CN215924044U - Pay-off rack for electric power engineering - Google Patents

Abstract

This application relates to electric power construction's technical field, in particular to pay off rack for electric power engineering. The wire winding machine comprises a support frame and a wire barrel, wherein the support frame comprises a first support frame and a second support frame and further comprises a telescopic shaft rod, one section of the telescopic shaft rod is erected on the first support frame, the other end of the telescopic shaft rod is erected on the second support frame, the wire barrel comprises a first wire barrel and a second wire barrel, the wire barrel is sleeved on the telescopic shaft rod, one end of the second wire barrel is sleeved in the first wire barrel, a plurality of first screw holes are formed in the first wire barrel, a plurality of second screw holes corresponding to the first screw holes are formed in the second wire barrel, and limiting bolts are arranged in the first screw holes and the second screw holes in a penetrating mode. This application has the effect that the adjustment line section of thick bamboo held the power line capacity.

Description

Pay-off rack for electric power engineering

Technical Field

This application relates to electric power construction's technical field, in particular to pay off rack for electric power engineering.

Background

Along with the development of modern society, people's demand for electric power increases day by day, this need accelerate the construction of electric power engineering, because the time of electric power construction is very urgent, it is very important to the preparation work that will use equipment among the electric power construction process, and the power line that wherein uses among the electric power construction is the biggest huge quantity, in order to prepare the power line in advance, and protect the power line and avoid receiving the moisture or the dirt on ground, deposit the power line that will use among the electric power engineering through setting up the power line pay off rack. The pay-off rack commonly used in construction is that a rack directly penetrates through a bobbin with a fixed length, and a rotating structure is used for workers to pull a power line.

With respect to the related art in the above, the inventor believes that the pay-off rack in the related art cannot adjust the capacity of the power line held by the wire drum.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the pay-off rack cannot adjust the capacity of a power line contained in a line drum, the pay-off rack for the power engineering is provided.

The application provides a pay off rack for electric power engineering adopts following technical scheme: the utility model provides a pay off rack for electric power engineering includes support frame, line section of thick bamboo and flexible axostylus axostyle, the support frame includes first support frame and second support frame, flexible axostylus axostyle is erect on first support frame for one section, and the other end is erect on the second support frame, line barrel casing is established on flexible axostylus axostyle, line section of thick bamboo includes first line section of thick bamboo and second line section of thick bamboo, a second line section of thick bamboo pot head is established in first line section of thick bamboo, first screw has been seted up on the first line section of thick bamboo, set up a plurality of second screws that correspond with first screw on the second line section of thick bamboo, spacing bolt is worn to be equipped with by first screw and second screw.

Through adopting above-mentioned technical scheme, through wearing to establish first screw and the second screw on the different positions with spacing bolt, can change the length of second line section of thick bamboo in first line section of thick bamboo, and then change the holistic length of line section of thick bamboo, when line section of thick bamboo length increases, the quantity that the line section of thick bamboo held the power line can increase, otherwise, when line section of thick bamboo length reduces, the quantity that the line section of thick bamboo held the power line can reduce to the adjustment that the line section of thick bamboo held the power line capacity has been realized.

Optionally, the limit bolts are arranged in multiple groups.

Through adopting above-mentioned technical scheme, wear to establish in corresponding first screw and second screw through with the spacing bolt of multiunit, can increase the stability that first bobbin and second bobbin are connected.

Optionally, a first fixed block is arranged on the first support frame, a first rotating groove is formed in the first fixed block, a second fixed block is arranged on the second support frame, a second rotating groove is formed in the second fixed block, one end of the telescopic shaft rod is rotatably arranged in the first rotating groove, and the other end of the telescopic shaft rod is rotatably arranged in the second rotating groove.

Through adopting above-mentioned technical scheme, through seting up first rotation groove and second and rotate the groove, when constructor pulled the power line, flexible axostylus axostyle can rotate on the support frame steadily, has increased the stability of device.

Optionally, the first support frame includes a first support rod, a first limit hole is formed in the first support rod, a first protruding block is arranged at one end of the first fixing block close to the first support plate, and the first protruding block is arranged in the first limit hole; the second support frame comprises a second support rod, a second limiting hole is formed in the second support rod, a second protruding block is arranged at one end, close to the second support plate, of the second fixing block, and the second protruding block is arranged in the second limiting hole.

Through adopting above-mentioned technical scheme, through fixing first fixed block at the different height of first bracing piece, fix the second fixed block at the different height of second bracing piece, can conveniently change the height of telescopic shaft pole and line section of thick bamboo to make things convenient for constructor to draw and get the power line.

