CN116388073B

CN116388073B - Be applied to assembled transformer substation component processingequipment in job site

Info

Publication number: CN116388073B
Application number: CN202310647852.9A
Authority: CN
Inventors: 胡晨; 何宇辰; 李涛; 汪翔; 张慧洁; 刘超; 梅晓晨; 卫冕; 孙帆; 聂元弘; 张纯玉; 韩承永; 周方圆; 薛欢; 季跃
Original assignee: Economic and Technological Research Institute of State Grid Anhui Electric Power Co Ltd
Current assignee: Economic and Technological Research Institute of State Grid Anhui Electric Power Co Ltd
Priority date: 2023-06-02
Filing date: 2023-06-02
Publication date: 2023-09-01
Anticipated expiration: 2043-06-02
Also published as: CN116388073A

Abstract

The application discloses an assembled transformer substation component processing device applied to a construction site, which relates to the technical field of transformer substation processing equipment and comprises the following components: a frame; the cutter, the fixed shaft sleeve and the rack are arranged on the rack in a sliding manner along the first direction; the gear is coaxially and rotatably connected to the fixed shaft sleeve, notches for adapting the cable are formed in the gear and the fixed shaft sleeve, and the gear is meshed with the rack; the V-shaped cutter and the limiting stop lever are fixedly connected with the gear respectively, and the limiting stop lever is positioned on the sliding stroke of the cutter handle; the guide piece is arranged on the rack in a sliding manner along the direction parallel to the axial direction of the cable, a guide chute is formed in the guide piece, the guide chute comprises a first chute, a flat chute and a second chute which are sequentially connected, and the cutter and the rack are in sliding fit with the guide chute; the driving unit is used for driving the guide piece to slide relative to the frame. The application not only can cut the cable, but also can carry out loop cutting on the cable sleeve at the end part of the cable so as to peel the end part of the cable to expose the end part of the cable.

Description

Be applied to assembled transformer substation component processingequipment in job site

Technical Field

The application relates to the technical field of transformer substation processing equipment, in particular to an assembled transformer substation component processing device applied to a construction site.

Background

The assembled transformer substation is designed and built by utilizing an assembled building technology. The assembly type transformer substation has the advantages that a large number of building components in the assembly type transformer substation are assembled and machined by workshops, on-site mechanized assembly is achieved, cast-in-situ operation is greatly reduced, and the integrated design and construction of building and decoration are adopted, so that on-site safety risks are reduced, and the requirements of green buildings are met. Although most of the hooks of the assembled substation are prefabricated parts, some of the key hooks are required to be processed in situ, such as special cables for high voltage equipment connection, input/output cables of a high voltage bridge, etc.

The utility model discloses a CN216324809U, the chinese patent of a special cable processing is with accurate cutting device, its name is "cable is placed on the spout pole top, start first motor drive crank rotation, the crank drives first connecting rod, first dwang rotates, first dwang drives the trident pole and rotates, the trident pole drives second connecting rod at both ends, second dwang and third connecting rod, the third dwang rotates, can control the second dwang, the angle of third dwang, push block through second dwang, third dwang side promotes sliding plate or carriage downwardly moving makes locating piece or live-rollers and cable contact, when locating piece and cable contact, when live-rollers and cable contact, live-rollers push away the cable and move, make the device can realize feeding and fixed control in the cable cutting process, through the settlement of linkage motor working method, automation of cable cutting operation has been reduced manual operation part, work efficiency of device has been improved simultaneously.

