shaft (6) and rear rotating shaft (7) are stretched out away from described column (10) be provided with lock shaft junction surface (70) in order to described sliding wedge parts (8) described front rotary shaft (6) and rear rotating shaft (7) top be pressed against closely put in place after to engage with the sticking department (701) be fixedly installed on described fixing and mounting bracket (67) thus realize the spin locking to described front rotary shaft (6) and rear rotating shaft (7), described column (10) top is fixedly installed the limiting plate (101) limiting described front wheel (13) and rear roller (14) upward position, is provided with buffer stopper (102) in two rail grooves (120) of described limiting plate (101) lower end, be provided with anti-vibration heel block (670) between described clamping motor (16) and described fixing and mounting bracket (67), described anti-vibration heel block (670) is in order to reduce the vibrations produced when described clamping motor (16) runs.
2. a kind of usage chain transmission as claimed in claim 1 and the solar electric power feedway of low vibrations, wherein, when described front wheel (13) and rear roller (14) to enter in described rail groove (120) and are close to described column (10) thus can move up and down, described lock shaft junction surface (70) not yet engages with described sticking department (701), when described sliding wedge portion (8) continues to slide on the direction away from described column (10), described lock shaft junction surface (70) engages with described sticking department (701) thus realizes locking.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510517361.8A CN105162402A (en) | 2015-08-21 | 2015-08-21 | Chain-drive low-vibration solar power supply device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510517361.8A CN105162402A (en) | 2015-08-21 | 2015-08-21 | Chain-drive low-vibration solar power supply device |
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CN105162402A true CN105162402A (en) | 2015-12-16 |
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CN201510517361.8A Withdrawn CN105162402A (en) | 2015-08-21 | 2015-08-21 | Chain-drive low-vibration solar power supply device |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2012253174A (en) * | 2011-06-02 | 2012-12-20 | Toshiba Plant Systems & Services Corp | Solar cell foundation block, solar cell array, and solar cell system |
JP2013258264A (en) * | 2012-06-12 | 2013-12-26 | Sharp Corp | Solar cell module, installation method of solar cell module, and solar cell power generation system |
CN104453254A (en) * | 2014-12-23 | 2015-03-25 | 义乌市绿美生物科技有限公司 | Building material lifting device using limiting sensor |
CN104639017A (en) * | 2013-11-14 | 2015-05-20 | 江苏天宇光伏科技有限公司 | Solar cell panel support bracket |
CN104832870A (en) * | 2015-05-15 | 2015-08-12 | 何一鸣 | Natural heat dissipation solar LED street lamp device and use method thereof |
-
2015
- 2015-08-21 CN CN201510517361.8A patent/CN105162402A/en not_active Withdrawn
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2012253174A (en) * | 2011-06-02 | 2012-12-20 | Toshiba Plant Systems & Services Corp | Solar cell foundation block, solar cell array, and solar cell system |
JP2013258264A (en) * | 2012-06-12 | 2013-12-26 | Sharp Corp | Solar cell module, installation method of solar cell module, and solar cell power generation system |
CN104639017A (en) * | 2013-11-14 | 2015-05-20 | 江苏天宇光伏科技有限公司 | Solar cell panel support bracket |
CN104453254A (en) * | 2014-12-23 | 2015-03-25 | 义乌市绿美生物科技有限公司 | Building material lifting device using limiting sensor |
CN104832870A (en) * | 2015-05-15 | 2015-08-12 | 何一鸣 | Natural heat dissipation solar LED street lamp device and use method thereof |
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Application publication date: 20151216 |