CN212174349U - Lifting support for high-altitude power pipeline construction - Google Patents
Lifting support for high-altitude power pipeline construction Download PDFInfo
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- CN212174349U CN212174349U CN202020841511.7U CN202020841511U CN212174349U CN 212174349 U CN212174349 U CN 212174349U CN 202020841511 U CN202020841511 U CN 202020841511U CN 212174349 U CN212174349 U CN 212174349U
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Abstract
The utility model discloses a high altitude electric power pipeline construction is with promoting support, include hoisting frame body, lifting rope, accept board, locating piece and connecting plate, placed first motor on the hoisting frame body, and install first axis of rotation on the first motor to first axis of rotation and hoisting frame body interconnect, lifting rope and winding wheel adhesive connection, and lifting rope and diversion wheel are laminated each other to the diversion wheel is installed on first axis of rotation, accept the board upper end and install the lifting rope, and accept the board and install the upper surface at the backup pad to backup pad and hoisting frame body laminate each other. This high altitude electric power pipeline construction is with promoting support adopts the rotation that rotates the screw rod, realizes changing the position of hoisting frame body, realizes changing the height of hoisting frame body promptly, realizes driving the rotation to both ends winding wheel through the belt pulley to the realization is twined the lifting rope, realizes promoting the pipeline body.
Description
Technical Field
The utility model relates to an electric power construction technical field specifically is a high altitude electric power pipeline construction is with promoting support.
Background
Common power pipeline is the PVC material, compares traditional cement pipe and steel pipe and has characteristics such as material light, with low costs and the transportation of being convenient for, consequently by extensive application, through the corrosion-resistant material of surface coating inside and outside power pipeline, can prolong power pipeline's life.
However, problems also exist in the process of using the power pipeline, the power pipeline needs to be lifted to a proper height when high-altitude construction is carried out, the traditional lifting mode is manual lifting, time and labor are wasted in the process, and the phenomenon of toppling is easy to occur when the height needing to be lifted is high, so that safety accidents are easy to happen.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high altitude electric power pipeline construction is with promoting support to it wastes time and energy to provide artifical the lift in solving above-mentioned background art, easily appears empting the problem of phenomenon.
In order to achieve the above object, the utility model provides a following technical scheme: a lifting support for high-altitude power pipeline construction comprises a lifting frame body, a lifting rope, a bearing plate, a positioning block and a connecting plate, wherein a first motor is placed on the lifting frame body, a first rotating shaft is installed on the first motor and connected with the lifting frame body, a winding wheel is installed on the first rotating shaft, the lifting rope is connected with the winding wheel in an adhesive mode, the lifting rope is attached to the turning wheel, the turning wheel is installed on the first rotating shaft, a belt pulley is installed on the first rotating shaft, the lifting rope is installed at the upper end of the bearing plate, the bearing plate is installed on the upper surface of a supporting plate, the supporting plate is attached to the lifting frame body, a fixing block is installed on the supporting plate, the positioning block is installed on the outer surface of the fixing block, the positioning block is attached to the inner surface of the pipeline body, and the pipeline body is placed on the supporting plate, the connecting plate is installed at the lower surface of hoisting frame body, and installs the second axis of rotation on the connecting plate to install the rotor plate in the second axis of rotation, install the mobile device simultaneously on the rotor plate, mobile device and base interconnect, and install telescopic sleeve on the base, and telescopic sleeve installs at hoisting frame body lower extreme.
Preferably, the winding wheels are symmetrically distributed about the center of the lifting frame body, and the winding wheels and the lifting frame body form a rotating mechanism through a first rotating shaft.
Preferably, the positioning blocks are distributed in an equal angle mode relative to the centers of the fixing blocks, and the outer surfaces of the positioning blocks are arranged to be fog surfaces.
Preferably, the rotating plate and the connecting plate form a rotating mechanism through the second rotating shaft, and the rotating plate is configured to be a long strip-shaped plate-shaped structure.