The utility model discloses a CN210098835U, chinese patent of name "cable cutting mechanism", it includes the rotating head, the blade installation piece, cut the blade and cut the cooperation seat, the blade installation piece sets up at the rotating head, the blade sets up the tip at the blade installation piece, the rotating head drives the blade installation piece and rotates around the rotating head, and then make the blade installation piece drive the blade and rotate around the rotating head, it corresponds to cut the cooperation seat and the blade, it is provided with the cable conveying passageway that makes the cable pass and makes the blade grooving that cuts the blade cut across to cut the cooperation seat, wherein, cable conveying passageway and blade grooving intersect for the cable that will pass cable conveying passageway cuts when cutting the blade and cut across the blade grooving. The cable cutting machine can cut the cable quickly and cleanly, and can avoid the condition of incomplete cutting and broken wire connection of the lotus root, and improve the cutting efficiency and quality of the cable.

In the prior art, the cutting device generally only has a function of cutting the cable, after the cable is cut, the end of the cable needs to be peeled by the peeling device, the wire core at the end of the cable is exposed for use, a plurality of devices are required for processing the transformer substation components such as the cable on the construction site, and the processing efficiency of the components needs to be improved due to lack of convenience.

Disclosure of Invention

The application aims to provide an assembly type transformer substation component processing device applied to a construction site, which aims to solve the defects in the prior art.

In order to achieve the above object, the present application provides the following technical solutions: an assembled substation component processingequipment for job site includes: a frame; the cutter, the fixed shaft sleeve and the rack are arranged on the rack in a sliding manner along the first direction; the gear is coaxially and rotatably connected to the fixed shaft sleeve, notches for adapting the cable are formed in the gear and the fixed shaft sleeve, and the gear is meshed with the rack; the V-shaped cutter and the limiting stop lever are fixedly connected with the gear respectively, and the limiting stop lever is positioned on the sliding stroke of the cutter handle; the guide piece is arranged on the rack in a sliding manner along the direction parallel to the axial direction of the cable, a guide chute is formed in the guide piece, the guide chute comprises a first chute, a flat chute and a second chute which are sequentially connected, the flat chute is parallel to the axial direction of the cable, and the cutter and the rack are in sliding fit with the guide chute; and the driving unit is arranged on the frame and is used for driving the guide piece to slide relative to the frame.

Further, two V-shaped cutters are arranged in parallel and distributed on two sides of the cutter, and the two V-shaped cutters are fixedly connected relatively.

Further, the V-shaped cutter is fixedly connected with the gear through a shaft rod parallel to the cable, a spiral cutter is arranged on the shaft rod in an axial sliding mode, an elastic component is arranged between the spiral cutter and the shaft rod, and the elastic component enables the spiral cutter to slide on the shaft rod through the elastic force of the elastic component.

Further, the elastic component comprises a supporting rod, a connecting rod, a sliding seat and a first spring, wherein the supporting rod is fixedly connected to the shaft rod, the sliding seat is arranged on the supporting rod in a sliding mode, one end of the connecting rod is hinged to the handle of the spiral cutter, the other end of the connecting rod is hinged to the sliding seat, and the elastic force of the first spring enables the spiral cutter to slide along the shaft rod through the sliding seat and the connecting rod.

Further, the handle of the spiral cutter is a broken ring, and the broken ring is connected with the shaft rod in a sliding way along the axial direction of the shaft rod.

Further, the face of the helical blade has a helical curvature, and the helical blade has a helical cutting edge and two opposing side edges.

Further, the driving unit is a hydraulic cylinder or an electric push rod, the seat body of the driving unit is fixedly arranged on the frame, and the power output end of the driving unit is connected to the guide piece.

Further, a sleeve for the movable penetration of the cable is arranged on the rack.

Further, the V-shaped port knife close to the gear is fixedly connected with the gear through a first shaft rod parallel to the cable, a first spiral knife is arranged on the first shaft rod in an axial sliding mode, an elastic component is arranged between the first spiral knife and the first shaft rod, and the elastic force of the elastic component enables the first spiral knife to slide on the first shaft rod; the first shaft rod is fixedly connected with a coaxial second shaft rod through a connecting rod, the V-shaped opening knife which is far away from the gear is fixedly connected with the second shaft rod, a second spiral knife is arranged on the second shaft rod in an axial sliding mode, an elastic unit is arranged between the second spiral knife and the second shaft rod, and the elastic force of the elastic unit enables the second spiral knife to slide on the second shaft rod.

