CN110180934B - Compact busbar compacting equipment - Google Patents

Abstract

The invention discloses dense bus compacting equipment, wherein a supporting upright post is arranged on a main workbench, a first end of a supporting cantilever is arranged at the top end of the supporting upright post, the supporting cantilever is rotatably arranged with the supporting upright post through a vertical rotating shaft, and the supporting cantilever can transversely rotate relative to the supporting upright post and is positioned at different angles; the stamping device is arranged on the supporting cantilever and can reciprocate up and down to stamp the dense bus conveyed on the main workbench; the second end of connection support cantilever can be dismantled to the upper end of cantilever pull rod, the main workstation is connected to the lower extreme, the cantilever pull rod makes the cantilever end of support cantilever and main workstation form to be connected, when carrying out punching press operation through stamping device, the support cantilever bears ascending impact force, the first end of support cantilever is connected by the support post, the second end is connected by the cantilever pull rod, the both ends of support cantilever are connected respectively by support post and cantilever pull rod, shift main workstation with the impact that the support cantilever received, structural strength is high, it is not fragile.

Description

Compact busbar compacting equipment

Technical Field

The invention relates to the technical field of wire production, in particular to compact busbar compaction equipment.

Background

The compact bus duct is suitable for power supply and distribution systems of alternating current three-phase four-wire and three-phase five-wire systems, and is a bus system consisting of a metal plate serving as a protective shell, a conductive bar, an insulating material and related accessories.

The bus conductors of the dense buses are coated by insulating materials, no space gap exists between the conductors, the bus conductors as a whole radiate outwards, no connecting space exists in the buses, no air flows, and the chimney effect is avoided; the heat dissipation area is large, the temperature rise is low, the compact and small appearance can save space, and the transportation and the installation are convenient.

The equipment for processing the intensive bus duct usually adopts a form of telescopic stamping of air cylinders, a plurality of air cylinders are arranged on a frame beam, and the air cylinders circularly reciprocate to transversely stretch and move so as to continuously stamp the intensive bus duct.

The movement range of the air cylinder is influenced by the width of the frame beam, so that the air cylinder has the defects of complex structure, high processing difficulty and the like; for those skilled in the art, how to design a compact bus duct production device with high structural strength and simple structure is a technical problem to be solved at present.

Disclosure of Invention

The invention provides compact busbar compaction equipment, which has the advantages of simple structure, high structural strength and difficult damage, and the specific scheme is as follows:

a dense busbar compression device comprising:

the main workbench is used for conveying the dense bus;

the support upright post is arranged on the main workbench;

The first end of the supporting cantilever is rotatably arranged at the top end of the supporting upright post through a vertical rotating shaft, and the supporting cantilever can transversely rotate relative to the supporting upright post;

The stamping device is arranged on the supporting cantilever and can vertically reciprocate to translate and stamp the dense bus conveyed on the main workbench;

and the upper end of the cantilever pull rod is detachably connected with the second end of the supporting cantilever, and the lower end of the cantilever pull rod is connected with the main workbench.

Optionally, one side of the main workbench is transversely provided with an upright post sliding rail, and the other side is transversely provided with a pull rod sliding rail; the support upright post can transversely move along the upright post sliding rail, and the cantilever pull rod can transversely move along the pull rod sliding rail;

And the supporting upright post is provided with an upright post jacking bolt which is used for being matched with the main workbench to tightly jack and limit.

Optionally, the cantilever pull rod comprises a sliding seat, a fixed seat and a vertical rod;

The pull rod sliding rail is a straight rod with a smooth appearance, and the sliding seat is sleeved on the pull rod sliding rail in a sliding manner; the fixed seat is fixedly arranged at the second end of the supporting cantilever; and two ends of the vertical rod are respectively connected with the sliding seat and the fixed seat.

Optionally, the positions of the side walls of the vertical rods, which are close to two ends, are respectively provided with a U-shaped notch, and the sliding seat and the connecting column protruding from the fixed seat can extend into the U-shaped notch.

Optionally, a lock rod is installed on the vertical rod, one end of the lock rod is rotatably installed on the vertical rod, and the other end of the lock rod can be detachably assembled with the vertical rod through bolts.

Optionally, a cylindrical roller is arranged on the inner wall of the sliding groove of the sliding seat.

Optionally, the support upright post and the cantilever pull rod are steel structure frames, and the support upright post and the cantilever pull rod are connected through a slewing bearing.

Optionally, an arc cantilever guide rail is arranged on the upper surface of the supporting upright post, and a cantilever guide pin arranged on the supporting cantilever is matched and guided with the cantilever guide rail;

and the supporting cantilever is provided with a cantilever locking device which is used for tightly supporting and limiting the supporting upright post in a matched mode.

