CN111634746A

CN111634746A - Anti-shake formula pay off rack that electric power construction used

Info

Publication number: CN111634746A
Application number: CN202010464881.8A
Authority: CN
Inventors: 高焕根
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-28
Filing date: 2020-05-28
Publication date: 2020-09-08

Abstract

The invention relates to the technical field of electric power construction, and discloses an anti-shaking pay-off rack for electric power construction. According to the invention, the supporting mechanism supports the wire roller, so that the installation, taking and placing work of the wire roller by workers can be facilitated, meanwhile, the sleeving of the wire roller by the stop bandage at the inner side of the supporting mechanism can be facilitated, the paying-off progress of the wire roller can be conveniently controlled by the workers, and the situation of large-amplitude shaking of a cable caused by rigid pulling in the paying-off process can be reduced through the combination of the pull-up sliding seat and the pull-down sliding seat, so that the operation intensity of the workers is further reduced.

Description

Anti-shake formula pay off rack that electric power construction used

Technical Field

The invention relates to the technical field of electric power construction, in particular to an anti-shaking pay-off rack for electric power construction.

Background

Pay off rack can divide into according to power transmission as the device commonly used of electric power construction: initiative pay off rack and passive pay off rack can divide into according to the style mode: vertical pay off rack and horizontal pay off rack can divide into according to the axle center mode: the device comprises a shaft type pay-off rack and a shaftless pay-off rack, wherein the vertical pay-off rack is one of the pay-off devices which are commonly used.

But there are some shortcomings about the pay off rack that electric power construction used in the existing market, and traditional pay off rack structure is comparatively single, and at the unwrapping wire in-process, the condition that the cable shakes by a wide margin very easily appears increases staff's operating strength, and at the unwrapping wire in-process, and is inconvenient to the control of line roller. Accordingly, those skilled in the art have provided an anti-shake pay-off stand for electric power construction to solve the above-mentioned problems in the background art.

Disclosure of Invention

The invention aims to provide an anti-shaking pay-off stand for power construction, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an anti-shake pay-off stand for electric power construction comprises a support chassis, universal wheels are rotatably connected below the support chassis, a push handle is fixed at one side position above the supporting underframe, a supporting mechanism is fixed at one side of the push handle above the supporting underframe, the inner side of the positioning clamping sleeve in the supporting mechanism is clamped with a wire roller which is clamped with the positioning clamping sleeve through a bearing seat, and both sides of the wire roller are provided with rotary handrails, the front side of the wire roller is fixed with a stop clamping groove, the upper part of the supporting underframe at the other side position is symmetrically fixed with a positioning main rod, the top end of the positioning main rod is embedded with a clamping support rod, the top end of the clamping support rod is fixed with a positioning base, limiting slide rods are symmetrically fixed on the inner side of the positioning base, and a pull-down sliding seat and a pull-up sliding seat are sequentially clamped on the outer side of each limiting slide rod from front to back;

the supporting mechanism comprises a positioning support fixed at the position above the supporting underframe, positioning clamping sleeves are symmetrically fixed at the positions, located at the middle part, of the top end of the positioning support, foot bars are rotatably connected to the positions, located at the bottom end, of the inner side of the positioning support, and a stop bandage is connected to the upper portions of the foot bars.

As a still further scheme of the invention: the pull-down slide comprises a limiting clamping sleeve, a positioning slide hole is symmetrically formed in the front surface of the limiting clamping sleeve in a penetrating mode, a positioning slide groove is connected above the limiting clamping sleeve, an arc-shaped slide groove is rotatably connected to one side of the positioning slide groove, and the positioning slide groove and the arc-shaped slide groove are both elastically connected through a pressure reducing spring and the limiting clamping sleeve.

As a still further scheme of the invention: the number of the positioning slide holes is two, the inner diameters of the positioning slide holes are matched with the outer diameters of the limiting slide rods, and the positioning slide holes correspond to the limiting slide rods one to one.

As a still further scheme of the invention: the structure of the pull-down sliding seat is the same as that of the pull-up sliding seat, and the pull-down sliding seat and the pull-up sliding seat are arranged symmetrically in the forward direction and the reverse direction relative to the horizontal direction of the limiting sliding rod.

