CN221220697U - Telescopic balance type lifting wind power blade transportation equipment - Google Patents
Telescopic balance type lifting wind power blade transportation equipment Download PDFInfo
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- CN221220697U CN221220697U CN202322824906.2U CN202322824906U CN221220697U CN 221220697 U CN221220697 U CN 221220697U CN 202322824906 U CN202322824906 U CN 202322824906U CN 221220697 U CN221220697 U CN 221220697U
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Abstract
The utility model provides telescopic balance type lifting wind power blade transportation equipment which comprises a vehicle body, wherein a rotating seat is arranged at the top of the vehicle body, a gear ring is arranged on the rotating seat, a rotating shaft is further arranged at the top of the vehicle body, a gear meshed with the gear ring is arranged at the top of the rotating shaft, a first rotating motor is arranged at the top of the gear, a rotating table is arranged at the top of the rotating seat, and a sliding mechanism is arranged on the rotating table. According to the telescopic balanced lifting type wind power blade transportation equipment, the center of equipment can be regulated by telescopic operation of the equipment, and the running of the equipment can be more stable by fine regulation of the equipment.
Description
Technical Field
The utility model belongs to the technical field of wind power blade transportation equipment, and particularly relates to telescopic balance type lifting wind power blade transportation equipment.
Background
When the large wind power blade is transported on the mountain, the wind power blade is often required to be pitching and rotating in the process of going up the mountain due to the rugged and narrow road and the steep and curved slope, the gravity center of the wind power blade is relatively large in the horizontal direction when the wind power blade is pitching, in order to balance the fluctuation, the fluctuation can be generally regulated by regulating the size of the weight and the distance from the supporting center, the length and the weight of the large wind power blade with different specifications on the market are more and more different, the balance is simply realized by regulating the weight, the requirement is more and more difficult to meet, and the regulation can only be realized by an estimation mode when the weight is regulated, so that the regulation result is often greatly error, the overall safety performance is reduced, and great economic loss is brought when the wind power blade is serious, and therefore, the wind power blade is necessary to be improved.
For example, the utility model of publication number discloses a flexible balanced type lifting wind-powered electricity generation blade transportation equipment, and the fixed four weight sensor that is provided with in this patent's technical scheme of rotary seat bottom, four weight sensor all the same and symmetric distribution to rotary seat center of rotation be provided with overcoat, endotheca and drive arrangement on the rotary seat, the overcoat is fixed to be set up in the rotary seat both sides the endotheca slides and sets up in the overcoat, and its butt is on weight sensor's detection surface, endotheca and drive arrangement transmission are connected, be provided with the controller on the automobile body, can find after a period of time because the use of the comparatively big pneumatic cylinder of equipment only can let the whole focus of equipment have a rough regulation and can not carry out accurate regulation to the whole focus of equipment, in order to influence holistic result of use and availability factor.
Disclosure of utility model
In view of the defects in the prior art, the utility model provides the telescopic balanced lifting type wind power blade transportation equipment, which not only can be used for telescopic and adjusting the center of equipment, but also can be used for finely adjusting the equipment so as to ensure that the operation of the equipment is more stable.
In order to solve the technical problems, the utility model adopts the following technical scheme: the utility model provides a flexible balanced type lift-type wind-powered electricity generation blade transportation equipment, includes the automobile body, and the top of automobile body is provided with the roating seat, is provided with the ring gear on the roating seat, and the top of automobile body still is provided with the axis of rotation, and the top of axis of rotation is provided with the gear with ring gear engaged with, and the top of gear is vertical to be provided with first rotating electrical machines, and the top of roating seat is provided with the revolving stage. The rotary table is provided with a sliding mechanism.
As a further improvement of the utility model, the sliding mechanism comprises fixed blocks which are respectively arranged at the left side and the right side of the top of the rotary table, sliding bodies are arranged at the inner side ends of the two fixed blocks, the top of the rotary table is also provided with a sliding body, the left side and the right side of the sliding body are respectively provided with sliding grooves matched with the sliding bodies, the bottom of the sliding body is provided with a guide block, the left side and the right side of the guide block are provided with round holes, the middle part of the guide block is provided with a threaded hole, the left side and the right side of the front side end of the rotary table are respectively provided with guide shafts which respectively penetrate through the two round holes, the middle part of the front side end of the rotary table is transversely provided with a second rotary motor, the end part of the output shaft end of the second rotary motor is provided with a screw rod which penetrates through the threaded hole, the second rotary motor is connected with the screw rod through a coupling, and the front end of the top of the sliding body is provided with a lifting device.