Further, the elastic unit comprises a second spring, one end of the second spring is connected to the second shaft, and the other end of the second spring is connected to the handle of the second spiral cutter.

In the technical scheme, the assembly type transformer substation component processing device applied to the construction site provided by the application can cut off a cable and can also conduct circular cutting on a cable sleeve at the end part of the cable so as to peel off the end part of the cable to expose the end part of the cable through the cooperation of the guide piece, the cutter, the fixed shaft sleeve, the rack, the gear, the V-shaped port knife and the limiting rod by driving of the driving unit.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIGS. 1-3 are schematic diagrams illustrating a first procedure according to an embodiment of the present application;

FIG. 4 is a schematic diagram of a first embodiment of the present application at the end of a first stroke;

FIG. 5 is a schematic diagram of a second stroke end according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a third stroke end configuration according to an embodiment of the present application;

FIG. 7 is a schematic diagram of another embodiment of the present application;

FIG. 8 is a schematic diagram of another embodiment of the present application;

FIG. 9 is a schematic diagram of another embodiment of the present application;

FIG. 10 is a schematic view of a screw blade and a missing ring according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of an elastic component according to an embodiment of the present application.

Reference numerals illustrate:

1. a frame; 2. a cutter; 3. a fixed shaft sleeve; 4. a rack; 5. a gear; 6. v-shaped cutter; 7. a limit stop lever; 8. a guide member; 8.1, a first chute; 8.2, a flat groove; 8.3, a second chute; 9. a driving unit; 10. a shaft lever; 10.1, a first shaft lever; 10.2, a second shaft; 11. a spiral knife; 11.1, a first spiral knife; 11.2, a second spiral knife; 12. an elastic component; 12.1, a supporting rod; 12.2, connecting rod; 12.3, a sliding seat; 12.4, a first spring; 13. a sleeve; 14. and an elastic unit.

Detailed Description

In order to make the technical scheme of the present application better understood by those skilled in the art, the present application will be further described in detail with reference to the accompanying drawings.

Referring to fig. 1 to 11, an apparatus for processing an assembled transformer substation component applied to a construction site according to an embodiment of the present application includes: the device comprises a frame 1, a cutter 2, a fixed shaft sleeve 3, a rack 4, a gear 5, a V-shaped cutter 6, a limiting rod 7, a guide piece 8 and a driving unit 9, wherein the cutter 2, the fixed shaft sleeve 3 and the rack 4 are arranged on the frame 1 in a sliding manner along a first direction, the first direction is a certain direction perpendicular to the axial direction of a cable, the gear 5 is coaxially and rotatably connected to the fixed shaft sleeve 3, notches for adapting the cable are formed in the gear 5 and the fixed shaft sleeve 3, and the gear 5 is meshed with the rack 4; the V-shaped cutter 6 and the limiting stop lever 7 are fixedly connected with the gear 5, and the limiting stop lever 7 is positioned on the sliding stroke of the handle part of the cutter 2; the guide piece 8 is arranged on the frame 1 in a sliding manner along the direction parallel to the axial direction of the cable, a guide chute is formed in the guide piece 8, the guide chute comprises a first chute 8.1, a flat chute 8.2 and a second chute 8.3 which are sequentially connected, the flat chute is parallel to the axial direction of the cable, the cutter 2 and the rack 4 are in sliding fit with the guide chute, specifically, the cutter 2 is in sliding fit with the guide through a first sliding column, and the rack 4 is in sliding fit with the guide chute through a second sliding column; a drive unit 9 is provided on the frame 1, the drive unit 9 being adapted to drive the guide 8 to slide relative to the frame 1.