Optionally, one end of the first supporting rod, which is close to the ground, is fixedly connected with a first bottom plate, and a first moving assembly is arranged on the first bottom plate.

Through adopting above-mentioned technical scheme, through the position of the adjustable first support frame of first removal subassembly to change the distance between first support frame and the second support frame, and then the change of cooperation telescopic shaft pole and line section of thick bamboo length accomplishes holding to required power line.

Optionally, the first moving assembly includes a first universal wheel and a first hinge, and the first universal wheel is rotatably connected to the first hinge; a first wheel sliding groove is formed in the first base plate, and the first hinge piece is fixedly connected with the inner side wall of the first wheel sliding groove.

Through adopting above-mentioned technical scheme, can remove required position with first support frame through first universal wheel, can rotate first universal wheel to first round spout in through first articulated elements to first support frame can place subaerially steadily, makes things convenient for pulling of follow-up power line to get.

Optionally, one end of the second supporting rod, which is close to the ground, is fixedly connected with a second bottom plate, and a second moving assembly is arranged on the second bottom plate.

Through adopting above-mentioned technical scheme, through the position of the adjustable second support frame of second removal subassembly, also can change the distance between first support frame and the second support frame to remove the pay off rack to required position, likewise, also can cooperate the change of flexible axostylus axostyle and line section of thick bamboo length, accomplish holding to required power line.

Optionally, the second moving assembly includes a second universal wheel and a second hinge, and the second universal wheel is rotatably connected to the second hinge; and a second wheel sliding groove is formed in the second bottom plate, and the second hinge part is fixedly connected with the inner side wall of the second wheel sliding groove.

Through adopting above-mentioned technical scheme, can remove the required position with the second support frame through the second universal wheel, can rotate the second universal wheel to the second wheel spout in through the second articulated elements to the second support frame can be placed subaerial steadily, makes things convenient for pulling of follow-up power line to get.

Optionally, the first bump and the second bump are provided with multiple groups.

Through adopting above-mentioned technical scheme, through setting up the first lug of multiunit for first fixed block joint more steadily is on first bracing piece, through setting up multiunit second lug, makes the joint more steadily of second fixed block on the second bracing piece, has increased and has drawn the stability of getting the power line in-process.

The beneficial effect that this application realized: through changing the relative position of adjusting first line section of thick bamboo and second line section of thick bamboo to change the whole length of line section of thick bamboo, and then realized holding the adjustment of power line capacity to the line section of thick bamboo.

Drawings

Fig. 1 is an overall structure schematic diagram of a pay-off rack for power engineering in the application.

Description of reference numerals: 1. a support frame; 11. a first support frame; 111. a first support bar; 1111. a first limit hole; 112. a first base plate; 1121. a first wheel chute; 12. a second support frame; 121. a second support bar; 1211. a second limiting hole; 122. a second base plate; 1221. a second wheel chute; 2. a bobbin; 21. a first bobbin; 211. a first screw hole; 22. a second bobbin; 221. a second screw hole; 3. a telescopic shaft lever; 4. a limit bolt; 5. a first fixed block; 51. a first rotating groove; 52. a first bump; 6. a second fixed block; 61. a second rotating groove; 62. a second bump; 7. a first moving assembly; 71. a first universal wheel; 72. a first hinge member; 8. a second moving assembly; 81. a second universal wheel; 82. a second hinge member.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

This embodiment of applying for example discloses a pay off rack for electric power engineering, refer to fig. 1, this pay off rack for electric power engineering includes support frame 1, line section of thick bamboo 2 and telescopic shaft 3, wherein, support frame 1 includes first support frame 11 and second support frame 12, telescopic shaft 3 rotates and passes line section of thick bamboo 2, telescopic shaft 3's one end is erect on first support frame 11, the other end erects on second support frame 12, line section of thick bamboo 2 holds the required power line of construction, during the construction, constructor rotates line section of thick bamboo 2 alright get required power line.

Referring to fig. 1, the bobbin 2 includes a first bobbin 21 and a second bobbin 22, the diameter of the first bobbin 21 is greater than that of the second bobbin 22, the second bobbin 22 is coaxial with the first bobbin 21, the first bobbin 21 and the second bobbin 22 can both contain power lines, one end of the second bobbin 22 is movably disposed in the first bobbin 21, the distance of the second bobbin 22 in the first bobbin 21 is adjusted, the length of the bobbin 2 can be adjusted, and then the capacity of the bobbin 2 containing the power lines can be adjusted, so as to meet the amount of power lines required by actual use.