As a still further scheme of the invention: the internal diameter of location mobile jib and the external diameter looks adaptation of block branch, and the front surface of location mobile jib and block branch all imbeds and has seted up positioning hole, and positioning hole's quantity is no less than 6, and positioning hole's inboard supporting sleeve has the location inserted bar.

As a still further scheme of the invention: the stop bandage is made of a woven belt material, and the wire roller is sleeved with the stop bandage through the stop clamping groove.

As a still further scheme of the invention: the inside of locating support is located the pedal pole and is fixed with spacing pin rod directly over, the length of spacing pin rod is not less than 10cm, the pedal pole passes through spacing pin rod and locating support block slip.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the supporting mechanism supports the wire roller, so that the installation, taking and placing work of the wire roller by workers can be facilitated, meanwhile, the sleeving of the wire roller by the stop bandage at the inner side of the supporting mechanism can facilitate the workers to control the paying-off progress of the wire roller, the situation that the wire roller is difficult to control due to inertia in the rotating process is avoided, and through the combination of the pull-up sliding seat and the pull-down sliding seat, the wire roller can horizontally move and slide along the paying-off direction of a cable in the paying-off process, the hard friction force generated by the cable in the paying-off process is reduced, and meanwhile, the situation that the cable greatly shakes due to hard pulling in the paying-off process can be reduced, so that.

Drawings

FIG. 1 is a schematic structural view of an anti-shake pay-off stand for power construction;

FIG. 2 is a schematic structural diagram of a supporting mechanism in an anti-shaking pay-off rack for power construction;

fig. 3 is a schematic structural view of a pull-down slide in an anti-shake pay-off rack for power construction.

In the figure: 1. a support chassis; 2. a universal wheel; 3. positioning the bracket; 4. a pushing handle; 5. positioning the clamping sleeve; 6. a bearing seat; 7. a wire roller; 8. a stop slot; 9. rotating the armrest; 10. a stop bandage; 11. a foot lever; 12. positioning the main rod; 13. clamping the supporting rod; 14. a positioning base; 15. a limiting slide bar; 16. pulling the sliding seat down; 161. a limiting clamping sleeve; 162. positioning a slide hole; 163. a relief spring; 164. positioning the chute; 165. an arc-shaped chute; 17. pulling up the sliding seat; 18. and a limit pin rod.

Detailed Description

Referring to fig. 1 to 3, in the embodiment of the invention, an anti-shake pay-off stand for electric power construction comprises a support chassis 1, universal wheels 2 are rotatably connected below the support chassis 1, a push handle 4 is fixed at a position on one side above the support chassis 1, a support mechanism is fixed at a position on one side of the push handle 4 above the support chassis 1, the support mechanism comprises a positioning bracket 3 fixed at a position above the support chassis 1, positioning clamping sleeves 5 are symmetrically fixed at positions on the middle of the top of the positioning bracket 3, a foot bar 11 is rotatably connected at a position on the bottom of the inner side of the positioning bracket 3, a stop bandage 10 is connected above the foot bar 11, the stop bandage 10 is made of a woven band material, a wire roller 7 is sleeved with the stop bandage 10 through a stop clamping groove 8, a limit pin 18 is fixed at a position right above the foot bar 11 on the inner side of the positioning bracket 3, the length of the limit pin rod 18 is not less than 10cm, the pedal rod 11 is clamped and slides with the positioning bracket 3 through the limit pin rod 18, in the process of paying off the cable, the wire roller 7 is placed in the positioning clamping sleeve 5, after the placement is finished, a worker sleeves the stop bandage 10 in the stop clamping groove 8, further, under the clamping rotation of the bearing seat 6 and the positioning cutting sleeve 5, the working personnel rotates the rotary handrail 9, the wire roller on the wire roller 7 is paid out, when the paying out is required to be stopped, a worker steps on the foot lever 11, under the clamping of the limit pin rod 18, the pedal rod 11 is driven to rotate downwards, the stop bandage 10 is synchronously driven to tighten downwards, the friction strength between the stop bandage and the stop clamping groove 8 is increased, and then 7 end positions of the thread roller, so that the paying-off progress of the thread roller can be conveniently controlled by a worker, and the situation that the thread roller is difficult to control due to inertia in the rotating process is avoided.