As a further improvement of the utility model, the lifting device comprises fixed bodies which are respectively arranged at the left side and the right side of the top of the sliding body, the two fixed bodies are provided with slide ways, the left end and the right end of the two fixed bodies are provided with round grooves, threaded rods which penetrate through the round grooves are arranged in the slide ways, the top of the front side of the sliding body is also transversely provided with two third rotating motors, the end parts of the output shaft ends of the two third rotating motors are connected with the threaded rods, and the tops of the two slide ways are provided with lifting modules.
As a further improvement of the utility model, the lifting module comprises sliding blocks respectively arranged at the tops of the two sliding ways, the tops of the two sliding blocks are respectively provided with a first U-shaped frame, the middle parts of the two first U-shaped frames are respectively provided with an air cylinder, the two first U-shaped frames are provided with rotating shafts penetrating through the bottoms of the air cylinders, the tops of the two air cylinders are respectively hinged with a second U-shaped frame, the middle parts of the two fixing bodies at the tops of the sliding bodies are provided with supporting plates, the tops of the supporting plates are provided with connecting plates hinged with the supporting plates, and the tops of the connecting plates and the tops of the second U-shaped frames are jointly provided with a bearing disc.
As a further improvement of the utility model, the rear end of the sliding block is provided with a balance weight, and the bottom of the vehicle body is provided with wheels.
Compared with the prior art, the utility model has the following beneficial effects:
First, the top of automobile body is provided with the roating seat, is provided with the ring gear on the roating seat, meshes with the ring gear and is provided with the gear, starts rotating electrical machines one, and rotating electrical machines's rotation drives the rotation of roating seat, and the rotation of roating seat drives the revolving stage and rotates, and then drives wind-powered electricity generation blade and rotate.
Secondly, the top of revolving stage is provided with the slider, and the bottom of slider is provided with the guide block, and the front end left and right sides of revolving stage is provided with the guiding axle, and the front end middle part of revolving stage is provided with the second rotating electrical machines, and the tip of the output axle head of second rotating electrical machines is provided with the lead screw that passes the screw hole, starts the second rotatory electricity, and the rotation of second rotating electrical machines drives the lead screw and rotates to promote the slider to the removal of fore-and-aft direction, the effect of guiding axle lies in guiding the slider.
Third, the top of slider is provided with the fixed body, and the inside of fixed body is provided with the slide, and the top slip of slide is provided with the slider, is provided with the threaded rod in the slide, and the tip of threaded rod is provided with the third rotating electrical machines, thereby the rotation of third rotating electrical machines drives the threaded rod and rotates and promote the slider and carry out the back-and-forth movement when starting the third rotating electrical machines to the focus of the symmetry heavy dish that can be miniature is adjusted, and can change the contained angle between receiving dish and the slider.
Fourth, the end of the rear end of the sliding body is provided with a balance weight for balancing the wind power blade.
Drawings
The utility model will be described in further detail with reference to the drawings and the detailed description.
FIG. 1 is a schematic diagram of the structure of the present utility model;
FIG. 2 is a schematic diagram of a top view of the present utility model;
FIG. 3 is a schematic view of a partial view of the present utility model;
fig. 4 is a schematic structural view of a lifting device according to the present utility model.
In the figure: 101. a vehicle body; 102. a rotating seat; 103. a gear ring; 104. a rotating shaft; 105. a gear; 106. a first rotating electric machine; 107. a rotary table; 108. a fixed block; 109. a slide body; 110. a chute; 111. a guide block; 112. a guide shaft; 113. a screw rod; 114. a second rotating electric machine; 201. a fixed body; 202. a slideway; 203. a threaded rod; 204. a third rotary electric machine; 205. a slide block; 206. a first U-shaped frame; 207. a rotation shaft; 208. a cylinder; 209. a second U-shaped frame; 210. a receiving tray; 211. a support plate; 212. a connecting plate; 213. a sliding body; 214. and a balance weight.
Detailed Description
For a better understanding of the present utility model, the following examples are set forth to further illustrate the utility model, but are not to be construed as limiting the utility model. In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present utility model. It will be apparent, however, to one skilled in the art that the utility model may be practiced without one or more of these details.
