CN210536247U

CN210536247U - Self-coupling type intensive bus duct and bus

Info

Publication number: CN210536247U
Application number: CN201921438175.5U
Authority: CN
Inventors: 晏熙
Original assignee: Sichuan Wankong Electric Complete Co ltd
Current assignee: Sichuan Wankong Electric Complete Co ltd
Priority date: 2019-08-30
Filing date: 2019-08-30
Publication date: 2020-05-15
Anticipated expiration: 2029-08-30

Abstract

The utility model provides a self-coupling intensive bus duct and a bus, which are used for clamping and fixing a conductive copper bar, and comprise side plates, wherein the side plates are attached to two sides of the width direction of the conductive copper bar; the cover plates are attached to two longitudinal sides of the linear part of the conductive copper bar, and the side plates are in close sliding fit with the cover plates; and the mounting, it is used for with the apron tip with curb plate end connection and fixed, this application through special curb plate and apron structure, through inseparable sliding fit, has saved a large amount of screws that required when assembling the bus duct, and compare in current bus duct, the installation and dismantlement are all more convenient and safe.

Description

Self-coupling type intensive bus duct and bus

Technical Field

The utility model relates to a bus duct field, concretely relates to intensive bus duct and generating line.

Background

With the emergence of modern engineering facilities and equipment, the power consumption of various industries is increased rapidly, particularly, the appearance of numerous high-rise buildings and large-scale factory workshops, the traditional cable serving as a power transmission lead cannot meet the requirement in a large-current transmission system, and the parallel connection of multiple cables brings inconvenience to on-site installation, construction and connection. The plug-in type bus duct is produced as a novel distribution wire, and compared with the traditional cable, the plug-in type bus duct fully embodies the superiority thereof in large current transmission.

What adopt between the upper and lower apron of intensive bus duct on the market and the curb plate is that rivet or screw are connected fixedly, consequently, just need a large amount of rivets or screws on the whole section bus, this just leads to current bus duct structural instability, still can lead to rivet or screw not in place because of carelessness or the error of factory staff, forms the potential safety hazard, and difficult dismouting, the problem that above-mentioned field needs to be solved urgently.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can effectively reduce the intensive bus duct of self coupling formula of installation screw.

In order to solve the technical problem, the utility model provides a scheme is: a self-coupling intensive bus duct is used for clamping and fixing a conductive copper bar and comprises side plates, a first clamping plate and a second clamping plate, wherein the side plates are attached to two sides of the width direction of the conductive copper bar; and

the cover plates are attached to two longitudinal sides of the linear part of the conductive copper bar, and the side plates are in close sliding fit with the cover plates; and

and the fixing piece is used for connecting and fixing the end part of the cover plate and the end part of the side plate.

Further, the method comprises the following steps: the copper drainage flat turning cover is characterized by further comprising horizontal bent joints, wherein the horizontal bent joints are attached to two longitudinal sides of the conductive copper drainage flat turning part, and the side edges, close to the linear part of the conductive copper row, of the horizontal bent joints are in close sliding fit with the cover plate.

Further, the method comprises the following steps: the cover plate is characterized by further comprising vertical bent connectors, the vertical bent connectors are attached to the upper side and the lower side of the vertical bent portion of the conductive copper bar, and the vertical bent connectors are close to the side edges of the linear portion of the conductive copper bar and are in close sliding fit with the cover plate.

Further, the method comprises the following steps: the side plate comprises a side plate body and plug-in components, the side plate body is attached to the two sides of the width direction of the conductive copper bar, the plug-in components are arranged on the two longitudinal sides of the side plate body, the cover plate faces to one side of the side plate and is provided with a clamping groove, and the plug-in components can be in close sliding fit with the clamping groove.

Further, the method comprises the following steps: the horizontal elbow joint comprises a horizontal elbow groove, the horizontal elbow groove is used for clamping the horizontal turning portion of the conductive copper bar and the side plate attached to the horizontal turning portion of the conductive copper bar, the horizontal elbow joint is close to the side edge of the linear portion of the conductive copper bar, and the plug assembly is clamped in a sliding mode.

