CN-224225097-U - Wind power generation blade transfer trolley
Abstract
Wind power generation blade transfer car (buggy), including a transfer board, no. two transfer boards are connected to a transfer board one side, no. two transfer boards slide on a transfer board, a transfer board opposite side is connected the pull rod, a transfer board bottom is connected a plurality of universal wheels, universal wheel evenly distributed is in a transfer board bottom, a plurality of universal wheels are connected to No. two transfer board bottoms, universal wheel evenly distributed is in No. two transfer board bottoms, a transfer board upper portion has two No. one baffles, no. one baffle symmetry sets up, no. two transfer board upper portions have two No. two baffles, reduce the recess area that appears when outwards pulling No. two transfer boards, guaranteed wind power generation blade surface's integrality, make overall structure more reasonable, avoid dropping from the device at transfer in-process wind power generation blade, convenient to use, stable in structure.
Inventors
- HOU ZHANWEI
- LEI YAPING
Assignees
- 天津明阳风能叶片技术有限公司
Dates
- Publication Date
- 20260512
- Application Date
- 20250520
Claims (4)
- 1. The utility model provides a wind power generation blade transfer car (buggy), its characterized in that includes transfer board (01), no. two transfer board (02), no. one transfer board (01) one side is connected No. two and is transported board (02), no. two transfer board (02) are slided on No. one transfer board (01), no. one transfer board (01) opposite side is connected pull rod (03), no. one transfer board (01) bottom is connected a plurality of universal wheels (04), universal wheels (04) evenly distributed are in No. one transfer board (01) bottom, no. two transfer board (02) bottom are connected a plurality of universal wheels (04), universal wheels (04) evenly distributed are in No. two transfer board (02) bottoms, no. one transfer board (01) upper portion has two No. one baffle (05), no. two baffle (06) are transported board (06) upper portion, no. one transfer board (01) upper portion has auxiliary groove (13), auxiliary groove (13) lateral wall has a plurality of one location spout (17), no. one location spout (17) evenly distributed is on auxiliary groove (13) lateral wall evenly distributed.
- 2. The wind power generation blade transfer trolley of claim 1, wherein the inner side of the first positioning sliding groove (17) is connected with a first spring (16), the first spring (16) slides in the first positioning sliding groove (17), one end of the first spring (16) is connected with a third supporting plate (09), the outer side of the third supporting plate (09) is connected with the first positioning sliding groove (17), and the third supporting plate (09) slides in the first positioning sliding groove (17).
- 3. The wind turbine blade transfer car (buggy) of claim 2, wherein the auxiliary groove (13) is connected to No. three layer board (09) bottom, no. three layer board (09) slides on auxiliary groove (13), no. two layer board (08) are had on auxiliary groove (13) upper portion, no. two layer board (08) lower part has fixed protrusion (12), no. three spout (14) are had to auxiliary groove (13) bottom, no. two layer board (02) outside has No. one layer board (07), no. three spout (14) are connected to No. one layer board (07) outside, no. one layer board (07) slides in No. three spout (14).
- 4. The wind turbine blade transfer car(s) of claim 3, wherein the upper portion of the first supporting plate (07) is (are) provided with a first sliding groove (10), the inner side of the first sliding groove (10) is connected with a second supporting plate (08), the second supporting plate (08) slides in the first sliding groove (10), the bottom of the first sliding groove (10) is (are) provided with a second sliding groove (11), the inner side of the second sliding groove (11) is connected with a fixing protrusion (12), the fixing protrusion (12) slides in the second sliding groove (11), the side wall of the first supporting plate (07) is provided with a plurality of positioning slots (15), the positioning slots (15) are uniformly distributed on the side wall of the first supporting plate (07), the positioning slots (15) are symmetrically arranged, the side wall of the universal wheel (04) is provided with a plurality of second positioning sliding grooves (20), the inner side of the second positioning sliding groove (20) is uniformly distributed on the side wall of the universal wheel (04), the inner side of the second positioning sliding groove (20) is connected with a second spring (19), the second spring (19) slides in the second positioning sliding groove (20), one end of the second positioning sliding groove (20) is connected with the positioning block (18), the other end of the second positioning block (18) is connected with the positioning block (18) and the positioning block (18) is connected with the positioning block (18), the positioning insert block (18) slides in the positioning slot (15).