In the above technical solution, the process of driving the guide 8 by the driving unit 9 to slide the guide 8 sequentially includes the following strokes: the first stroke, the first sliding column and the second sliding column slide in the first chute 8.1, see fig. 1-3, so that the cutter 2 and the rack 4 slide relative to the frame 1 at the same time to approach the cable, meanwhile, the limit stop lever 7 keeps abutting against the handle of the cutter 2 all the time, the gear 5, the fixed shaft sleeve 3 and the V-shaped cutter 6 are driven to move synchronously together by the limit stop lever 7 while sliding from the cutter 2, so that the rack 4 and the gear 5 move synchronously until the first stroke is finished, the cutter 2 partially cuts into the cable (the cable is not completely cut off by the cutter 2), the fixed shaft sleeve 3 is sleeved on the cable from the notch of the fixed shaft sleeve to be coaxial with the cable, the V-shaped cutter 6 cuts the cable sleeve to the junction of the cable sleeve and the cable core from two sides of the cable, and the second sliding column is still positioned in the first chute 8.1 at the junction of the first chute 8.2, see fig. 4; the second stroke, the first sliding column slides in the flat groove 8.2 to the junction of the flat groove 8.2 and the second chute 8.3, the cutting depth of the cutter 2 relative to the cable is unchanged, thus the cutter 2 does not drive the gear 5, the fixed shaft sleeve 3 and the V-shaped cutter 6 to move through the limiting rod 7, the second sliding column slides in the first chute 8.1 to the junction of the first chute 8.1 and the flat groove 8.2, the rack 4 moves relative to the gear 5, thus the gear 5 drives the cutter 2 to rotate relative to the fixed shaft sleeve 3, the V-shaped cutter 6 performs circular cutting on the cable sleeve of the cable, referring to fig. 5, the effect that the cable end is easily pulled down from the cable core is realized, the cable end is conveniently peeled off from the cable core, the limiting rod 7 rotates along with the gear 5 away from the handle part of the cutter 2, and is not abutted with the cutter 2, and in addition, as the V-shaped cutter 6 is partially cut into the cable sleeve, the axial direction of the cable is enabled, the cable handle part is prevented from moving to the V-shaped cutter 6, and the axial running of the cable is prevented; in the third stroke, the second sliding column slides in the flat groove 8.2, so the rack 4 does not move, and the gear 5 and the V-shaped cutter 6 are not driven to rotate, and the first sliding column slides in the second chute 8.3, so that the cutter 2 continues to cut the cable until the cable is completely cut off, and the cutter is shown in fig. 6.

The guide 8 is then driven by the drive unit 9 to move in reverse an equal distance, so that the components can be reset to the position and state at the beginning of the first stroke.

The assembled transformer substation component processing device applied to the construction site provided by the application can cut the cable through the driving of the driving unit 9 under the cooperation of the guide piece 8, the cutter 2, the fixed shaft sleeve 3, the rack 4, the gear 5, the V-shaped cutter 6 and the limit stop lever 7, and can also carry out circular cutting on the cable sleeve at the end part of the cable so as to peel the end part of the cable to expose the end part of the cable.

As a preferred solution of the application, the driving unit 9 is a hydraulic cylinder or an electric push rod, the seat of which is fixedly mounted on the frame 1, and the power output end of which is connected to the guide 8. The drive unit 9 may also preferably be a servomotor which drives the guide 8 in a linear reciprocating motion via a transmission.

As a preferable technical scheme of the application, the frame 1 is provided with the sleeve 13 for the movable penetration of the cable, so that the cable can be conveniently positioned when the cable is cut.

In another embodiment provided by the application, referring to fig. 7,V, two V-mouth cutters 6 are arranged in parallel, and are distributed on two sides of the cutter 2, and the two V-mouth cutters 6 are relatively and fixedly connected. In this embodiment, the two V-shaped cutters 6 can perform synchronous circular cutting on the end portions of two cut cables, so that the two ends of each cut cable are circular cut to facilitate stripping of the cable jacket.