Further, the method comprises the following steps: the vertical elbow joint comprises a vertical inner joint and a vertical outer joint, a first vertical elbow groove is arranged on the vertical outer joint and is used for clamping the vertical turning part of the conductive copper bar and the side plate attached to the vertical turning part of the conductive copper bar,

the vertical inner connector is provided with a second vertical bent groove which is used for clamping the vertical turning part of the conductive copper bar and the side plate attached to the vertical turning part of the conductive copper bar,

the side edges of the vertical outer joint and the vertical inner joint, which are close to the linear part of the conductive copper bar, are provided with plug components, and the plug components can be clamped in a sliding manner to the side edges of the cover plate, which are close to the vertical bent joint.

Further, the method comprises the following steps: the one side of apron keeping away from the curb plate is provided with the spout, plug assembly includes first plug and second plug, the second plug is located first plug is close to one side of curb plate, first plug with be used for the block between the second plug the apron border, first plug slidable insert extremely in the spout.

The application further provides an intensive bus, including above-mentioned bus duct to and towards the electrically conductive copper bar of single direction extension.

The application further provides an intensive bus, including above-mentioned bus duct to and the electrically conductive copper bar that has horizontal corner.

The application further provides an intensive bus, including above-mentioned bus duct to and the conductive copper bar bus that has perpendicular corner.

The utility model has the advantages that: this application is through special curb plate and apron structure, through inseparable sliding fit, has saved required a large amount of screws when assembling the bus duct, and compares in current bus duct, and the installation is all more convenient and safety with the dismantlement.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present application;

FIG. 2 is an exploded view of a first embodiment of the present application;

FIG. 3 is a front view of a first embodiment of the present application;

FIG. 4 is a perspective view of a second embodiment of the present application;

FIG. 5 is a schematic view of a horizontal elbow;

FIG. 6 is a perspective view of a third embodiment of the present application;

FIG. 7 is a schematic view of a vertical inner joint;

FIG. 8 is a schematic view of the vertical external joint;

the reference numbers are as follows: the conductive copper bar 1, the side plate 2, the side plate body 21, the plug-in component 22, the cover plate 3, the sliding groove 31, the clamping groove 32, the fixing component 4, the horizontal bent joint 5, the horizontal bent groove 51, the vertical bent joint 6, the vertical inner joint 61, the first vertical bent groove 611, the vertical outer joint 62, the second vertical bent groove 621, the plug component 7, the first plug 71 and the second plug 72.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

As shown in fig. 1 to 8, the self-coupling compact busway for clamping and fixing the conductive copper bar 1 comprises a side plate 2 and a cover plate 3, wherein the side plate 2 and the cover plate 3 clamp and fix the conductive copper bar 1 in the width direction and the longitudinal direction of the conductive copper bar 1.

This application is defined as length direction with the extending direction of electrically conductive copper bar 1, perpendicular to length direction's horizontal direction is defined as width direction, wherein, curb plate 2 laminates in the left and right sides of electrically conductive copper bar 1, apron 3 laminates in the upper and lower both sides of 1 sharp portion of electrically conductive copper bar, curb plate 2 and the inseparable sliding fit of apron 3, and is concrete, curb plate 2 includes curb plate body 21 and plug-in components 22, curb plate body 21 laminates in the both sides of 1 width direction of electrically conductive copper bar, plug-in components 22 are fixed in the upper and lower both sides of curb plate body 21 and extend along with curb plate 2 is whole, in this application, plug-in components 22 and curb plate body 21 can adopt integrated into one piece, apron 3 is provided with draw-in groove 32 towards one side of curb plate 2.

This application still includes mounting 4, and this mounting 4 sets up in the tip of electrically conductive copper bar 1, and it is used for 3 tip of apron and 2 end connection of curb plate and fixed, and in a preferred embodiment, mounting 4 includes the apron head, has seted up the through-hole on the apron head, passes above-mentioned through-hole through the self tapping screw and links together apron 3 and curb plate 2, can set up sealed lid on the apron head in order to seal the self tapping screw.