Description
Wind power generation blade transfer trolley Technical Field The utility model relates to the field of wind power generation, in particular to a wind power generation blade transfer trolley. Background The prior patent (bulletin number: CN 205022628U) proposes a movable transfer trolley for wind driven generator blades, which comprises a transfer trolley base, wherein the transfer trolley base is provided with a trolley body frame and universal wheels arranged on the lower bottom surface of the trolley body frame, the trolley body frame is provided with a bracket, the bracket is connected with the trolley body frame through a plurality of rotating shaft structures, the device often falls off in the transfer process of the wind driven generator blades, troubles are caused to the transfer of the wind driven generator blades, and the structure needs to be improved. Disclosure of Invention Aiming at the defects in the prior art, the utility model provides the wind power generation blade transfer trolley which reduces the area of the groove when the second transfer plate is pulled outwards, ensures the integrity of the surface of the wind power generation blade, ensures the overall structure to be more reasonable, avoids the wind power generation blade from falling off the device in the transfer process, and has the advantages of convenient use, simple operation and stable structure. The utility model aims at realizing the following technical scheme: The utility model provides a wind power generation blade transfer car (buggy), includes a transfer board, no. two transfer boards are connected to a transfer board one side, no. two transfer boards slide on a transfer board, a transfer board opposite side connects the pull rod, a transfer board bottom connection a plurality of universal wheels, universal wheel evenly distributed is in a transfer board bottom, a plurality of universal wheels are connected to No. two transfer board bottoms, universal wheel evenly distributed is in No. two transfer board bottoms, a transfer board upper portion has two No. one baffles, a baffle symmetry sets up, no. two transfer board upper portions have two No. two baffles, no. two baffle symmetry sets up, no. one transfer board upper portion has auxiliary groove, auxiliary groove lateral wall has a plurality of positioning chute, a positioning chute evenly distributed is on auxiliary groove lateral wall, auxiliary groove symmetry sets up. The inner side of the first positioning sliding groove is connected with two first springs, the first springs slide in the first positioning sliding groove, one end of each first spring is connected with a third supporting plate, the outer side of each third supporting plate is connected with the first positioning sliding groove, and the third supporting plates slide in the first positioning sliding groove. The bottom of the third supporting plate is connected with the auxiliary groove, the third supporting plate slides on the auxiliary groove, the second supporting plate is arranged on the upper portion of the auxiliary groove, the fixing protrusion is arranged on the lower portion of the second supporting plate, the third sliding groove is arranged on the bottom of the auxiliary groove, the first supporting plate is arranged on the outer side of the second transferring plate, the third sliding groove is connected on the outer side of the first supporting plate, and the first supporting plate slides in the third sliding groove. The upper part of the first supporting plate is provided with a first sliding groove, the inner side of the first sliding groove is connected with a second supporting plate, the second supporting plate slides in the first sliding groove, the bottom of the first sliding groove is provided with a second sliding groove, the inner side of the second sliding groove is connected with a fixing protrusion, the fixing protrusion slides in the second sliding groove, the side wall of the first supporting plate is provided with a plurality of positioning slots which are uniformly distributed on the side wall of the first supporting plate, the positioning slots are symmetrically arranged, the side wall of the universal wheel is provided with a plurality of second positioning sliding grooves, the second positioning sliding grooves are uniformly distributed on the side wall of the universal wheel, the inner side of the second positioning sliding groove is connected with a second spring, one end of the second positioning sliding groove is connected with a positioning plug block, one end of the positioning plug block is connected with the second positioning sliding groove, the other end of the positioning plug block is connected with the positioning slot, and the positioning plug block slides in the positioning slot. Advantageous effects According to the utility model, the third supporting plate is sequentially ejected under the action of the first spring according to the distance that the se