The inner side of a positioning clamping sleeve 5 in a supporting mechanism is clamped with a wire roller 7, the wire roller 7 is clamped with the positioning clamping sleeve 5 through a bearing seat 6, both sides of the wire roller 7 are provided with rotating handrails 9, the front side of the wire roller 7 is fixed with a stop clamping groove 8, a positioning main rod 12 is symmetrically fixed at the position of the other side above a supporting underframe 1, the top end of the positioning main rod 12 is embedded with a clamping support rod 13, the top end of the clamping support rod 13 is fixed with a positioning base 14, the inner diameter of the positioning main rod 12 is matched with the outer diameter of the clamping support rod 13, positioning through holes are embedded in the front surfaces of the positioning main rod 12 and the clamping support rod 13, the number of the positioning through holes is not less than 6, positioning inserting rods are sleeved on the inner sides of the positioning through holes, the telescopic position of the clamping support rod 13 in the positioning main rod 12 is adjusted in the cable paying-off process, and the positioning through the positioning inserting rods are used for, the height position of the limiting slide rod 15 is adjusted, and then the height positions of the pull-down slide seat 16 and the pull-up slide seat 17 are adjusted, so that the pull-down slide seat 16 and the pull-up slide seat 17 can guide cables more conveniently.

The inner side of the positioning base 14 is symmetrically fixed with a limiting slide rod 15, the outer side of the limiting slide rod 15 is sequentially clamped with a pull-down slide 16 and a pull-up slide 17 from front to back, the pull-down slide 16 comprises a limiting sleeve 161, the front surface of the limiting sleeve 161 is symmetrically penetrated with two groups of positioning slide holes 162, the upper part of the limiting sleeve 161 is connected with a positioning slide groove 164, one side of the positioning slide groove 164 is rotatably connected with an arc slide groove 165, the positioning slide groove 164 and the arc slide groove 165 are elastically connected with the limiting sleeve 161 through a decompression spring 163, the number of the positioning slide holes 162 is two, the inner diameter of the positioning slide holes 162 is matched with the outer diameter of the limiting slide rod 15, the positioning slide holes 162 and the limiting slide rods 15 are in one-to-one correspondence, when the cable is pulled down and paid off, the cable on the wire roller 7 is put into the positioning slide grooves 164 and the arc slide grooves 165, can reduce the condition of the shake of increasing substantially that the cable unwrapping wire in-process leads to because of rigid pulling, simultaneously at the unwrapping wire in-process, through the block slip of location slide opening 162 and spacing slide bar 15, can make the unwrapping wire direction translation slip of pull-down slide 16 along with the cable, and then reduce the hard frictional force that the unwrapping wire in-process cable produced, pull-down slide 16 is the same with the structure of pull-up slide 17, and pull-down slide 16 and pull-up slide 17 are just for the horizontal direction of spacing slide bar 15, reverse symmetrical arrangement, in the process of pulling up the cable, put the cable into in pull-up slide 17, elasticity decompression through pull-up slide 17, reduce the shake of increasing substantially that the in-process cable produced.