As shown in fig. 1 to 3, use linear type conductive copper bar 1 as an example, this application is when the assembly, utilize pneumatic clamping tool to make conductive copper bar 1 left and right sides and curb plate 2 laminating fixed, then the apron 3 of upper and lower both sides slides in plug-in components 22 from lateral wall length direction's one end through draw-in groove 32 on the apron 3 respectively, assemble apron 3 with curb plate 2, utilize the inflation of copper bar, loosen clamping tool, interior outer panel 2 is natural to the expansion, thereby accomplish the fixed of apron 3 and curb plate 2, the two is no longer slided, after that connect fixedly curb plate 2 and the part that apron 3 is located conductive copper bar 1 both ends through mounting 4, accomplish the assembly promptly.

As shown in fig. 4 and fig. 5, in some embodiments, the copper busbar 1 further has a horizontal turning portion, the side plate 2 and the cover plate 3 need to be spliced at the turning portion, and the side plate 2 and the cover plate 3 are not well fixed at the turning portion only by the connection manner of the clamping groove 32 and the plug 22, therefore, in this embodiment, a horizontal elbow connector 5 is further provided, the horizontal elbow connector 5 is attached to the upper side and the lower side of the horizontal turning portion of the copper busbar 1, the side edge of the horizontal elbow connector 5 close to the linear portion of the copper busbar 1 is closely and slidably fitted with the cover plate 3, specifically, one side of the horizontal elbow connector 5 facing the copper busbar 1 is provided with a horizontal elbow groove 51, the horizontal elbow groove 51 is used for clamping the horizontal turning portion of the copper busbar 1 and the common longitudinal end face of the side plate 2 attached to the horizontal turning portion of the copper busbar 1, the side edge of the horizontal elbow connector 5 close to the linear portion of, the plug assembly 7 can be slidably clamped with the side edge of the cover plate 3 close to the horizontal elbow joint 5.

For the convenience of understanding, the present application describes a specific installation manner of the horizontal elbow connector 5, first, the copper bar and the outer shell of the inner and outer side plates 2 are fixed by using a pneumatic clamping tool, at this time, the upper and lower side surfaces of the horizontal elbow portion are jointly formed by one surface of the plug-in component 22 on the side plate 2, which is far away from the side plate body 21, and the longitudinal side surface of the conductive copper bar 1, at this time, the horizontal elbow connector 5 is covered on the upper and lower sides thereof, so that the horizontal elbow groove 51 jointly clamps the plug-in component 22 and the conductive copper bar 1, then, one end of the side plate 2, which is far away from the horizontal elbow connector 5, is inserted into the cover plate 3 and connected with the horizontal elbow connector 5, and the side edge of the cover.

In addition, as shown in fig. 6 to 8, in some embodiments, the copper busbar 1 further has a vertical turning portion, and therefore the present application further includes a vertical elbow joint 6, the vertical elbow joint 6 is attached to the upper and lower sides of the vertical turning portion of the copper busbar 1, the side edge of the vertical elbow joint 6 near the linear portion of the copper busbar 1 is closely matched with the cover plate 3 in a sliding manner, specifically, the vertical elbow joint 6 includes a vertical inner joint 61 and a vertical outer joint 62, the vertical outer joint 62 is disposed on the outer side of the vertical turning portion, the vertical inner joint 61 is disposed on the inner side of the vertical turning portion, the vertical outer joint 62 is provided with a first vertical elbow groove 611, the first vertical elbow groove 611 is used for being clamped at the common outer corner of the copper busbar 1 and the side plate 2 of the vertical turning portion, the vertical inner joint 61 is provided with a second vertical elbow 621, the second vertical elbow 621 is used for being clamped at the common inner corner of the copper busbar 1 and the side plate, the vertical outer joint 62 and the vertical inner joint 61 are both fixed with a plug assembly 7 at the side edge close to the linear part of the conductive copper bar 1, and the plug assembly 7 can be slidably clamped with the side edge of the cover plate 3 close to the vertical elbow joint.