As shown in fig. 1, a telescopic balance type lifting wind power blade transporting device comprises a vehicle body 101, a rotating seat 102 is arranged at the top of the vehicle body 101, a gear ring 103 is arranged on the rotating seat 102, a rotating shaft 104 is further arranged at the top of the vehicle body 101, a gear 105 meshed with the gear ring 103 is arranged at the top of the rotating shaft 207, a first rotating motor 106 is arranged at the top of the gear 105, and a rotating table 107 is arranged at the top of the rotating seat 102. The rotary table 107 is provided with a slide mechanism.
As shown in fig. 1 and 2, the sliding mechanism includes fixed blocks 108 respectively disposed on left and right sides of a top of a rotary table 107, sliding bodies 109 are disposed at inner ends of the two fixed blocks 108, a sliding body 213 is further disposed on the top of the rotary table 107, sliding grooves 110 matched with the sliding bodies 109 are disposed on left and right sides of the sliding body 213, guide blocks 111 are disposed at bottoms of the sliding bodies 213, round holes are disposed on left and right sides of the guide blocks 111, threaded holes are disposed in middle portions of the guide blocks 111, guide shafts 112 respectively penetrating through the two round holes are disposed on left and right sides of a front end of the rotary table 107, a second rotating motor 114 is disposed in middle portions of the front end of the rotary table 107, a screw 113 penetrating through the threaded holes is disposed at an end portion of an output shaft end of the second rotating motor 114, the second rotating motor 114 is connected with the screw 113 through a coupling, and a lifting device is disposed at a front end of the top of the sliding body 213.
As shown in fig. 1 and 3, the lifting device includes fixing bodies 201 respectively disposed at left and right sides of a top of a sliding body 213, sliding ways 202 are disposed on the two fixing bodies 201, round grooves are disposed at left and right ends of the two fixing bodies 201, a threaded rod 203 passing through the round grooves is disposed in the sliding ways 202, two third rotating motors 204 are further disposed at a front top of the sliding body 213, ends of output shaft ends of the two third rotating motors 204 are connected with the threaded rod 203, and lifting modules are disposed at tops of the two sliding ways 202.
As shown in fig. 1 and 4, the lifting module comprises sliding blocks 205 respectively arranged at the top of two sliding ways 202, first U-shaped frames 206 are respectively arranged at the top of the two sliding blocks 205, air cylinders 208 are respectively arranged at the middle parts of the two first U-shaped frames 206, rotating shafts 207 penetrating through the bottoms of the air cylinders 208 are respectively arranged on the two first U-shaped frames 206, second U-shaped frames 209 are respectively hinged at the top of the two air cylinders 208, a supporting plate 211 is arranged at the middle part of two fixing bodies 201 at the top of the sliding body 213, a connecting plate 212 hinged with the supporting plate 211 is arranged at the top of the supporting plate 211, and a receiving disc 210 is jointly arranged at the top of the connecting plate 212 and the top of the second U-shaped frames 209.
As shown in fig. 2 and 3, the slider has a weight 214 at the rear end, and wheels are provided at the bottom of the vehicle body 101.
The user can see that the top of automobile body 101 is provided with rotary seat 102 at first, be provided with ring gear 103 on the rotary seat 102, meshing with ring gear 103 is provided with gear 105, start rotating electrical machines one, rotating electrical machines's rotation drives rotary seat 102's rotation, rotary seat 102's rotation drives revolving stage 107 and rotates, and then drive wind-powered electricity generation blade and rotate, the top of revolving stage 107 is provided with slider 213, the bottom of slider 213 is provided with guide block 111, the front end left and right sides of revolving stage 107 is provided with guiding axle 112, the front end middle part of revolving stage 107 is provided with second rotating electrical machines 114, the tip of second rotating electrical machines 114's output shaft end is provided with screw 113 that passes the screw hole, start the second rotating electrical machines, the rotation of second rotating electrical machines 114 drives screw 113 and rotates, thereby promote the removal of slider 213 forward and backward direction, the effect of guiding axle 112 is in leading to slider 213, the top of slider 213 is provided with solid 201, the inside of solid 201 is provided with slide 202, the top slip of slide 202 is provided with slider 205, be provided with threaded rod 203 in the slide 202, the tip of 203 is provided with third rotating electrical machines 204, the tip of 203 is provided with the screw-powered electricity generation motor 204, the tip of third rotating electrical machines 204 is provided with the screw-powered electricity generation motor 204 that passes through the screw hole's 113, and the rotation of screw 213 is rotated in order to change the counter-balance the tip of the rotation of the rotatable blade, thereby the tip of the rotatable compact disc is rotated in order to rotate the tip of the back-plane 213, and the counter-balance the rotation of the rotatable compact disc is rotated.