The invention provides dense bus pressing equipment, which is characterized in that a main workbench supports dense buses and drives the dense buses to move for conveying; the support upright post is arranged on the main workbench, the first end of the support cantilever is arranged at the top end of the support upright post, the support cantilever is rotatably arranged with the support upright post through a vertical rotating shaft, and the support cantilever can transversely rotate relative to the support upright post and is positioned at different angles; the stamping device is arranged on the supporting cantilever, the stamping device is driven by the supporting cantilever to synchronously move, the stamping device can reciprocate up and down to translate, and the dense bus conveyed on the main workbench is stamped; the second end of connection support cantilever can be dismantled to the upper end of cantilever pull rod, the main workstation is connected to the lower extreme, the cantilever pull rod makes the cantilever end of support cantilever and main workstation form to be connected, when carrying out punching press operation through stamping device, the support cantilever bears ascending impact force, the first end of support cantilever is connected by the support post, the second end is connected by the cantilever pull rod, the both ends of support cantilever are connected respectively by support post and cantilever pull rod, shift main workstation with the impact that the support cantilever received, structural strength is high, it is not fragile.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1A is an isometric view of the front view of the dense busbar compaction device of the present invention;

FIG. 1B is an isometric view of the dense busbar compaction device of the present invention from a rear perspective;

FIG. 2 is a side view of the dense busbar compression device of the present invention;

FIG. 3A is an isometric view of a cantilever tie;

FIG. 3B is a front view of the cantilever tie;

FIG. 3C is a side view of a cantilever tie;

Fig. 4 is a schematic structural view of the vertical rod.

The drawings include:

The main workbench 1, the upright slide rail 11, the pull rod slide rail 12, the supporting upright 2, the upright jacking bolt 21, the cantilever guide rail 22, the supporting cantilever 3, the cantilever guide pin 31, the cantilever locking device 32, the stamping device 4, the cantilever pull rod 5, the sliding seat 51, the fixed seat 52, the vertical rod 53, the U-shaped notch 531, the connecting post 54, the lock rod 55 and the slewing bearing 6.

Detailed Description

The core of the invention is to provide the compact busbar compacting equipment which has simple structure, high structural strength and difficult damage.

In order to make the technical solution of the present invention better understood by those skilled in the art, the following detailed description of the dense busbar compacting device of the present invention will be given with reference to the accompanying drawings and the specific embodiments.

As shown in fig. 1A and 1B, an isometric view from a front perspective and an isometric view from a rear perspective of the compact busbar compaction device of the present invention are shown, respectively; FIG. 2 is a side view of the dense busbar compression device of the present invention; the device comprises a main workbench 1, a supporting upright post 2, a supporting cantilever 3, a stamping device 4, a cantilever pull rod 5 and other structures, wherein the main workbench 1 is of a supporting structure, dense buses are placed on the main workbench 1, and the main workbench 1 can be in the form of a roller way, a conveying belt or the like and is used for conveying the dense buses placed on the main workbench 1; the support upright post 2 is arranged on the main workbench 1, the support upright post 2 is positioned at the side of the main workbench 1, and the support upright post 2 is vertically arranged; the support cantilever 3 is transversely arranged, the first end of the support cantilever 3 is arranged at the top end of the support upright post 2, the support cantilever 3 and the support upright post 2 are rotationally connected and assembled through a vertical rotating shaft, the support cantilever 3 can transversely rotate relative to the support upright post 2, namely, the motion trail of the support cantilever 3 is in a horizontal plane, and the motion trail of the support cantilever 3 is in a sector shape.

The stamping device 4 is arranged on the supporting cantilever 3, the stamping device 4 synchronously moves along with the supporting cantilever 3, and the stamping device 4 can rotate to different positions along with the supporting cantilever 3; the stamping device 4 can vertically reciprocate to translate and stamp the dense bus conveyed on the main workbench 1, the stamping device 4 is an air cylinder or a hydraulic cylinder, the bottom of the telescopic end of the stamping device 4 is contacted with the dense bus, and stamping acting force is applied to the dense bus.

A plurality of support columns 2 are arranged along the transverse extending direction of the main workbench 1, a stamping device 4 is arranged on each support column 2, when a dense bus needs to be stamped, the stamping device 4 is rotated to be right above the dense bus, when stamping is not needed, the support cantilever 3 is rotated to one side of the main workbench 1, and the length direction of the support cantilever 3 is approximately parallel to the transverse extending direction of the main workbench 1.