The working principle of the invention is as follows: in the process of paying off the cable, the wire roller 7 is placed in the positioning clamp sleeve 5, after the placement is finished, a worker sleeves the stop bandage 10 in the stop clamp groove 8, then under the clamping rotation of the bearing seat 6 and the positioning clamp sleeve 5, the worker rotates the rotary handrail 9 to pay off the wire roller on the wire roller 7, when the cable is pulled down and paid off, the cable on the wire roller 7 is placed in the positioning slide groove 164 and the arc-shaped slide groove 165, in the process of pulling down, the situation of large-amplitude shaking caused by rigid pulling in the process of paying off the cable can be reduced through the elastic pressure reduction of the pressure reduction spring 163, meanwhile, in the process of paying off, the pull-down slide seat 16 can be enabled to horizontally slide along the paying off direction of the cable through the clamping sliding of the positioning slide hole 162 and the limiting slide rod 15, further, the rigid friction force generated by the cable in the paying off process is reduced, and the cable is synchronously pulled up in the process, put into supreme pull-up slide 17 with the cable in, elasticity decompression through pull-up slide 17, reduce the condition of the shake by a wide margin that pull-up in-process cable produced, when needs stop the unwrapping wire, the staff steps on pedal lever 11, under spacing pin lever 18's block, drive pedal lever 11 downwardly rotating, synchronous drive is stopped a bandage 10 and is tightly stretched downwards, increase and stop a frictional strength of draw-in groove 8, and then stop the position to line roller 7, make the unwrapping wire progress of control line roller that the staff can be convenient, avoid rotating the condition that the in-process line roller leads to being difficult to control because of inertia.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. An anti-shaking pay-off stand for electric power construction comprises a supporting chassis (1) and is characterized in that universal wheels (2) are rotatably connected below the supporting chassis (1), a pushing handle (4) is fixed at one side position above the supporting chassis (1), a supporting mechanism is fixed at one side of the pushing handle (4) above the supporting chassis (1), a wire roller (7) is clamped at the inner side of a positioning clamping sleeve (5) in the supporting mechanism, the wire roller (7) is clamped with the positioning clamping sleeve (5) through a bearing seat (6), rotary handrails (9) are arranged at two sides of the wire roller (7), a stop clamping groove (8) is fixed at the front side of the wire roller (7), a positioning main rod (12) is symmetrically fixed at the other side position above the supporting chassis (1), and a clamping support rod (13) is embedded into the top end of the positioning main rod (12), a positioning base (14) is fixed at the top end of the clamping support rod (13), limiting slide rods (15) are symmetrically fixed on the inner side of the positioning base (14), and a pull-down sliding seat (16) and a pull-up sliding seat (17) are sequentially clamped on the outer side of each limiting slide rod (15) from front to back;

the supporting mechanism comprises a positioning support (3) fixed at the position above the supporting chassis (1), a positioning clamping sleeve (5) is symmetrically fixed at the position of the middle part on the top of the positioning support (3), the inner side of the positioning support (3) is rotatably connected with a foot rest lever (11) at the position of the bottom end, and a stop bandage (10) is connected above the foot rest lever (11).

2. The anti-shaking pay-off stand for power construction as defined in claim 1, wherein the pull-down slide seat (16) comprises a limiting clamping sleeve (161), a positioning slide hole (162) is symmetrically formed in the front surface of the limiting clamping sleeve (161) in a penetrating manner, a positioning slide groove (164) is connected above the limiting clamping sleeve (161), an arc-shaped slide groove (165) is rotatably connected to one side of the positioning slide groove (164), and the positioning slide groove (164) and the arc-shaped slide groove (165) are both elastically connected with the limiting clamping sleeve (161) through a pressure reduction spring (163).

3. The anti-shaking pay-off stand for power construction as claimed in claim 2, wherein the number of the positioning slide holes (162) is two, the inner diameter of the positioning slide holes (162) is matched with the outer diameter of the limiting slide bars (15), and the positioning slide holes (162) and the limiting slide bars (15) are in one-to-one correspondence.

4. The anti-shaking pay-off stand for electric power construction as claimed in claim 1, wherein the structure of the pull-down slide (16) is the same as that of the pull-up slide (17), and the pull-down slide (16) and the pull-up slide (17) are arranged symmetrically in the positive and negative directions relative to the horizontal direction of the limit slide (15).

5. The anti-shaking pay-off rack for power construction as claimed in claim 1, wherein the inner diameter of the positioning main rod (12) is matched with the outer diameter of the clamping branch rod (13), positioning through holes are formed in the front surfaces of the positioning main rod (12) and the clamping branch rod (13) in an embedded manner, the number of the positioning through holes is not less than 6, and positioning insertion rods are matched with the inner sides of the positioning through holes.

6. The anti-shaking pay-off stand for power construction as claimed in claim 1, wherein the stop bandage (10) is made of a woven belt material, and the wire roller (7) is sleeved with the stop bandage (10) through the stop clamping groove (8).

7. The anti-shaking pay-off stand for power construction as claimed in claim 1, wherein a limit pin rod (18) is fixed on the inner side of the positioning bracket (3) and located right above the pedal rod (11), the length of the limit pin rod (18) is not less than 10cm, and the pedal rod (11) is clamped and slides with the positioning bracket (3) through the limit pin rod (18).