CN215478970U - Electric cable winding and unwinding shaft bracket - Google Patents

Abstract

The utility model discloses an electric cable take-up and pay-off shaft bracket which comprises a main bracket, an auxiliary bracket, a main shaft, a cable shaft and an electric transmission system, wherein the main bracket is arranged on the main bracket; the main shaft both ends set up respectively on body frame and the subframe, the cable shaft set up in on the main shaft, electric drive system install in be used for providing on the body frame the rotary power of cable shaft. According to the electric cable winding and unwinding shaft bracket provided by the embodiment of the utility model, only two persons are needed for operation, one person operates the control box, and the other person assists in winding and unwinding the cable, so that the labor intensity of workers is reduced, and the winding and unwinding efficiency of the power cable is improved.

Description

Electric cable winding and unwinding shaft bracket

Technical Field

The utility model belongs to the technical field of electric power construction tools, and particularly relates to an electric cable take-up and pay-off shaft bracket.

Background

The power cable shaft bracket is widely applied to power engineering, so long as a construction site for laying and recycling cables is provided, the power cable shaft bracket can be used, and the traditional power cable shaft bracket driven by manpower is widely applied at present.

The traditional power cable shaft bracket driven by manpower occupies a large number of people in operation and has high labor cost. Because the weight of each shaft of the power cable is over ton, the cable shaft is rotated by manpower to take up and pay off the cable, three to four persons stand on each side of the two sides of the cable shaft to operate, the labor intensity of workers is high, and particularly when a large amount of cables are taken up and paid off, the manpower is exhausted in the later stage of the operation of the cable shaft, people need to be replaced by shifting, and the labor cost is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electric cable reeling and unreeling shaft bracket, which solves the problems that in the prior art, the number of people occupied in operation is large and the labor cost is high due to the fact that a traditional power cable shaft bracket is driven by manpower.

In order to achieve the purpose, the utility model adopts the following technical scheme:

an electric cable take-up and pay-off shaft bracket comprises a main bracket, an auxiliary bracket, a main shaft, a cable shaft and an electric transmission system; the main shaft both ends set up respectively on body frame and the subframe, the cable shaft set up in on the main shaft, electric drive system install in be used for providing on the body frame the rotary power of cable shaft.

Furthermore, the electric transmission system comprises a speed regulating motor, a speed reducer, a pinion, a gearwheel and a deflector rod; the output of the speed regulating motor is connected with the small gear through a speed reducer, the small gear is meshed with the large gear, and the deflector rod is fixed on the end face of the large gear.

Furthermore, the end part of the cable shaft for taking power is provided with a frame shaped like a Chinese character 'mi', and the deflector rod is inserted into the frame shaped like the Chinese character 'mi' in a working state.

Furthermore, an elastic sleeve is arranged on the shifting lever, an elastic limiting clamp is arranged on the frame shaped like a Chinese character 'mi', and the shifting lever is inserted into the frame shaped like a Chinese character 'mi' and the elastic sleeve is clamped into the elastic limiting clamp in a working state.

Further, the main frame comprises a main frame base, a main frame top seat, a main frame support inclined rod and a main frame upright post; the bottom ends of the main frame upright post and the main frame support diagonal rod are arranged on the main frame base, and the main frame footstock is respectively fixed at the top ends of the main frame upright post and the main frame support diagonal rod; the main frame top seat is provided with wheels for moving;

the auxiliary frame comprises an auxiliary frame base, an auxiliary frame top seat, an auxiliary frame supporting inclined rod and an auxiliary frame upright post; the bottom ends of the auxiliary frame upright post and the auxiliary frame supporting inclined rod are arranged on the auxiliary frame base, and the auxiliary frame top seat is respectively fixed at the top ends of the auxiliary frame upright post and the auxiliary frame supporting inclined rod; the auxiliary frame top seat is provided with a wheel used for moving.

Further, an installation frame is sleeved on the main frame upright post and comprises a first main shaft installation plate, a transmission system installation plate and a bearing fixing plate; the speed regulating motor and the speed reducer are arranged in an electrical control box, and the electrical control box is fixed on the transmission system mounting plate; an output shaft of the speed reducer is mounted on the bearing fixing plate through a bearing, and the large gear is rotatably mounted on the bearing fixing plate;

the cover is equipped with the second main shaft mounting panel on the subframe stand, be provided with the mounting groove on first main shaft mounting panel, the second main shaft mounting panel respectively, install the gyro wheel that can rotate and be used for supporting the main shaft in the mounting groove.

Further, the bottom of the installation frame is provided with a first height adjusting device respectively, and the bottom of the second spindle installation plate is provided with a second height adjusting device.