The cantilever pull rod 5 is vertically arranged, the upper end of the cantilever pull rod 5 is detachably connected with the second end of the supporting cantilever 3, the lower end of the cantilever pull rod 5 is connected with the main workbench 1, the cantilever end of the supporting cantilever 3 is connected with the main workbench 1, when the punching operation is carried out through the punching device 4, the supporting cantilever 3 bears upward impact force, the first end of the supporting cantilever 3 is connected by the supporting upright post 2, the second end of the supporting cantilever is connected by the cantilever pull rod 5, the supporting upright post 2 and the cantilever pull rod 5 are respectively connected with the two ends of the supporting cantilever 3, the impact acted by the supporting cantilever 3 is transferred to the main workbench 1, the supporting cantilever 3 is not in a cantilever beam structure any more during operation, and the stress concentration phenomenon between the supporting cantilever 3 and the supporting upright post 2 is greatly relieved, so that the structural strength is high and the supporting cantilever is not easy to damage; because stamping device 4 punches the intensive generating line through the mode of vertical flexible punching press, the stroke is not limited by main workstation 1 width, connects main workstation 1 through supporting cantilever 3 and support stand 2, simple structure.

On the basis of the scheme, one side of the main workbench 1 is transversely provided with the upright post slide rail 11, the other side is transversely provided with the pull rod slide rail 12, and the upright post slide rail 11 and the pull rod slide rail 12 are respectively positioned on two opposite sides of the main workbench 1 and are in the same direction with the length direction of the main workbench 1.

The support upright post 2 and the cantilever pull rod 5 are respectively positioned at two sides of the main workbench 1, the upright post slide rail 11 is used for guiding the support upright post 2, and the support upright post 2 can transversely move along the upright post slide rail 11; the pull rod slide rail 12 is used for guiding the cantilever pull rod 5, and the cantilever pull rod 5 can move transversely along the pull rod slide rail 12.

Since the support upright 2 and the cantilever pull rod 5 are respectively connected to the two ends of the support cantilever 3, and the support upright 2, the support cantilever 3 and the cantilever pull rod 5 keep synchronous movement; in the production and processing process, the position of the stamping device 4 is required to be adjusted according to the length dimension of the dense bus and different stamping positions, the support column 2 is guided by the column slide rail 11, the cantilever pull rod 5 is guided by the pull rod slide rail 12, so that the support column 2, the support cantilever 3, the cantilever pull rod 5 and the stamping device 4 can keep synchronous sliding movement, and the stamping device 4 is adjusted to a proper position.

The support upright post 2 is provided with an upright post jacking bolt 21, as shown in fig. 2, the upright post jacking bolt 21 is transversely arranged and is in threaded connection with the support upright post 2, and the end part of the upright post jacking bolt 21 can be in contact with the main workbench 1 and is used for being matched with the main workbench 1 to jack up and limit, so that the positions of the support upright post 2 and the main workbench 1 are kept relatively fixed; after moving to the set position, the support column 2 is locked on the main table 1 by the column jack bolts 21.

As shown in fig. 3A, an isometric view of the cantilever tie 5; fig. 3B and 3C are front and side views, respectively, of the cantilever pull 5; the cantilever pull rod 5 comprises a sliding seat 51, a fixed seat 52 and a vertical rod 53; the pull rod slide rail 12 is a straight rod with a smooth appearance, the section is I-shaped, the section of the matching part of the sliding seat 51 and the pull rod slide rail 12 is C-shaped, and the sliding seat 51 is sleeved on the pull rod slide rail 12 in a sliding way; the fixed seat 52 is fixedly arranged at the second end of the supporting cantilever 3; both ends of the vertical rod 53 are respectively connected with the sliding seat 51 and the fixed seat 52, and the vertical rod 53 can transmit acting force between the sliding seat 51 and the fixed seat 52.

As shown in fig. 4, a schematic structural view of the vertical rod 53 is shown; the positions of the side walls of the vertical rods 53, which are close to the two ends, are respectively provided with a U-shaped notch 531, the sliding seat 51 and the fixed seat 52 are respectively provided with a connecting column 54, the connecting columns 54 protruding from the sliding seat 51 and the fixed seat 52 can extend into the U-shaped notch 531, and the sliding seat 51, the vertical rods 53, the fixed seat 52 and the vertical rods 53 are movably connected, so that stress concentration phenomenon can be avoided.