Referring to fig. 1, the first bobbin 21 is provided with first screw holes 211 which are uniformly arranged, the second bobbin 22 is provided with second screw holes 221 which are uniformly arranged, the diameter of the first screw hole 211 is the same as that of the second screw hole 221, the first screw hole 211 and the second screw hole 221 are provided with two rows of limiting bolts 4, and the number of the first row of limiting bolts 4 passing through the second screw hole 221 is three. According to the size of the required power line quantity, the position of the second bobbin 22 in the first bobbin 21 is flexibly adjusted, and the second bobbin is fixed by the limiting bolt 4.

Referring to fig. 1, first support frame 11 includes first bracing piece 111, install first fixed block 5 on the first bracing piece 111, first rotation groove 51 has been seted up on the first fixed block 5, second support frame 12 includes second bracing piece 121, install second fixed block 6 on the second bracing piece 121, second rotation groove 61 has been seted up on the second fixed block 6, the one end of telescopic shaft pole 3 is rotated and is arranged in first rotation groove 51, the other end rotates and arranges in second rotation groove 61, when constructor draws the power line, rotate one end and rotate at first rotation inslot 51 internal rotation, the other end rotates at second rotation inslot 61 internal rotation.

Referring to fig. 1, the first supporting rod 111 is provided with first limiting holes 1111 that are uniformly arranged, one end surface of the first fixing block 5 near the first supporting rod 111 is provided with a cylindrical first protrusion 52, the first protrusion 52 and the first fixing block 5 are integrally arranged, and the first protrusion 52 abuts against the inner side wall of the first limiting hole 1111; the second supporting plate is provided with a second limiting hole 1211 horizontally corresponding to the first limiting hole 1111, one end surface of the second fixing block 6 close to the second supporting plate is provided with a cylindrical second bump 62, the second bump 62 and the second fixing block 6 are integrally formed, the inner side wall of the second limiting hole 1211 is connected with the second bump 62 in a low mode, the position of the first fixing block 5 on the first supporting rod 111 and the position of the second fixing block 6 on the second supporting rod 121 are adjusted, and therefore the height of the telescopic shaft rod 3 can be adjusted, and the height of the bobbin 2 meets the construction requirements. In the present embodiment, the number of the first bumps 52 and the second bumps 62 is set to two groups.

Referring to fig. 1, a first bottom plate 112 is welded to one end of the first support rod 111 close to the ground, a first moving assembly 7 is mounted on the first bottom plate 112, and the first moving assembly 7 is used for moving the first support base; the first moving assembly 7 comprises a first universal wheel 71 and a first hinge joint 72, the first universal wheel 71 is rotatably connected with the first hinge joint 72, a first pulley groove is formed in one end, close to the ground, of the first base plate 112, and the first hinge joint 72 is welded on the side wall of the first pulley groove; a second bottom plate 122 is welded at one end of the second support rod 121 close to the ground, a second moving assembly 8 is mounted on the second bottom plate 122, and the second moving assembly 8 is used for moving the second support seat; the second moving assembly 8 comprises a second universal wheel 81 and a second hinge 82, the second universal wheel 81 is rotatably connected with the second hinge 82, a second pulley groove is formed in one end, close to the ground, of the second bottom plate 122, and the second hinge 82 is welded to the side wall of the second pulley groove; in the present embodiment, the first hinge 72 and the second hinge 82 each use a hinge shaft. The first support frame 11 can be moved to a construction site through the first universal wheel 71, and the second support frame 12 can be moved to the construction site through the second universal wheel 81, so that the function of moving operation of the pay-off rack is realized; the first universal wheel 71 can be placed in the first pulley groove by rotating the first hinge 72, so that the first base plate 112 can be stably placed on the ground, and the second universal wheel 81 can be placed in the second pulley groove by rotating the second hinge 82, so that the second base plate 122 can be stably placed on the ground, thereby increasing the stability of the constructor in the wire taking process.

Referring to fig. 1, the telescopic shaft 3 has a structure with thick ends and thin middle, and the diameters of the two ends of the telescopic shaft 3 are the same, so that the stability of the telescopic shaft 3 in the rotating process is ensured. When more power lines need to be prepared, the first support frame 11 is moved through the first universal wheel 71, the distance between the first support frame 11 and the second support frame 12 is increased, and then the lengths of the telescopic shaft rod 3 and the bobbin 2 are stretched; when the space of the field is limited and the occupied space of the device needs to be reduced, the first support frame 11 is moved through the first universal wheels 71, so that the distance between the first support frame 11 and the second support frame 12 is reduced. Similarly, the distance between the first support frame 11 and the second support frame 12 can also be adjusted by the second universal wheel 81.

