CN111003578A

CN111003578A - Sectional drive type auxiliary conveying mechanism for electric installation cables

Info

Publication number: CN111003578A
Application number: CN201911341751.9A
Authority: CN
Inventors: 杨开华
Original assignee: Dongyang Huarui Communication Technology Co Ltd
Current assignee: Dongyang Huarui Communication Technology Co Ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-04-14

Abstract

The invention discloses a sectional driving type auxiliary conveying mechanism for an electric installation cable, which comprises a rack, wherein an adjustable lifting conveying frame is fixed on the left part and the right part of the top surface of a top plate of the rack; the adjustable lifting conveying frame comprises two vertical plates, the bottom surfaces of the two vertical plates are fixed on the top surface of a top plate of the frame, upper transverse plates are fixed on the inner side walls of the tops of the two vertical plates, the vertical transmission screw is close to the corresponding vertical plates, and the bottom end of the vertical transmission screw is hinged to the top plate of the frame through a bearing. The cable winding mechanism can be arranged above the ground through which the cable in front of the winding machine is pulled out, the pulled cable can be conveyed along all the vertical driving rollers and the transverse driving rollers and is pulled in an auxiliary mode through the driving motor and the auxiliary driving motor, so that the cable is pulled out from the front of the winding mechanism without the auxiliary pulling operation of multiple persons, the labor amount is greatly reduced, and the labor cost is reduced.

Description

Sectional drive type auxiliary conveying mechanism for electric installation cables

Technical Field

The invention relates to the technical field of power equipment installation, in particular to a sectional driving type auxiliary conveying mechanism for a power installation cable.

Background

In the existing installation of power equipment, the equipment such as cables and cables needs to be installed, in the conveying process, the cables and the like need to be pulled out of a winding mechanism, the existing mode is that the materials are pulled manually, the cables are pulled out of a winding drum of the winding mechanism, then an installation worker needs to climb to a ladder to install the cables at a high position by pulling the head of the cables, the installation worker needs to assist in pulling out the cables of the winding drum in the winding mechanism at the pulling-out position of the winding mechanism by multiple persons, and the installation method is very troublesome, low in efficiency, large in manual labor amount and needs to be operated by multiple persons.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a sectional driving type electric installation cable auxiliary conveying mechanism which can be arranged above the ground where a cable in front of a winding machine is pulled out and passes through, can convey the pulled-out cable along all vertical driving rollers and all transverse driving rollers and can be pulled in an auxiliary mode through a driving motor and an auxiliary driving motor, so that the cable is pulled out from the front of the winding mechanism without the auxiliary pulling operation of multiple persons, the labor amount is greatly reduced, and the labor cost is reduced.

The scheme for solving the technical problems is as follows:

a sectional driving type auxiliary conveying mechanism for electric installation cables comprises a rack, wherein an adjustable lifting conveying frame is fixed on the left part and the right part of the top surface of a top plate of the rack;

the adjustable lifting conveying frame comprises two vertical plates, the bottom surfaces of the two vertical plates are fixed on the top surface of a top plate of the frame, the inner side walls of the tops of the two vertical plates are fixed with upper transverse plates, vertical transmission screws are close to the corresponding vertical plates, the bottoms of the vertical transmission screws are hinged on the top plate of the frame through bearings, the tops of the vertical transmission screws are hinged on the corresponding upper transverse plates through bearings, a lifting servo motor is fixed on the top surface of the upper transverse plate, an output shaft of the lifting servo motor is a spline shaft, the spline shaft is inserted in a spline hole formed in the top end of the corresponding vertical transmission screw in a sleeved mode, lifting blocks are screwed on the corresponding vertical transmission screws, and the conveying frame is fixed on the two corresponding lifting blocks.

The conveying frame comprises two side connecting plates, a transverse plate is arranged between the lower portions of the left portions of the two side connecting plates, the front end and the rear end of each transverse plate are welded and fixed on the inner side walls of the two side connecting plates, an upper connecting plate is fixed on the inner side walls of the two side connecting plates above the transverse plate, the top ends of the rotating shafts of the two vertical driving rollers are hinged to the corresponding upper connecting plates through bearings, and the bottom ends of the rotating shafts of the vertical driving rollers are hinged to the corresponding transverse plates through bearings.

The right part below of two side connecting plates that correspond is equipped with horizontal driving roller, and the both ends of the pivot that the middle part of horizontal driving roller is fixed with articulate on two side connecting plates through the bearing, are fixed with driving motor on the lateral wall of one of them side connecting plate, and driving motor's output shaft is the integral key shaft, and the integral key shaft plug bush is in the integral key hole that the one end of the pivot of horizontal driving roller has.