Preferably, the moving device comprises a rotating screw and a second motor, the rotating screw is mounted on the moving device and mounted on the base, the second motor is placed on the base, and the second motor is connected with the rotating screw.
Preferably, the rotating screw is connected with the moving device through a threaded hole formed in the moving device, and the moving device is in sliding connection with the base through a groove formed in the base.
Compared with the prior art, the beneficial effects of the utility model are that: according to the lifting support for high-altitude power pipeline construction, the position of the lifting frame body is changed by rotating the rotating screw rod, namely, the height of the lifting frame body is changed, and the winding wheels at two ends are driven to rotate through the belt pulley, so that a lifting rope is wound, and the pipeline body is lifted;
1. the linkage structure is realized by the driving of the belt pulley, the hoisting rope is convenient to wind, the winding speeds of the two ends are equal in the winding process, and the consistency of motion is kept;
2. through the rotation of rotating the screw rod, the realization changes mobile device's position to realize that the rotor plate rotates around the second axis of rotation, realize changing the position of hoisting frame body promptly, highly adjusting when being convenient for place the pipeline body.
Drawings
Fig. 1 is a schematic view of a main sectional view of a poppet body of the present invention;
FIG. 2 is a schematic view of a rear view cross section of the belt pulley of the present invention;
FIG. 3 is a schematic view of the top-view cross-sectional structure of the hoisting frame body of the present invention;
fig. 4 is a schematic side view of the telescopic sleeve of the present invention.
In the figure: 1. a hoisting frame body; 2. a first motor; 3. a first rotating shaft; 4. a winding wheel; 5. a lift cord; 6. a turning wheel; 7. a belt pulley; 8. a bearing plate; 9. a support plate; 10. a fixed block; 11. positioning blocks; 12. a pipe body; 13. a connecting plate; 14. a second rotating shaft; 15. a rotating plate; 16. a mobile device; 1601. rotating the screw; 1602. a second motor; 17. a base; 18. a telescopic sleeve.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: a lifting support for high-altitude power pipeline construction comprises a lifting support body 1, a first motor 2, a first rotating shaft 3, a winding wheel 4, a lifting rope 5, a turning wheel 6, a belt pulley 7, a bearing plate 8, a supporting plate 9, a fixing block 10, a positioning block 11, a pipeline body 12, a connecting plate 13, a second rotating shaft 14, a rotating plate 15, a moving device 16, a rotating screw 1601, a second motor 1602, a base 17 and a telescopic sleeve 18, wherein the first motor 2 is placed on the lifting support body 1, the first rotating shaft 3 is installed on the first motor 2, the first rotating shaft 3 and the lifting support body 1 are connected with each other, the winding wheel 4 is installed on the first rotating shaft 3, the lifting rope 5 is connected with the winding wheel 4 in an adhesive mode, the lifting rope 5 is attached to the first rotating wheel 6, the turning wheel 6 is installed on the first rotating shaft 3, the belt pulley 7 is installed on the first rotating shaft 3, bear 8 upper ends of board and install lifting rope 5, and bear 8 the board and install the upper surface at backup pad 9, and backup pad 9 and hoisting frame body 1 laminate each other, install fixed block 10 in the backup pad 9 simultaneously, locating piece 11 is installed at the surface of fixed block 10, and the internal surface of locating piece 11 and pipeline body 12 laminates each other, and pipeline body 12 places in backup pad 9, connecting plate 13 is installed at the lower surface of hoisting frame body 1, and install second axis of rotation 14 on the connecting plate 13, and install rotor plate 15 on the second axis of rotation 14, install mobile device 16 on the rotor plate 15 simultaneously, mobile device 16 and base 17 interconnect, and install telescopic sleeve 18 on base 17, and telescopic sleeve 18 installs at hoisting frame body 1 lower extreme.
