CN216958808U - Power supply guide rail - Google Patents

Abstract

The utility model belongs to the technical field of electric power, and particularly discloses a power supply guide rail which comprises a plurality of guide rail bodies which are detachably connected, wherein each guide rail body is provided with a power supply end and a live wire conductive bar and a zero wire conductive bar which are respectively and electrically connected with the power supply ends, the power supply ends on two adjacent guide rail bodies are electrically connected, and the lengths of the live wire conductive bar and the zero wire conductive bar are matched with the length of the guide rail body and are arranged along the length direction of the guide rail body. By adopting the utility model, the cable length can be shortened, the cable abrasion can be prevented, and the power supply guide rail can be detached according to the use environment.

Description

Power supply guide rail

Technical Field

The utility model belongs to the technical field of electric power, and particularly relates to a power supply guide rail.

Background

The guide rail is also called a slide rail, a linear guide rail and a linear slide rail, and is a device for guiding mobile equipment and reducing friction, the mobile equipment is such as an electric hoist, a flat car and the like, when the existing mobile equipment is arranged on the power supply guide rail, the existing mobile equipment is electrically connected with an external mains supply by a cable, the cable synchronously moves along with the mobile equipment, the cable is long and the cable is abraded, and the power supply guide rail in the prior art is provided with a power supply structure, so the mobile equipment cannot be detached according to different use environments.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a power supply guide rail, which can shorten the length of a cable, prevent the cable from being worn and can be detached according to the use environment.

In order to solve the technical problems, the utility model adopts the technical scheme that:

the utility model provides a power supply guide rail, includes a plurality of guide rail bodies that can dismantle the connection, every all be equipped with the power supply end on the guide rail body and respectively with live wire busbar and zero line busbar that the power supply end electricity is connected, adjacent two the power supply end electricity on the guide rail body is connected, the length of live wire and zero line busbar all sets up with the length looks adaptation of guide rail body and the length direction along the guide rail body.

Further, the power supply end is for setting up respectively two of the both ends of guide rail body lead electrical pillar, two the one end of leading electrical pillar is connected with live wire busbar and zero line busbar electricity respectively, two the other end of leading electrical pillar all extends to the outside of guide rail body, and two adjacent guide rail bodies are through two the other end electricity of leading electrical pillar is connected, leads electrical pillar and is insulated with the guide rail body.

Further, the guide rail body includes a plurality of straight shape guide rails and four arc guide rails, live wire busbar and zero line busbar in the arc guide rail are the arc, and are a plurality of straight shape guide rail and four arc guide rail interconnect forms annular power supply guide rail.

Furthermore, the both ends of guide rail body are equipped with bolt and slot respectively, the bolt with slot looks adaptation, a plurality of the tip of guide rail body is passed through bolt and slot and is pegged graft in proper order.

Furthermore, two guide grooves which are arranged oppositely are formed in the guide rail body, and the live wire conductive strips and the zero wire conductive strips are arranged on one side between the two guide grooves.

Furthermore, two the guide way is equal level setting, live wire busbar and zero line busbar are located the top between two guide ways.

Furthermore, a groove for the electric connection end of the peripheral mobile equipment to extend into is arranged above the two guide grooves, the length of the groove is matched with that of the guide rail body, and the live wire conductive strip and the zero wire conductive strip are arranged in the groove.

Furthermore, the live wire conducting strip and the zero wire conducting strip are located on the same horizontal plane.

Furthermore, this internal insulation board that is equipped with of guide rail, the length of insulation board and the length looks adaptation of guide rail body, the one side that the guide rail body was kept away from to the insulation board is all located to live wire busbar and zero line busbar.

The utility model has the beneficial effects that:

by adopting the technical scheme provided by the utility model, the power connection end of the mobile equipment on the power supply guide rail is movably and electrically connected with the live wire conductive strip and the zero line conductive strip, and the live wire conductive strip and the zero line conductive strip are electrically connected with the commercial power, so that the commercial power can electrically supply power to the mobile equipment without a cable; the guide rail body is provided with the electric connection end, and two adjacent guide rail bodies are electrically connected through the electric connection end, so that the guide rail body can be separated only by separating the electric connection end when the power supply guide rail is disassembled, the guide rail is suitable for different use environments, and the applicability is wide.