The implementation principle is as follows: the first support frame 11 can be moved to a desired position by the first universal wheel 71, and the first universal wheel 71 can be rotated into the first wheel sliding groove 1121 by the first hinge 72, so that the first support frame 11 can be stably placed on the ground; the second support frame 12 can be moved to a desired position by the second universal wheel 81, and the second universal wheel 81 can be rotated into the second wheel chute 1221 by the second hinge 82, so that the second support frame 12 can be stably placed on the ground; the first fixing block 5 is embedded into the first support frame 11, the second fixing block 6 is embedded into the second support frame 12, one end of the telescopic shaft rod 3 is placed on the first rotating groove 51, the other end of the telescopic shaft rod is placed on the second rotating groove 61, the lengths of the telescopic shaft rod 3 and the bobbin 2 are extended, and meanwhile, the distance between the first support frame 11 and the second support frame is increased, so that the bobbin 2 has a larger space for containing more power lines; reduce the length of telescopic shaft 3 and line section of thick bamboo 2, reduce the distance between first support frame 11 and the second support frame simultaneously, can make the device take up an area of the space and diminish, satisfy the use under the little place condition.

The above embodiments are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the above embodiments, so: all equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a pay off rack for electric power engineering, includes support frame (1) and line section of thick bamboo (2), support frame (1) includes first support frame (11) and second support frame (12), its characterized in that: still include flexible axostylus axostyle (3), flexible axostylus axostyle (3) one section is erect on first support frame (11), and the other end is erect on second support frame (12), line section of thick bamboo (2) are including first line section of thick bamboo (21) and second line section of thick bamboo (22), line section of thick bamboo (2) cover is established on flexible axostylus axostyle (3), a pot head of second line section of thick bamboo (22) is established in first line section of thick bamboo (21), a plurality of first screw (211) have been seted up on first line section of thick bamboo (21), set up a plurality of second screw (221) that correspond with first screw (211) on second line section of thick bamboo (22), spacing bolt (4) are worn to be equipped with in first screw (211) and second screw (221).

2. The pay-off rack for power engineering of claim 1, wherein: the limiting bolts (4) are arranged into a plurality of groups.

3. The pay-off rack for power engineering of claim 1, wherein: be provided with first fixed block (5) on first support frame (11), first rotating groove (51) have been seted up on first fixed block (5), be provided with second fixed block (6) on second support frame (12), second rotating groove (61) have been seted up on second fixed block (6), the one end of flexible axostylus axostyle (3) is rotated and is arranged in first rotating groove (51), and the other end rotates to being in second rotating groove (61).

4. The pay-off rack for power engineering of claim 3, wherein: the first support frame (11) comprises a first support rod (111), a first limiting hole (1111) is formed in the first support rod (111), a first bump (52) is arranged at one end, close to the first support plate, of the first fixing block (5), and the first bump (52) is arranged in the first limiting hole (1111); the second support frame (12) comprises a second support rod (121), a second limiting hole (1211) is formed in the second support rod (121), a second protruding block (62) is arranged at one end, close to the second support plate, of the second fixing block (6), and the second protruding block (62) is arranged in the second limiting hole (1211).

5. The pay-off rack for power engineering of claim 4, wherein: one end, close to the ground, of the first supporting rod (111) is fixedly connected with a first bottom plate (112), and a first moving assembly (7) is arranged on the first bottom plate (112).

6. The pay-off rack for power engineering of claim 5, wherein: the first moving assembly (7) comprises a first universal wheel (71) and a first hinge piece (72), and the first universal wheel (71) is rotatably connected with the first hinge piece (72); a first wheel sliding groove (1121) is formed in the first bottom plate (112), and the first hinge piece (72) is fixedly connected with the inner side wall of the first wheel sliding groove (1121).

7. The pay-off rack for power engineering of claim 4, wherein: one end of the second supporting rod (121) close to the ground is fixedly connected with a second bottom plate (122), and a second moving assembly (8) is arranged on the second bottom plate (122).

8. The pay-off rack for power engineering of claim 7, wherein: the second moving assembly (8) comprises a second universal wheel (81) and a second hinge piece (82), and the second universal wheel (81) is rotatably connected with the second hinge piece (82); a second wheel sliding groove (1221) is formed in the second bottom plate (122), and the second hinge piece (82) is fixedly connected with the inner side wall of the second wheel sliding groove (1221).

9. The pay-off rack for power engineering of claim 4, wherein: the first lug (52) and the second lug (62) are arranged in multiple groups.

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