In this example, the winding wheels 4 are symmetrically distributed about the center of the lifting frame body 1, the winding wheels 4 and the lifting frame body 1 form a rotating mechanism through the first rotating shaft 3, so that the lifting ropes 5 can be wound simultaneously from two ends, the winding wheels 4 and the lifting frame body 1 form the rotating mechanism through the first rotating shaft 3, and the rotation of the winding wheels 4 is not influenced while the winding wheels 4 are supported;
the positioning blocks 11 are distributed in an equal angle mode relative to the center of the fixing block 10, the outer surfaces of the positioning blocks 11 are arranged to be fog surfaces, so that the pipeline body 12 can be conveniently fixed through the positioning blocks 11, and the outer surfaces of the positioning blocks 11 are arranged to be fog surfaces, so that the friction force between the positioning blocks 11 and the pipeline body 12 can be conveniently increased;
the rotating plate 15 and the connecting plate 13 form a rotating mechanism through the second rotating shaft 14, the rotating plate 15 is of a strip-shaped plate-shaped structure, so that the rotating plate 15 can freely rotate when stressed, and the rotating plate 15 is of a strip-shaped plate-shaped structure, so that the position of the lifting frame body 1 can be conveniently changed;
the mobile device 16 comprises a rotary screw 1601 and a second motor 1602, the rotary screw 1601 is mounted on the mobile device 16, the rotary screw 1601 is mounted on the base 17, the second motor 1602 is placed on the base 17, and the second motor 1602 and the rotary screw 1601 are connected with each other, so that the position of the mobile device 16 can be changed when the rotary screw 1601 rotates;
the rotary screw 1601 is connected with the mobile device 16 through a threaded hole formed in the mobile device 16, the mobile device 16 is in sliding connection with the base 17 through a groove formed in the base 17, so that the mobile device 16 can move left and right conveniently through rotation of the rotary screw 1601, and the mobile device 16 is in sliding connection with the base 17 through a groove formed in the base 17, so that the mobile device 16 can move freely when being stressed.
The working principle is as follows: turning the adjusting screw installed on the telescopic sleeve 18 in fig. 4, moving the adjusting screw in a direction away from the telescopic sleeve 18, connecting the second motor 1602 and the external power source in fig. 1, with the operation of the second motor 1602, the rotating screw 1601 connected to the output end of the second motor 1602 starts to rotate, with the rotation of the rotating screw 1601, the moving device 16 connected to the rotating screw 1601 starts to move in a direction approaching each other, with the movement of the moving device 16, the rotating plate 15 starts to rotate around the second rotating shaft 14, i.e. the lifting frame body 1 starts to move upwards, with the movement of the lifting frame body 1, the telescopic sleeve 18 starts to move upwards, after adjusting to a proper position, stopping the operation of the second motor 1602, rotating the adjusting screw installed on the telescopic sleeve 18 in fig. 4, and moving the adjusting screw in a direction approaching the telescopic sleeve 18, namely, the position of the telescopic sleeve 18 is fixed, namely, the position of the lifting frame body 1 is fixed, and at this time, the pipeline body 12 in fig. 1 can be easily placed on the fixed block 10;
when the pipe body 12 needs to be lifted, the first motor 2 in fig. 2 is connected with an external power source, the first motor 2 starts to work, because the output end of the first motor 2 is connected with the first rotating shaft 3, the first rotating shaft 3 starts to rotate, the winding wheel 4 in fig. 1 also starts to rotate along with the rotation of the first rotating shaft 3, the winding of the lifting rope 5 is realized along with the rotation of the winding wheel 4, the position of the pipe body 12 is changed by winding the lifting rope 5, the pipe body 12 is held after the pipe body is lifted to a proper position, then the first motor 2 in fig. 3 is closed, and the supporting plate 9 starts to move downwards under the action of the gravity of the supporting plate 9, so that the pipe body is not attached to the positioning block 11 any more.