Drawings

FIG. 1 is a schematic structural view of an annular power supply rail according to the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is a bottom view of FIG. 1;

FIG. 4 is a schematic structural view of the straight guide rail of the present invention;

FIG. 5 is a schematic structural view of the straight guide rail of the present invention with a mobile device disposed thereon;

description of the reference symbols:

1. a guide rail body; 11. a straight guide rail; 12. an arc-shaped guide rail; 13. a bolt; 14. a slot;

2. a power supply terminal;

3. a live conductor bar;

4. a zero line conductive bar;

5. a guide groove;

6. a groove;

7. an insulating plate;

8. a mobile device.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 3, a power supply guide rail includes a plurality of guide rail bodies 1 that can dismantle the connection, every all be equipped with power supply end 2 and live wire busbar 3 and zero line busbar 4 of being connected with power supply end 2 electricity respectively on the guide rail body 1, adjacent two 2 electricity connection of power supply end on the guide rail body 1, the length of live wire busbar 3 and zero line busbar 4 all sets up with the length looks adaptation of guide rail body 1 and along the length direction of guide rail body 1.

The use principle is as follows:

referring to fig. 1 to 5, the power connection end of the mobile device 8 on the power supply rail is in active electrical connection with the live conductor bar 3 and the neutral conductor bar 4, and the live conductor bar 3 and the neutral conductor bar 4 are in active electrical connection with the mains electricity, so that the mains electricity can supply power to the mobile device 8 without a cable, as further explained below, "the mobile device 8 can be supplied with power without a cable": when the mains supply supplies power to the live wire bus bar 3 and the zero line bus bar 4, a cable is still needed, the mobile equipment 8 is only directly supplied with power without the cable, and the power connection end of the mobile equipment 8 is directly electrically connected with the live wire bus bar 3 and the zero line bus bar 4, so that the mobile equipment 8 cannot drag the cable in the sliding process and cannot cause abrasion to the cable; when the power supply guide rail is disassembled, the guide rail body 1 can be separated only by separating the power connection end, so that the power supply guide rail is suitable for different use environments and has wide applicability; adopt this technical scheme can shorten cable length (need not directly to supply power for mobile device 8 with the cable promptly), prevent that cable wearing and tearing and power supply guide rail can dismantle according to service environment, extensive applicability.

Further, referring to fig. 1 to 3, the power supply end 2 is two conductive columns respectively disposed at two ends of the guide rail body 1, one end of each of the two conductive columns is electrically connected to the live line conductive bar 3 and the zero line conductive bar 4, the other end of each of the two conductive columns extends to the outside of the guide rail body 1, and two adjacent guide rail bodies 1 are electrically connected to the other end of each of the two conductive columns.

From the above description, it can be known that, by using the connection structure of the conductive posts, the adjacent guide rail bodies 1 can be electrically connected only by using a short connecting piece (such as a conductive sheet or a short cable), the connection structure is simple, and the structure using the utility model is more compact.

Further, referring to fig. 1 and 4, the guide rail body 1 includes a plurality of straight guide rails 11 and four arc-shaped guide rails 12, the live wire conductive strip 3 and the zero line conductive strip 4 in the arc-shaped guide rails 12 are both arc-shaped, and a plurality of the straight guide rails 11 and four arc-shaped guide rails 12 are connected to each other to form an annular power supply guide rail.

From the above description, the guide rail body 1 is configured as the straight guide rail 11 and the arc-shaped guide rail 12, and can be combined into a straight power supply guide rail or an annular power supply guide rail according to different use environments, so that the applicability is wide.

Further, referring to fig. 1, 2 and 4, two ends of the guide rail body 1 are respectively provided with a plug 13 and a slot 14, the plug 13 is matched with the slot 14, and the ends of the guide rail body 1 are sequentially inserted and connected through the plug 13 and the slot 14.

As can be seen from the above description, the guide rail body 1 adopts a detachable structure of the plug 13 and the slot 14, which is convenient for detachment.

Further, referring to fig. 3 and 4, two guide grooves 5 are oppositely arranged inside the guide rail body 1, and the live wire conductive strip 3 and the zero wire conductive strip 4 are both arranged on one side between the two guide grooves 5.

As will be appreciated from the above description, since the mobile device 8 is typically disposed between two guide slots 5, locating the live 3 and neutral 4 conductor bars on the same side between the two guide rails facilitates electrical connection of the power end of the mobile device 8 to the live 3 and neutral 4 conductor bars.

Further, referring to fig. 4, two of the guide slots 5 are both horizontally disposed, and the live conductor bar 3 and the neutral conductor bar 4 are disposed above the two guide slots 5.

From the above description, locate the top between two guide slots 5 with live wire busbar 3 and zero line busbar 4 and compare with the left and right sides that locates two guide slots 5 with live wire busbar 3 and zero line busbar 4, after the end of switching on of mobile device 8 is connected with live wire busbar 3 and zero line busbar 4 electricity, can make the end of switching on can not hinder the slip of mobile device 8, make the gliding more smooth and easy of mobile device 8.

Further, referring to fig. 4, a groove 6 for an electric connection end of a peripheral mobile device 8 to extend into is formed in the upper position between the two guide grooves 5, the length of the groove 6 is matched with that of the guide rail body 1, and the live wire conductive strip 3 and the zero wire conductive strip 4 are both arranged in the groove 6.