In still another embodiment of the present application, referring to fig. 8,V, the mouth knife 6 is fixedly connected with the gear 5 through a shaft rod 10 parallel to a cable, a spiral knife 11 is slidably disposed on the shaft rod 10 along an axial direction, specifically, referring to fig. 10, a handle portion of the spiral knife 11 is a loose ring, the loose ring is slidably connected with the shaft rod 10 along the axial direction of the shaft rod 10, a knife surface of the spiral knife 11 has a spiral arc, the spiral knife 11 has a spiral knife edge and two opposite side edges, an elastic component 12 is disposed between the spiral knife 11 and the shaft rod 10, and the elastic force of the elastic component 12 makes the spiral knife 11 slide on the shaft rod 10. As a preferred solution, referring to fig. 11, the elastic component 12 includes a supporting rod 12.1, a connecting rod 12.2, a sliding seat 12.3 and a first spring 12.4, the supporting rod 12.1 is fixedly connected to the shaft rod 10, the sliding seat 12.3 is slidably disposed on the supporting rod 12.1, one end of the connecting rod 12.2 is hinged to the handle of the spiral knife 11, the other end is hinged to the sliding seat 12.3, and the elastic force of the first spring 12.4 slides the spiral knife 11 along the shaft rod 10 through the sliding seat 12.3 and the connecting rod 12.2.

In this embodiment, in the first stroke, the spiral blade 11 cuts into the cable sleeve of the cable to the junction between the cable sleeve and the cable core, in the process of ring cutting of the cable by the V-mouth blade 6 in the second stroke, the rotation of the V-mouth blade 6 and the shaft 10 can cause the spiral blade 11 to have a tendency to rotate along with the shaft 10, so that the spiral blade 11 rotates along with the shaft 10 to axially move, the spiral blade 11 spirals to cut the cable sleeve at the cable end, and when the ring cutting of the cable by the V-mouth blade 6 is completed, the spiral blade 11 also spirals from the ring cut of the cable to the cut of the cable, so that the cable sleeve at the cable end to be stripped is spirally cut, and the cable sleeve at the cable end is easily stripped from the cable core.

In still another embodiment of the present application, referring to fig. 9, the V-shaped cutter 6 near the gear 5 is fixedly connected with the gear 5 through a first shaft lever 10.1 parallel to the cable, a first spiral cutter 11.1 is axially slidably arranged on the first shaft lever 10.1, an elastic component 12 is arranged between the first spiral cutter 11.1 and the first shaft lever 10.1, and the elastic force of the elastic component 12 makes the first spiral cutter 11.1 slide on the first shaft lever 10.1; the first shaft lever 10.1 is fixedly connected with a coaxial second shaft lever 10.2 through a connecting rod, the V-shaped cutter 6 far away from the gear 5 is fixedly connected with the second shaft lever 10.2, the second shaft lever 10.2 is axially provided with a second spiral cutter 11.2 in a sliding mode, an elastic unit 14 is arranged between the second spiral cutter 11.2 and the second shaft lever 10.2, and the elastic force of the elastic unit 14 enables the second spiral cutter 11.2 to slide on the second shaft lever 10.2. As a preferred solution, the elastic unit 14 comprises a second spring, one end of which is connected to the second shaft 10.2 and the other end is connected to the shank of the second helical blade 11.2.

In this embodiment, the two V-shaped cutters 6 can perform synchronous circular cutting on the end portions of the two cut-off cables, and the first spiral cutter 11.1 and the second spiral cutter 11.2 can perform synchronous spiral cutting on the end portions of the two cut-off cables, so that the two ends of each cut-off cable are circular cut and spiral cut, and the cable sleeve is convenient to fall off from the cable core.

While certain exemplary embodiments of the present application have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the application, which is defined by the appended claims.