A lock rod 55 is arranged on the vertical rod 53, one end of the lock rod 55 is rotatably arranged on the vertical rod 53, and the other end of the lock rod 55 can be detachably assembled with the vertical rod 53 through bolts; as shown in fig. 4, one end of the lock lever 55 is provided with a closed round hole, the other end is provided with a U-shaped opening, one end provided with the closed round hole is rotationally connected with the vertical rod 53, and one end of the U-shaped opening is screwed on the vertical rod 53 through a bolt; the opening of the U-shaped notch 531 is closed by the lock lever 55 to form a closed ring shape, so that the connection posts 54 arranged on the sliding seat 51 and the fixed seat 52 are prevented from being separated from the U-shaped notch 531.

Preferably, cylindrical rollers are provided on the inner wall of the sliding chute of the sliding seat 51 to reduce the friction force applied thereto, and likewise corresponding cylindrical rollers are provided on the sliding seat between the support column 2 and the column slide rail 11.

Preferably, the support upright 2 and the cantilever pull rod 5 are steel structure frames, the support upright 2 and the cantilever pull rod 5 are connected through a slewing bearing 6, and the slewing bearing 6 plays a dual role of supporting and rotating connection.

Preferably, a circular arc-shaped cantilever guide rail 22 is arranged on the upper surface of the supporting upright post 2, and the cantilever guide rail 22 is of a groove-shaped structure; the cantilever guide pin 31 is arranged on the supporting cantilever 3, the cantilever guide pin 31 can extend into the cantilever guide rail 22 and is matched with the cantilever guide rail 22 for guiding, and the cantilever guide pin 31 is contacted with the cantilever guide rail 22 to play a supporting role, namely, the supporting cantilever 3 is in a cantilever beam state, and meanwhile, the slewing bearing 6 and the cantilever guide pin 31 provide supporting force.

The cantilever locking device 32 used for tightly supporting and limiting the supporting upright post 2 is arranged on the supporting cantilever 3, the cantilever locking device 32 is a vertically arranged bolt and is in threaded connection and matched with the supporting cantilever 3, and the cantilever locking device 32 is tightly contacted and supported with the upper surface of the supporting upright post 2 when being screwed, so that the supporting cantilever 3 is limited to be unable to rotate.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (3)

1. A compact busbar compaction device, comprising:

A main workbench (1) for conveying dense buses;

The support upright post (2) is arranged on the main workbench (1);

The first end of the supporting cantilever (3) is rotatably arranged at the top end of the supporting upright post (2) through a vertical rotating shaft, and the supporting cantilever (3) can transversely rotate relative to the supporting upright post (2);

the stamping device (4) is arranged on the supporting cantilever (3) and can vertically and reciprocally translate and stamp the dense bus conveyed on the main workbench (1);

the upper end of the cantilever pull rod (5) is detachably connected with the second end of the supporting cantilever (3), and the lower end of the cantilever pull rod is connected with the main workbench (1);

One side of the main workbench (1) is transversely provided with an upright post sliding rail (11), and the other side is transversely provided with a pull rod sliding rail (12); the support upright post (2) can transversely move along the upright post sliding rail (11), and the cantilever pull rod (5) can transversely move along the pull rod sliding rail (12);

The support upright post (2) is provided with an upright post jacking bolt (21) for jacking and limiting with the main workbench (1);

The cantilever pull rod (5) comprises a sliding seat (51), a fixed seat (52) and a vertical rod (53);

The pull rod sliding rail (12) is a straight rod with a smooth appearance, and the sliding seat (51) is sleeved on the pull rod sliding rail (12) in a sliding manner; the fixed seat (52) is fixedly arranged at the second end of the supporting cantilever (3); two ends of the vertical rod (53) are respectively connected with the sliding seat (51) and the fixed seat (52);

Cylindrical rollers are arranged on the inner wall of the sliding chute of the sliding seat (51);

The support upright post (2) and the cantilever pull rod (5) are steel structure frames, and the support upright post (2) and the cantilever pull rod (5) are connected through a slewing bearing (6);

The upper surface of the supporting upright post (2) is provided with a circular arc cantilever guide rail (22), and a cantilever guide pin (31) arranged on the supporting cantilever (3) is matched and guided with the cantilever guide rail (22);

The supporting cantilever (3) is provided with a cantilever locking device (32) which is used for tightly supporting and limiting the supporting upright post (2).

2. The compact busbar compaction device according to claim 1, wherein the side walls of the vertical rods (53) are provided with U-shaped notches (531) near two ends respectively, and the connecting columns (54) protruding from the sliding seat (51) and the fixing seat (52) can extend into the U-shaped notches (531).

3. The compact busbar compaction device according to claim 2, wherein a lock lever (55) is mounted on the vertical rod (53), one end of the lock lever (55) is rotatably mounted on the vertical rod (53), and the other end of the lock lever can be detachably assembled with the vertical rod (53) through bolts.