From the above description, it can be known that, locating live wire conducting strip 3 and zero line conducting strip 4 in groove 6 can prevent that mobile device 8 from moving the in-process, and the surface scratch live wire conducting strip 3 and zero line conducting strip 4 of mobile device 8 plays the guard action to live wire conducting strip 3 and zero line conducting strip 4.

Further, referring to fig. 4, the live conductor bar 3 and the neutral conductor bar 4 are located on the same horizontal plane.

As can be seen from the above description, the live conductor bar 3 and the zero conductor bar 4 are disposed on the same horizontal plane, so as to prevent the situation that the power connection end of the mobile device 8 is engaged with the live conductor bar 3 and the zero conductor bar 4 during the moving process.

Further, referring to fig. 4, an insulating plate 7 is arranged in the guide rail body 1, the length of the insulating plate 7 is matched with that of the guide rail body 1, and the live wire conductive strip 3 and the zero wire conductive strip 4 are both arranged on one surface, far away from the guide rail body 1, of the insulating plate 7.

As is apparent from the above description, the insulating plate 7 plays an insulating role to prevent the power supply rail surface from being electrified.

Application scenarios

This power supply guide rail is used with the cooperation of mobile device 8, can locate the wind-powered electricity generation cabin top with the power supply guide rail, installs a camera on mobile device 8 to control unit components operation, make the control room personnel in the booster station accomplish the relevant situation at the remote monitoring unit.

Embodiment one of the utility model

Referring to fig. 1 to 4, a power supply guide rail comprises a plurality of guide rail bodies 1 which are detachably connected, each guide rail body 1 is provided with a power supply end 2 and a live wire conductive bar 3 and a zero wire conductive bar 4 which are respectively electrically connected with the power supply end 2, wherein the two power supply ends are respectively connected with the power supply end 2, the two power supply ends 2 are respectively arranged at two ends of the guide rail body 1, one end of one of the two power supply ends is electrically connected with the live wire conductive bar 3, one end of the other power supply end is electrically connected with the zero wire conductive bar 4, the other end of the two power supply ends are respectively extended to the outside of the guide rail body 1, the two adjacent guide rail bodies 1 are respectively connected with four ends of the two adjacent guide rail bodies 1 by connecting pieces (such as a conductive piece or a short section cable), the other ends of the two power supply ends are electrically connected, the lengths of the live wire conductive bar 3 and the zero wire conductive bar 4 are respectively matched with the length of the guide rail body 1 and are arranged along the length of the guide rail body 1 The direction setting, here, further explains that "the lengths of the live wire conductive strip 3 and the zero wire conductive strip 4 are both adapted to the length of the guide rail body 1 and are set along the length direction of the guide rail body 1": the length adaptation means that the lengths of the live wire conductive strips 3 and the zero wire conductive strips 4 are adapted to the length of the guide grooves 5 on the guide rail body 1, that is, the lengths are adapted to the path of the moving path of the mobile device 8, and the arrangement along the length direction of the guide rail body 1 can also be substantially regarded that the shapes of the live wire conductive strips 3 and the zero wire conductive strips 4 are consistent with the shape of the path passed by the mobile device 8;

referring to fig. 3, two guide grooves 5 are arranged oppositely inside the guide rail body 1 of the present technical solution, the live wire conductive strip 3 and the zero wire conductive strip 4 are both arranged on one side between the two guide grooves 5, preferably, referring to fig. 3, the two guide grooves 5 are both horizontally arranged, a groove 6 for an electric connection end of an external mobile device 8 to extend into is arranged above the two guide grooves 5, the length of the groove 6 is adapted to the length of the guide rail body 1, the live wire conductive strip 3 and the zero wire conductive strip 4 are arranged in the groove 6 above the two guide grooves 5, and the live wire conductive strip 3 and the zero wire conductive strip 4 are located on the same horizontal plane, which is directly above the present embodiment and is referred to the placement angle of fig. 3;

referring to fig. 1 and 4, the guide rail body 1 of the present technical solution includes a plurality of straight guide rails 11 and four arc-shaped guide rails 12, wherein both the live wire conductive strips 3 and the zero wire conductive strips 4 in the arc-shaped guide rails 12 are arc-shaped, the four arc-shaped guide rails 12 are respectively arranged at four corners, and the four arc-shaped guide rails 12 are spliced by the plurality of straight guide rails 11 to form an annular power supply guide rail;