Finally, it is noted that the above-mentioned embodiments are merely for illustrating the technical solution of the present utility model, and that other modifications and equivalents thereof by those skilled in the art should be included in the scope of the claims of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.
Claims (7)
1. The utility model provides a flexible balanced type lifting type wind-powered electricity generation blade transportation equipment, includes automobile body (101), its characterized in that: the top of automobile body (101) is provided with roating seat (102), is provided with ring gear (103) on roating seat (102), and the top of automobile body (101) still is provided with axis of rotation (104), and the top of axis of rotation (207) is provided with gear (105) with ring gear (103) engaged with, and the top of gear (105) is vertically provided with first rotating electrical machines (106), and the top of roating seat (102) is provided with revolving stage (107), is provided with slide mechanism on revolving stage (107).
2. The telescopic balanced lifting wind turbine blade transport equipment as claimed in claim 1, wherein: the sliding mechanism comprises fixed blocks (108) which are respectively arranged at the left side and the right side of the top of the rotating table (107), sliding bodies (109) are arranged at the inner side ends of the two fixed blocks (108), sliding bodies (213) are further arranged at the top of the rotating table (107), sliding grooves (110) which are matched with the sliding bodies (109) are respectively arranged at the left side and the right side of the sliding bodies (213), guide blocks (111) are arranged at the bottom of the sliding bodies (213), round holes are formed in the left side and the right side of the guide blocks (111), threaded holes are formed in the middle of the guide blocks (111), guide shafts (112) which respectively penetrate through the two round holes are respectively arranged at the left side and the right side of the front side end of the rotating table (107), a second rotating motor (114) is transversely arranged at the middle of the front side end of the rotating table (107), a lead screw (113) which penetrates through the threaded holes is arranged at the end of the output shaft end of the second rotating motor (114), and a lifting device is arranged at the front end of the top of the sliding body (213).
3. The telescopic balanced lifting wind turbine blade transport equipment as claimed in claim 2, wherein: the lifting device comprises fixing bodies (201) which are respectively arranged at the left side and the right side of the top of a sliding body (213), sliding ways (202) are arranged on the two fixing bodies (201), round grooves are formed in the left end and the right end of the two fixing bodies (201), threaded rods (203) penetrating through the round grooves are arranged in the sliding ways (202), two third rotating motors (204) are further transversely arranged at the top of the front side of the sliding body (213), the end parts of the output shaft ends of the two third rotating motors (204) are connected with the threaded rods (203), and lifting modules are arranged at the tops of the two sliding ways (202).
4. A telescopic balanced lifting wind blade transport apparatus as claimed in claim 3, wherein: the lifting module comprises sliding blocks (205) which are respectively arranged at the tops of two sliding ways (202), first U-shaped frames (206) are respectively arranged at the tops of the two sliding blocks (205), air cylinders (208) are respectively arranged in the middle of the two first U-shaped frames (206), rotating shafts (207) penetrating through the bottoms of the air cylinders (208) are arranged on the two first U-shaped frames (206), second U-shaped frames (209) are respectively hinged to the tops of the two air cylinders (208), supporting plates (211) are arranged in the middle of two fixing bodies (201) at the tops of the sliding bodies (213), connecting plates (212) hinged to the supporting plates (211) are arranged at the tops of the supporting plates (211), and a receiving disc (210) is jointly arranged at the tops of the connecting plates (212) and the tops of the second U-shaped frames (209).
5. The telescopic balanced lifting type wind power blade transportation equipment according to claim 4, wherein: the rear end of the sliding body (213) is provided with a balance weight (214).
6. The telescopic balanced lifting type wind power blade transportation equipment according to claim 5, wherein: wheels are arranged at the bottom of the vehicle body (101).
7. The telescopic balanced lifting type wind power blade transportation equipment according to claim 6, wherein: the second rotating motor (114) is connected with the screw rod (113) through a coupling.
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221220697U true CN221220697U (en) | 2024-06-25 |
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