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a high altitude electric power pipeline construction is with promoting support, includes hoisting frame body (1), lifting rope (5), accepts board (8), locating piece (11) and connecting plate (13), its characterized in that: the lifting frame is characterized in that a first motor (2) is placed on the lifting frame body (1), a first rotating shaft (3) is installed on the first motor (2), the first rotating shaft (3) is connected with the lifting frame body (1) in an interconnecting mode, meanwhile, a winding wheel (4) is installed on the first rotating shaft (3), the lifting rope (5) is connected with the winding wheel (4) in an adhering mode, the lifting rope (5) is attached to a turning wheel (6), the turning wheel (6) is installed on the first rotating shaft (3), a belt pulley (7) is installed on the first rotating shaft (3), the lifting rope (5) is installed at the upper end of the bearing plate (8), the bearing plate (8) is installed on the upper surface of the supporting plate (9), the supporting plate (9) is attached to the lifting frame body (1), meanwhile, a fixing block (10) is installed on the supporting plate (9), and the positioning block (11) is installed on the outer surface of the fixing block (10), and the internal surface of locating piece (11) and pipeline body (12) is laminated each other to place pipeline body (12) on backup pad (9), the lower surface at hoisting frame body (1) is installed in connecting plate (13), and installs second axis of rotation (14) on connecting plate (13), and install rotor plate (15) on second axis of rotation (14), install mobile device (16) on rotor plate (15) simultaneously, mobile device (16) and base (17) interconnect, and install telescopic sleeve (18) on base (17) to telescopic sleeve (18) are installed at hoisting frame body (1) lower extreme.
2. The lifting support for high-altitude power pipeline construction according to claim 1, characterized in that: the winding wheels (4) are symmetrically distributed about the center of the lifting frame body (1), and the winding wheels (4) and the lifting frame body (1) form a rotating mechanism through the first rotating shaft (3).
3. The lifting support for high-altitude power pipeline construction according to claim 1, characterized in that: the positioning blocks (11) are distributed in an equal angle mode relative to the center of the fixing block (10), and the outer surfaces of the positioning blocks (11) are arranged to be fog surfaces.
4. The lifting support for high-altitude power pipeline construction according to claim 1, characterized in that: the rotating plate (15) and the connecting plate (13) form a rotating mechanism through a second rotating shaft (14), and the rotating plate (15) is of a long strip-shaped plate structure.
5. The lifting support for high-altitude power pipeline construction according to claim 1, characterized in that: the mobile device (16) comprises a rotating screw (1601) and a second motor (1602), the rotating screw (1601) is installed on the mobile device (16), the rotating screw (1601) is installed on a base (17), the second motor (1602) is placed on the base (17), and the second motor (1602) and the rotating screw (1601) are connected with each other.
6. The lifting support for high-altitude power pipeline construction as claimed in claim 5, wherein: the rotary screw rod (1601) is connected with the mobile device (16) through a threaded hole formed in the mobile device (16), and the mobile device (16) is in sliding connection with the base (17) through a groove formed in the base (17).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020841511.7U CN212174349U (en) | 2020-05-19 | 2020-05-19 | Lifting support for high-altitude power pipeline construction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020841511.7U CN212174349U (en) | 2020-05-19 | 2020-05-19 | Lifting support for high-altitude power pipeline construction |
Publications (1)
Publication Number | Publication Date |
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CN212174349U true CN212174349U (en) | 2020-12-18 |
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CN202020841511.7U Active CN212174349U (en) | 2020-05-19 | 2020-05-19 | Lifting support for high-altitude power pipeline construction |
Country Status (1)
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CN (1) | CN212174349U (en) |
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2020
- 2020-05-19 CN CN202020841511.7U patent/CN212174349U/en active Active
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Effective date of registration: 20230410 Address after: 001133, Building 11, Yujing Nanyuan Project, No. 58, Furong Road, High-tech Zone, Hengyang City, Hunan Province, 421000 Patentee after: Hengyang Xiangneng Electric Power Engineering Co.,Ltd. Address before: Xinshikeng Town, Shaoxing, Zhejiang Province Patentee before: Xinchang yinbang Power Technology Co.,Ltd. |
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TR01 | Transfer of patent right |