referring to fig. 1 and 4, the specific detachable structure of the guide rail body 1 of the present embodiment is: a plug pin 13 and a slot 14 are respectively arranged at two ends of each guide rail body 1, the plug pin 13 is matched with the slot 14, the end parts of a plurality of guide rail bodies 1 are sequentially inserted into the slot 14 through the plug pin 13 to form a power supply guide rail, in order to enhance the strength of the inserted power supply guide rail, a bolt structure can be arranged at the end part of each guide rail body 1, two adjacent guide rail bodies 1 are fixed by bolts, and a detachable structure can adopt other modes, which is not described in detail herein;

referring to fig. 1 and 4, in order to prevent the guide rail body 1 from being electrified, an insulating plate 7 is arranged in the guide rail body 1, the length of the insulating plate 7 is matched with that of the guide rail body 1, and the live wire conductive strip 3 and the zero wire conductive strip 4 are both arranged on one surface, far away from the guide rail body 1, of the insulating plate 7.

The specific use principle is as follows:

referring to fig. 1 to 5, the electrical connection structure of the mobile device 8 to the power supply rail: the method comprises the following steps that the electric connection end of the mobile equipment 8 is movably and electrically connected with a live wire conductive bar 3 and a zero line conductive bar 4, the electric connection end of the mobile equipment 8 can adopt a carbon brush structure, one surface of a carbon brush is in contact with the live wire conductive bar 3 and the zero line conductive bar 4, the carbon brush is electrically connected with a power device on the mobile equipment 8 through a lead, and as the live wire conductive bars 3 and the zero line conductive bars 4 on a plurality of guide rail bodies 1 are electrically connected through conductive columns, only one group of conductive columns are required to be electrically connected with commercial power, and the commercial power can supply power to the mobile equipment 8 through the live wire conductive bars 3 and the zero line conductive bars 4;

referring to fig. 1 to 4, the power supply rail is detached according to the usage environment: if need the camera on the mobile device 8 to carry out annular to wind-powered electricity generation cabin and encircle the control, then can splice annular power supply guide rail through a plurality of straight guide rails 11 and four arc guide rails 12, if only need the mobile device 8 to carry out when the straight line slides, only need with a plurality of straight guide rails 11 splice in proper order into straight power supply guide rail can, also can be through reducing or increasing the quantity of guide rail body 1, control power supply guide rail's length.

The above description is only an embodiment of the present invention, and is not intended to limit the scope of the present invention, and all equivalent modifications made by the present invention and the contents of the accompanying drawings, which are directly or indirectly applied to the related technical fields, are included in the scope of the present invention.

Claims (9)

1. A power supply rail, characterized by: including a plurality of guide rail bodies of dismantling the connection, every all be equipped with the live wire busbar and the zero line busbar that the power supply end electricity is connected respectively on the guide rail body, adjacent two the power supply end electricity on the guide rail body is connected, the length of live wire busbar and zero line busbar all sets up with the length looks adaptation of guide rail body and along the length direction of guide rail body.

2. A supply rail according to claim 1, characterized in that: the power supply end is for setting up respectively two of the both ends of guide rail body lead electrical pillar, two the one end that leads electrical pillar is connected with live wire busbar and zero line busbar electricity respectively, two the other end that leads electrical pillar all extends to the outside of guide rail body, and two adjacent guide rail bodies are through two the other end electricity of leading electrical pillar is connected.

3. A supply rail according to claim 1, characterized in that: the guide rail body includes a plurality of straight guide rails and four arc guide rails, live wire busbar and zero line busbar in the arc guide rail are the arc, and are a plurality of straight guide rail and four arc guide rail interconnect forms annular power supply guide rail.

4. A supply rail according to claim 1, characterized in that: the guide rail comprises a guide rail body and is characterized in that a bolt and a slot are respectively arranged at two ends of the guide rail body, the bolt is matched with the slot, and the end parts of the guide rail body are sequentially spliced through the bolt and the slot.

5. A supply rail according to claim 1, characterized in that: the guide rail body is internally provided with two oppositely arranged guide grooves, and the live wire conductive strip and the zero wire conductive strip are arranged on one side between the two guide grooves.

6. A supply rail according to claim 5, characterized in that: two the equal level setting of guide way, the top between two guide ways is located to live wire busbar and zero line busbar.

7. A supply rail according to claim 6, characterized in that: two the top position between the guide way is equipped with the recess that the power connection end that supplies the peripheral hardware mobile device stretches into, the length of recess and the length looks adaptation of guide rail body, live wire busbar and zero line busbar are all located in the recess.

8. A supply rail according to claim 6, characterized in that: and the live wire conducting strip and the zero wire conducting strip are positioned on the same horizontal plane.

9. A supply rail according to claim 1, characterized in that: this internal insulation board that is equipped with of guide rail, the length of insulation board and the length looks adaptation of guide rail body, the one side that the guide rail body was kept away from to the insulation board is all located to live wire busbar and zero line busbar.

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