Claims

1. Be applied to assembled transformer substation component processingequipment in job site, characterized by includes:

a frame;

the cutter, the fixed shaft sleeve and the rack are arranged on the rack in a sliding manner along the first direction;

the gear is coaxially and rotatably connected to the fixed shaft sleeve, notches for adapting the cable are formed in the gear and the fixed shaft sleeve, and the gear is meshed with the rack;

the V-shaped cutter and the limiting stop lever are fixedly connected with the gear respectively, and the limiting stop lever is positioned on the sliding stroke of the cutter handle;

the guide piece is arranged on the rack in a sliding manner along the direction parallel to the axial direction of the cable, a guide chute is formed in the guide piece, the guide chute comprises a first chute, a flat chute and a second chute which are sequentially connected, the flat chute is parallel to the axial direction of the cable, and the cutter and the rack are in sliding fit with the guide chute;

and the driving unit is arranged on the frame and is used for driving the guide piece to slide relative to the frame.

2. The processing device for the assembled transformer substation components applied to the construction site according to claim 1, wherein two V-shaped cutters are arranged in parallel and distributed on two sides of the cutter, and the two V-shaped cutters are fixedly connected relatively.

3. The assembly type transformer substation component processing device applied to the construction site according to claim 1, wherein the V-shaped cutter is fixedly connected with the gear through a shaft rod parallel to a cable, a spiral cutter is arranged on the shaft rod in an axial sliding mode, an elastic component is arranged between the spiral cutter and the shaft rod, and the elastic component enables the spiral cutter to slide on the shaft rod through the elastic force of the elastic component.

4. A processing device for assembly type transformer substation components applied to construction sites according to claim 3, wherein the elastic component comprises a supporting rod, a connecting rod, a sliding seat and a first spring, the supporting rod is fixedly connected to the shaft rod, the sliding seat is arranged on the supporting rod in a sliding mode, one end of the connecting rod is hinged to a handle portion of the spiral knife, the other end of the connecting rod is hinged to the sliding seat, and the elastic force of the first spring enables the spiral knife to slide along the shaft rod through the sliding seat and the connecting rod.

5. A fabricated substation component processing apparatus for use in a construction site according to claim 3, wherein the shank of the screw blade is a split ring slidably connected to the shaft in the axial direction of the shaft.

6. A modular substation component processing apparatus for use in a construction site according to claim 3, wherein the face of the helical blade has a helical curvature, the helical blade having a helical cutting edge and two opposing side edges.

7. The assembly type transformer substation component processing device applied to construction sites according to claim 1, wherein the driving unit is a hydraulic cylinder or an electric push rod, a base of the driving unit is fixedly arranged on the frame, and a power output end of the driving unit is connected to the guide piece.

8. The assembly type transformer substation component processing device applied to a construction site according to claim 1, wherein a sleeve through which a cable movably passes is arranged on the frame.

9. The processing device for the assembled transformer substation components applied to the construction site according to claim 2, wherein the V-shaped port knife close to the gear is fixedly connected with the gear through a first shaft rod parallel to a cable, a first spiral knife is arranged on the first shaft rod in a sliding manner along the axial direction, an elastic component is arranged between the first spiral knife and the first shaft rod, and the elastic force of the elastic component enables the first spiral knife to slide on the first shaft rod; the first shaft rod is fixedly connected with a coaxial second shaft rod through a connecting rod, the V-shaped opening knife which is far away from the gear is fixedly connected with the second shaft rod, a second spiral knife is arranged on the second shaft rod in an axial sliding mode, an elastic unit is arranged between the second spiral knife and the second shaft rod, and the elastic force of the elastic unit enables the second spiral knife to slide on the second shaft rod.

10. The assembly type transformer substation component processing device applied to a construction site according to claim 9, wherein the elastic unit comprises a second spring, one end of the second spring is connected to the second shaft, and the other end of the second spring is connected to a handle of the second screw.