The connection mode of the vertical elbow joint is similar to that of the horizontal elbow joint 5, the vertical outer joint 62 and the vertical inner joint 61 are respectively located on the inner corner and the outer corner of the vertical elbow through the first vertical elbow groove 611 and the second vertical elbow groove 621, the conductive copper bar 1 and the plug-in piece 22 are clamped simultaneously, and then the cover plate 3 is installed, so that the cover plate 3 is fixedly connected with the vertical elbow joint 6.

In the two embodiments, the vertical elbow connector 6 and the horizontal elbow connector 5 both include the plug assembly 7, specifically, the plug assembly 7 includes a vertical first plug 71 and a horizontal second plug 72, the second plug 72 is closer to the side plate 2, a certain gap exists between the first plug 71 and the second plug 72, the gap is used for clamping the edge of the cover plate 3, in addition, a protruding sliding slot 31 is fixed on one surface of the cover plate 3 away from the side plate 2, the sliding slot 31 protrudes out of the cover plate 3 and is located on both sides of the cover plate 3 in the width direction, after the horizontal elbow connector 5 or the vertical elbow connector 6 is installed, the cover plate 3 is pushed in, at this time, the first plug 71 can be slidably inserted into the sliding slot 31, and when the first plug 71 is completely inserted into the sliding slot 31, the gap between the first plug 71 and the second plug 72 can be used for clamping and fixing the edge of the cover plate 3.

This application is through special curb plate 2 and apron 3 structure, through inseparable sliding fit, has saved required a large amount of screws when assembling the bus duct, and compare in current bus duct, and the installation is all more convenient with the dismantlement, and the appearance is also more pleasing to the eye.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims

1. The self-coupling intensive bus duct is used for clamping and fixing a conductive copper bar and is characterized by comprising side plates, a first clamping plate and a second clamping plate, wherein the side plates are attached to two sides of the conductive copper bar in the width direction; and

2. The self-coupling compact busway of claim 1, further comprising horizontal elbow joints attached to longitudinal sides of the horizontal turning section of the copper busbar, wherein the lateral edges of the horizontal elbow joints adjacent to the straight section of the copper busbar are in close sliding fit with the cover plate.

3. The self-coupling intensive bus duct of claim 1, further comprising vertical bent connectors attached to upper and lower sides of the vertical bent portion of the copper bar, wherein the side edges of the vertical bent connectors adjacent to the straight portion of the copper bar are in close sliding fit with the cover plate.

4. The self-coupling compact busway of claim 1, wherein the side plate comprises a side plate body and plug-in units, the side plate body is coupled to two sides of the width direction of the conductive copper bar, the plug-in units are disposed on two longitudinal sides of the side plate body, a clamping groove is disposed on one side of the cover plate facing the side plate, and the plug-in units can be tightly and slidably fitted with the clamping groove.

5. The self-coupling intensive bus duct of claim 2, wherein the horizontal elbow comprises a horizontal elbow for engaging the horizontal elbow of the copper busbar and the side plate attached to the horizontal elbow of the copper busbar, and a plug assembly is disposed on the side edge of the horizontal elbow adjacent to the straight portion of the copper busbar and slidably engages the side edge of the cover plate adjacent to the horizontal elbow.

6. The self-coupling compact busway of claim 3, wherein the vertical elbow comprises a vertical inner joint and a vertical outer joint, the vertical outer joint having a first vertical elbow for engaging the copper busbar vertical turn and the side plate engaging the copper busbar vertical turn,

7. The self-coupling type intensive bus duct of claim 5 or 6, wherein a sliding groove is formed in a side of the cover plate away from the side plate, the plug assembly comprises a first plug and a second plug, the second plug is positioned on a side of the first plug close to the side plate, the first plug and the second plug are used for clamping the edge of the cover plate, and the first plug can be slidably inserted into the sliding groove.

8. A concentrated bus bar comprising the self-coupled concentrated bus bar slot of claim 1 or 4, and a row of electrically conductive copper extending in a single direction.

9. A concentrated bus bar comprising the self-coupled concentrated bus bar trough of claim 2, 5 or 7, and a bar of electrically conductive copper having horizontal corners.

10. A concentrated bus bar comprising the self-coupled concentrated bus duct of claim 2, 5 or 7, and a conductive copper bar bus bar having vertical corners.