Furthermore, the first height adjusting device comprises a first jack supporting seat and a first jack for adjusting the height of the installation frame, the first jack supporting seat is installed on the main frame upright post, and the first jack is installed on the first jack supporting seat;

the second height adjusting device comprises a second jack supporting seat and a second jack used for adjusting the height of the second main shaft mounting plate, the second jack supporting seat is installed on the auxiliary frame upright post, and the second jack is installed on the second jack supporting seat.

Furthermore, the main frame upright post is provided with a plurality of first position adjusting holes, and when a first limiting pin is inserted into the first position adjusting holes, the first jack supporting seat is supported and limited; and the auxiliary frame upright post is provided with a plurality of second position adjusting holes, and when a second limiting pin is inserted into the second position adjusting holes, the second jack supporting seat is supported and limited.

Furthermore, a forklift lug is arranged on the main frame supporting inclined rod.

The utility model has the following beneficial effects:

1) according to the electric cable winding and unwinding shaft bracket provided by the embodiment of the utility model, only two persons are needed for operation, one person operates the control box, and the other person assists in winding and unwinding the cable, so that the labor intensity of workers is reduced, and the winding and unwinding efficiency of the power cable is improved.

2) The electric cable reeling and unreeling shaft bracket provided by the embodiment of the utility model has universality, and can be suitable for national standard cable shafts with various diameter specifications by adjusting the position of the main shaft up and down.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic perspective view of an electric cable reel stand according to an embodiment of the present invention.

FIG. 2 is a schematic view of a gear connection in an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a main frame in an embodiment of the utility model.

Fig. 4 is a schematic view of the installation of the main frame and the electric transmission system in the embodiment of the utility model.

FIG. 5 is a schematic diagram of an electric drive system according to an embodiment of the present invention.

Fig. 6 is a schematic view of a sub-frame structure according to an embodiment of the present invention.

Fig. 7 is an enlarged view of a portion a of fig. 6.

Fig. 8 is a schematic diagram of the fitting installation of the cable shaft and the electric transmission system in the embodiment of the utility model, and the positions represented by the positions B are overlapped after installation.

Fig. 9 is a schematic diagram of the cable shaft and the electric transmission system after successful matching installation in the embodiment of the utility model.

FIG. 10 is a diagram of a controller according to an embodiment of the utility model.

Wherein: 1, a main shaft; 2 a cable shaft; 3, a speed regulating motor; 4, a speed reducer; 5 a pinion gear; 6, a bull gear; 7, a deflector rod; 8 m-shaped frames; 9, an elastic sleeve; 10 elastic limit clips; 11 a main frame base; 12, a main frame top seat; 13 the main frame supports the diagonal rods; 14 main frame columns; 15 a sub-frame base; 16 sub-frame top seats; 17 the sub-frame supports the diagonal rods; 18 subframe posts; 19 a first spindle mounting plate; 20 a drive train mounting plate; 21 bearing fixing plates; 22 an electrical control box; 23 a second spindle mounting plate; 24 rollers; 25 wheels; 26 a first jack support; 27 a first jack; 28 a second jack support base; 29 a second jack; 30 a first position adjustment aperture; 31 a first limit pin; 32 a second position adjustment aperture; 33 a second limit pin; 34 a fork lift lug; 35, chain inversion; 36 bull gear shields; 37 a pinion gear shield; 38 a scram switch; 39 speed regulating button; 40 knob switch.

Detailed Description

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

The following detailed description is exemplary in nature and is intended to provide further details of the utility model. Unless otherwise defined, all technical terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the utility model.

As shown in fig. 1, an embodiment of the present invention provides an electric cable reeling and unreeling shaft bracket, which includes a main bracket, an auxiliary bracket, a main shaft 1, a cable shaft 2 and an electric transmission system; the two ends of the main shaft 1 are respectively arranged on the main frame and the auxiliary frame, the cable shaft 2 is arranged on the main shaft, the electric transmission system is arranged on the main frame and used for providing the rotating power of the cable shaft 2, and the electric transmission system is used for assisting in lifting through the chain block 35. The main frame supporting inclined rod 13 is provided with a forklift lug 34. Through the arrangement, the electric transmission system provides power for winding the cable, the labor intensity of workers is reduced, and the winding and unwinding efficiency of the power cable is improved. The fork lift ears 34 are provided for ease of transport.

As shown in fig. 2, the electric drive system comprises a speed regulating motor 3, a speed reducer 4, a pinion 5, a bull gear 6 and a shift lever 7; the output of the speed regulating motor 3 is connected with a small gear 5 through a speed reducer 4, the small gear 5 is meshed with a large gear 6, and a deflector rod 7 is fixed on the end face of the large gear 6. The pinion gear 5 and the bull gear 6 are respectively provided with a pinion gear guard 37 and a bull gear guard 36.