The transverse driving roller is positioned at the right part of the two vertical driving rollers.

And annular grooves are formed on the outer side walls of the middle parts of the transverse transmission roller and the vertical transmission roller.

And one side of the lifting block, which faces the vertical plate, is fixed with a wear-resistant plate, and the wear-resistant plate is tightly attached to the inner side wall of the corresponding vertical plate.

An auxiliary driving motor is fixed on the top surface of the upper connecting plate, an output shaft of the auxiliary driving motor is a spline shaft, and the spline shaft is inserted in a spline hole formed in the top end of the rotating shaft of the corresponding vertical driving roller.

The invention has the following outstanding effects: compared with the prior art, it can install the top on the ground that the cable in coiler the place ahead pulled out the process, and it can carry the cable of the part of pulling out along all vertical driving rollers and horizontal driving roller to through the supplementary pulling of driving motor and auxiliary driving motor, make the cable pull out cable department from coiling mechanism's the place ahead and need not many people and assist the pulling operation, greatly reduced amount of labour reduces the cost of labor.

Drawings

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is a partial top view of the present invention;

fig. 3 is a partially enlarged view of fig. 1.

Detailed Description

In the embodiment, as shown in fig. 1 to 3, a sectional driving type electric installation cable auxiliary conveying mechanism comprises a frame 10, wherein an adjustable lifting conveying frame 20 is fixed on each of the left part and the right part of the top surface of a top plate of the frame 10;

the adjustable lifting conveying frame 20 comprises two vertical plates 21, the bottom surfaces of the two vertical plates 21 are fixed on the top surface of a top plate of the frame 10, upper transverse plates 22 are fixed on the inner side walls of the tops of the two vertical plates 21, vertical transmission screws 23 are close to the corresponding vertical plates 21, the bottom ends of the vertical transmission screws 23 are hinged to the top plate of the frame 10 through bearings, and the vertical transmission screws

The top ends of the lifting blocks 23 are hinged to the corresponding upper transverse plate 22 through bearings, the top surface of the upper transverse plate 22 is fixed with a lifting servo motor 24, the output shaft of the lifting servo motor 24 is a spline shaft, the spline shaft is inserted in a spline hole formed in the top end of the corresponding vertical transmission screw 23 in a sleeved mode, the lifting blocks 25 are in threaded connection with the corresponding vertical transmission screw 23, and the conveying frame 30 is fixed on the two corresponding lifting blocks 25.

Further, the conveying frame 30 comprises two side connecting plates 31, a transverse plate 32 is arranged between the lower portions of the left portions of the two side connecting plates 31, the front end and the rear end of each transverse plate 32 are welded and fixed on the inner side walls of the two side connecting plates 31, an upper connecting plate 33 is fixed on the inner side walls of the two side connecting plates 31 above the transverse plates 32, the top ends of the rotating shafts of the two vertical driving rollers 34 are hinged on the corresponding upper connecting plates 33 through bearings, and the bottom ends of the rotating shafts of the vertical driving rollers 34 are hinged on the corresponding transverse plates 32 through bearings.

Further, the right part below of two corresponding side connecting plates 31 is equipped with horizontal driving roller 35, and the both ends of the pivot that is fixed with in the middle part of horizontal driving roller 35 pass through the bearing and articulate on two side connecting plates 31, is fixed with driving motor 36 on the lateral wall of one of them side connecting plate 31, and driving motor 36's output shaft is the integral key shaft, and the integral key shaft plug bush has in the splined hole that the one end of the pivot of horizontal driving roller 35 has.

Further, the transverse driving roller 35 is located at the right of the two vertical driving rollers 34.

Further, the lateral driving roller 35 and the vertical driving roller 34 are formed with annular grooves on the outer side wall of the middle portion thereof.

Further, a wear plate 26 is fixed on a side of the lifting block 25 facing the vertical plate 21, and the wear plate 26 abuts against an inner side wall of the corresponding vertical plate 21.

Further, an auxiliary driving motor 37 is fixed on the top surface of the upper connecting plate 33, an output shaft of the auxiliary driving motor 37 is a spline shaft, and the spline shaft is inserted in a spline hole formed at the top end of the rotating shaft of the corresponding vertical driving roller 34.