As shown in fig. 3 to 7, the main frame comprises a main frame base 11, a main frame top seat 12, a main frame support diagonal rod 13 and a main frame upright post 14; the bottom ends of the main frame upright posts 14 and the main frame support inclined rods 13 are arranged on the main frame base 11, and the main frame footstock 12 is respectively fixed at the top ends of the main frame upright posts 14 and the main frame support inclined rods 13; the main frame top seat 12 is provided with wheels 25 for moving; the auxiliary frame comprises an auxiliary frame base 15, an auxiliary frame top seat 16, an auxiliary frame supporting inclined rod 17 and an auxiliary frame upright post 18; the bottom ends of the auxiliary frame upright post 18 and the auxiliary frame support inclined rod 17 are arranged on the auxiliary frame base 15, and the auxiliary frame top seat 16 is respectively fixed at the top ends of the auxiliary frame upright post 18 and the auxiliary frame support inclined rod 17; the sub-frame top mount 16 is mounted with wheels 25 for movement. The wheels are arranged, so that the transportation is facilitated.

As shown in fig. 3, the main frame upright 14 is sleeved with a mounting frame, and the mounting frame comprises a first main shaft mounting plate 19, a transmission system mounting plate 20 and a bearing fixing plate 21; the speed regulating motor 3 and the speed reducer 4 are arranged in an electrical control box 22, and the electrical control box 22 is fixed on a transmission system mounting plate 20; an output shaft of the speed reducer 4 is arranged on a bearing fixing plate 21 through a bearing, and a large gear 6 is rotatably arranged on the bearing fixing plate 21; the auxiliary frame upright column 18 is sleeved with a second main shaft mounting plate 23, the first main shaft mounting plate 19 and the second main shaft mounting plate 23 are respectively provided with mounting grooves, and rollers 24 which can rotate and are used for supporting the main shaft are mounted in the mounting grooves. Through setting up the gyro wheel, be convenient for main shaft 1 rotatory on the mounting panel.

As shown in fig. 3, 6 and 7, the bottom of the mounting frame is provided with a first height adjusting means, and the bottom of the second spindle mounting plate 23 is provided with a second height adjusting means, respectively. Specifically, the first height adjusting device includes a first jack support seat 26 and a first jack 27 for adjusting the height of the mounting frame, the first jack support seat 26 is installed on the main frame column 14, and the first jack 27 is installed on the first jack support seat 26; the second height adjusting means includes a second jack support 28 and a second jack 29 for adjusting the height of the second spindle mounting plate 23, the second jack support 28 being mounted on the subframe upright 18, and the second jack 29 being mounted on the second jack support 28. The main frame upright post 14 is provided with a plurality of first position adjusting holes 30, and when a first limiting pin 31 is inserted into the first position adjusting holes 30, the first jack support seat 26 is supported and limited; the sub-frame column 18 is provided with a plurality of second position adjusting holes 32, and when the second stopper pin 33 is inserted into the second position adjusting holes 32, the second jack support base 28 is supported and stopped. The national standard cable shaft with various diameter specifications can be suitable by adjusting the position of the main shaft, and the universality is strong.

As shown in fig. 8 and 9, a frame 8 is arranged at the end of the cable shaft 2 for taking power, an elastic sleeve 9 is arranged on the shift lever 7, an elastic limit clamp 10 is arranged on the frame 8, the shift lever 7 is inserted into the frame 8 in the working state, the shift lever 7 is inserted into the frame 8, and the elastic sleeve 9 is clamped into the elastic limit clamp 10. Through this kind of setting, when gear wheel 6 was rotatory, it is rotatory to drive rice font frame 8, and then drives the cable shaft rotation to set up elastic sleeve 9 and elasticity spacing clamp 10, can reduce wear, increase life.

As shown in fig. 10, the present invention is further provided with a matching controller, which comprises an emergency stop switch 38, a speed regulating button 39 and a knob switch 40. More convenient controlling means operation.

After the device is built according to the content, the function of coiling and placing the cable can be realized by starting the switch.

1) And starting the power supply, starting the equipment to work and introducing the operation panel.

Scram switch 38-for equipment operation, special case emergency stops occur;

a speed regulation knob 39 used for regulating the output rotating speed of the motor, namely controlling the rotating speed (low speed and small torque) of the cable shaft (2);

knob switch 40-is used for starting (forward and reverse rotation), stopping the equipment.

2) The equipment starting and stopping operation steps are as follows:

a. firstly, adjusting a speed regulating knob to the minimum;

b. switching on a main power switch;

c. rotating the knob switch to forward or reverse rotation;

d. the knob is stably adjusted for speed regulation;

e. after the work is finished, the knob switch is rotated to stop;

f. and opening the main power switch.

It will be appreciated by those skilled in the art that the utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the utility model are intended to be embraced therein.