The working principle of the embodiment is as follows: the embodiment is arranged in front of a winding mechanism, then, the height positions of two conveying frames 30 can be adjusted by the operation of all lifting servo motors 24, the positions of all vertical driving rollers 34 and transverse driving rollers 35 are ensured to be basically matched with the horizontal position of a cable pulled out by the winding mechanism, then, the front end of the cable is pulled out forwards along all the vertical driving rollers 34 and transverse driving rollers 35, and then, an installer carries out installation by a head ladder of the cable, wherein when the cable is pulled out, all driving motors 36 can synchronously operate according to components in contact with the cable, such as the transverse driving rollers 35 in main contact with the cable, so that the transverse driving rollers 35 rotate, the conveying is realized, when the vertical driving rollers 34 in main contact with the cable are in conveying, all auxiliary driving motors 37 operate to realize the rotation of all the vertical driving rollers 34, the conveying is realized, and the conveying effect is good;

when the cables are in contact with all the vertical driving rollers 34 and the transverse driving rollers 35, all the auxiliary driving motors 37 and all the driving motors 36 can be synchronously operated to achieve auxiliary pulling, wherein the auxiliary driving motors 37 and the driving motors 36 are electrically connected with a control host through connecting wires, the control host can be installed on the bottom surface of the top plate of the rack and can independently control all the auxiliary driving motors 37 and the driving motors 36, and the control host is a common known structure and is not detailed any more, and is not shown in the drawing.

Claims

1. The utility model provides a supplementary conveying mechanism of sectional drive formula electric power installation cable, includes frame (10), its characterized in that: the left part and the right part of the top surface of the top plate of the rack (10) are both fixed with adjustable lifting conveying frames (20);

the adjustable lifting conveying frame (20) comprises two vertical plates (21), the bottom surfaces of the two vertical plates (21) are fixed on the top surface of a top plate of the frame (10), the inner side walls of the tops of the two vertical plates (21) are both fixed with an upper transverse plate (22), a vertical transmission screw (23) is close to the corresponding vertical plate (21), the bottom end of the vertical transmission screw (23) is hinged on the top plate of the frame (10) through a bearing, the top end of the vertical transmission screw (23) is hinged on the corresponding upper transverse plate (22) through a bearing, a lifting servo motor (24) is fixed on the top surface of the upper transverse plate (22), the output shaft of the lifting servo motor (24) is a spline shaft, and the spline shaft is inserted in a spline hole formed in the top end of the corresponding vertical transmission screw (23), the lifting blocks (25) are screwed on the corresponding vertical transmission screw rods (23), and the conveying frame (30) is fixed on the two corresponding lifting blocks (25).

2. The segment-driven electric installation cable auxiliary conveying mechanism of claim 1, wherein: carriage (30) include two side connecting plates (31), be equipped with horizontal board (32) between the lower part of the left part of two side connecting plates (31), both ends welded fastening is on the inside wall of two side connecting plates (31) around horizontal board (32), be fixed with upper junction plate (33) on the inside wall of two side connecting plates (31) of the top of horizontal board (32), the top of the pivot of two vertical driving roller (34) passes through the bearing and articulates on corresponding upper junction plate (33), the bottom of the pivot of vertical driving roller (34) passes through the bearing and articulates on corresponding horizontal board (32).

3. The segment-driven electric installation cable auxiliary conveying mechanism of claim 2, wherein: the right part below of two side connecting plates (31) that correspond is equipped with horizontal driving roller (35), and the both ends of the pivot that the middle part of horizontal driving roller (35) is fixed with articulate on two side connecting plates (31) through the bearing, is fixed with driving motor (36) on the lateral wall of one of them side connecting plate (31), and the output shaft of driving motor (36) is the integral key shaft, and the integral key shaft plug bush is in the splined hole that the one end of the pivot of horizontal driving roller (35) has.

4. The segment-driven electric installation cable auxiliary conveying mechanism of claim 3, wherein: the transverse driving roller (35) is arranged at the right part of the two vertical driving rollers (34).

5. The segment-driven electric installation cable auxiliary conveying mechanism of claim 3, wherein: and annular grooves are formed on the outer side walls of the middle parts of the transverse driving roller (35) and the vertical driving roller (34).

6. The segment-driven electric installation cable auxiliary conveying mechanism of claim 1, wherein: and a wear-resisting plate (26) is fixed on one side of the lifting block (25) opposite to the vertical plate (21), and the wear-resisting plate (26) is tightly attached to the inner side wall of the corresponding vertical plate (21).

7. The segment-driven electric installation cable auxiliary conveying mechanism of claim 2, wherein: an auxiliary driving motor (37) is fixed on the top surface of the upper connecting plate (33), an output shaft of the auxiliary driving motor (37) is a spline shaft, and the spline shaft is inserted in a spline hole formed in the top end of a rotating shaft of the corresponding vertical driving roller (34).