Claims (10)

1. An electric cable take-up and pay-off shaft bracket is characterized by comprising a main bracket, an auxiliary bracket, a main shaft (1), a cable shaft (2) and an electric transmission system; the cable reel is characterized in that the two ends of the main shaft (1) are respectively arranged on the main frame and the auxiliary frame, the cable reel (2) is arranged on the main shaft (1), and the electric transmission system is arranged on the main frame and used for providing the rotating power of the cable reel (2).

2. The electric cable pay-off and take-up shaft bracket as claimed in claim 1, wherein the electric transmission system comprises a speed regulating motor (3), a speed reducer (4), a pinion (5), a bull gear (6) and a shift lever (7); the output of the speed regulating motor (3) is connected with the small gear (5) through the speed reducer (4), the small gear (5) is meshed with the large gear (6), and the shifting lever (7) is fixed on the end face of the large gear (6).

3. The electric cable reeling and unreeling shaft bracket according to claim 2, characterized in that a force taking end of the cable shaft (2) is provided with a frame (8) shaped like a Chinese character 'mi', and the deflector rod (7) is inserted into the frame (8) shaped like a Chinese character 'mi' in a working state.

4. The electric cable pay-off and take-up shaft bracket as claimed in claim 3, wherein the shift lever (7) is provided with an elastic sleeve (9), the frame (8) is provided with an elastic limit clamp (10), and in an operating state, the shift lever (7) is inserted into the frame (8) and the elastic sleeve (9) is clamped into the elastic limit clamp (10).

5. The electric cable pay-off and take-up shaft bracket as claimed in claim 2, wherein the main bracket comprises a main bracket base (11), a main bracket top base (12), a main bracket support diagonal rod (13) and a main bracket upright post (14); the bottom ends of the main frame upright post (14) and the main frame supporting inclined rod (13) are arranged on a main frame base (11), and the main frame top seat (12) is respectively fixed at the top ends of the main frame upright post (14) and the main frame supporting inclined rod (13); the main frame top seat (12) is provided with wheels for moving;

the auxiliary frame comprises an auxiliary frame base (15), an auxiliary frame top seat (16), an auxiliary frame supporting inclined rod (17) and an auxiliary frame upright post (18); the bottom ends of the auxiliary frame upright post (18) and the auxiliary frame supporting inclined rod (17) are arranged on the auxiliary frame base (15), and the auxiliary frame top seat (16) is respectively fixed at the top ends of the auxiliary frame upright post (18) and the auxiliary frame supporting inclined rod (17); the sub-frame top seat (16) is provided with wheels for moving.

6. The electric cable pay-off and take-up shaft bracket as claimed in claim 5, wherein a mounting frame is sleeved on the main frame upright post (14), and the mounting frame comprises a first main shaft mounting plate (19), a transmission system mounting plate (20) and a bearing fixing plate (21); the speed regulating motor (3) and the speed reducer (4) are arranged in an electrical control box (22), and the electrical control box (22) is fixed on the transmission system mounting plate (20); an output shaft of the speed reducer (4) is mounted on the bearing fixing plate (21) through a bearing, and the large gear (6) is rotatably mounted on the bearing fixing plate (21);

the cover is equipped with second main shaft mounting panel (23) on subframe stand (18), be provided with the mounting groove on first main shaft mounting panel (19), second main shaft mounting panel (23) respectively, install the gyro wheel that can rotate and be used for supporting main shaft (1) in the mounting groove.

7. The electric cable reeling and unreeling shaft bracket according to claim 6, wherein the bottom of the mounting frame is respectively provided with a first height adjusting device, and the bottom of the second main shaft mounting plate (23) is provided with a second height adjusting device.

8. The electric cable pay-off and take-up shaft bracket as claimed in claim 7, wherein the first height adjusting device comprises a first jack support seat (26) and a first jack (27) for adjusting the height of the mounting frame, the first jack support seat (26) is installed on the main frame upright post (14), and the first jack (27) is installed on the first jack support seat (26);

the second height adjusting device comprises a second jack supporting seat (28) and a second jack (29) used for adjusting the height of the second main shaft mounting plate (23), the second jack supporting seat (28) is installed on the auxiliary frame upright post (18), and the second jack (29) is installed on the second jack supporting seat (28).

9. The electric cable pay-off and take-up shaft bracket as claimed in claim 8, wherein the main frame column (14) is provided with a plurality of first position adjusting holes (30), and when a first limit pin (31) is inserted into the first position adjusting holes (30), the first jack support seat (26) is supported and limited; the auxiliary frame upright post (18) is provided with a plurality of second position adjusting holes (32), and when a second limiting pin (33) is inserted into the second position adjusting holes (32), the second position adjusting holes support and limit the second jack supporting seat (28).

10. The electric cable pay-off and take-up shaft bracket as claimed in claim 5, wherein a forklift lug (34) is arranged on the main bracket supporting inclined rod (13).

Images