KR20120041485A - A electric supply unit for an electric railcar - Google Patents

Abstract

PURPOSE: An electric supply device for an electric train is provided to accurately match a width and a height of a power supply rail by including a horizontal width controlling unit and a vertical height controlling unit. CONSTITUTION: An insulator(200) is installed in one end of a power supply rail(100). The insulator prevents electricity from the power supply rail from being conducted to the outside. A power supply rail support unit(300) supports the power supply rail. A horizontal width controlling unit(500) controls the horizontal width of the power supply rail support unit. A vertical height controlling unit controls the vertical height of the power supply rail.

Description

Ground Electric Supply Unit for Electric Vehicles {A Electric Supply Unit for an Electric Railcar}

The present invention relates to a ground electric supply device for an electric vehicle, and in particular, a power supply rail is installed on the side of a running rail, and a power supply rail support means for supporting the power supply rail is added to supply electric power from the ground. It relates to a ground electric supply device for an electric vehicle, characterized in that to ensure a stable supply.

An electric vehicle is a train operated by operating a control system by receiving electricity from a tram line (an electric wire installed in contact with a pantograph on an upper part of a motor vehicle). It is a principle driven by rotating the wheels of a vehicle by receiving power from the contact surface with a pantograph installed at the top of the electric vehicle to receive electricity from the tank line when the electric vehicle enters history.

In addition, an electric cable must be used to supply electric power to the electric vehicle. Since the electric cable must be located at the ceiling of the tunnel due to the structure of the electric vehicle, a device for fixing the electric cable is indispensable. The electric cable fixing device needs to have an excellent insulation property, a structure that is robust and safe, and an important function of elastically absorbing and dispersing vibration generated in the electric cable.

On the other hand, in the conventional structure for fixing the electric cable as shown in Figure 1 the upper fixed metal panel 2 and the hanger panel (3) is assembled horizontally, below the contact surface (1a) is inclined at the top Vertical support rod (1) having a fitted is assembled. The vertical support bar 1 is assembled with an insulator 4 made of porcelain, and an electric cable fixing bracket 5 is assembled under the insulator to fix the electric cable 7.

However, since the ceiling type cable structure is to be installed on the ground, it is very expensive to install the installation column, and the cable is exposed to the outside, so it is very likely to cause a safety accident such as an electric shock. High.

In particular, it is true that exposure to high voltage cables is very dangerous, such as children playing with aluminum balloons and having an electric shock in contact with the power cable.

The present invention is to solve the above problems,

The electric power rail is installed from the ground through the support to supply electric power to the electric vehicle, but the horizontal and vertical lengths of the support are easily adjusted to match the electric vehicle to provide an electric power supply device for ground electric vehicles that is stiffened and easy to install. There is a purpose.

As a means for achieving the above object,

The present invention has a cross-section made of I (eye) shape, the power supply rail 100 is coupled to the conductor 110 to supply power to the lower end; An insulator 200 installed at one end of the power supply rail 100 to block electricity generated through the power supply rail 100 from being electrically conductive; It serves to connect and support the power supply rail 100 through the insulator 200, and is disposed at regular intervals on the power supply rail 100 formed long in the longitudinal direction to stably support the concrete floor surface. A power supply rail support means 300 for placing the power supply rail 100 on the ground in a state spaced apart from the bottom by a predetermined distance; It is installed in the form of a rectangular panel on the lower end of the rail support means 300 for the power supply, the long hole 510 is formed long in the transverse direction of the panel and the power supply consisting of a bolt 520 coupled to the long hole 510 Rail horizontal width adjusting means 500 for adjusting the horizontal width of the rail support means for 300; A rectangular parallelepiped structure inserted into and coupled to the inner side of the power supply rail support means 300 to form a vertical through hole 610 and a horizontal through hole 620, and to form a screw thread in the vertical through hole 610 to supply power. The bolt 630 is coupled vertically from the upper portion of the rail support means 300 to the vertical through hole 610, and the rail support means 300 for power supply by clockwise and counterclockwise rotation of the bolt 630. It characterized in that it comprises a rail vertical height adjusting means 600 for adjusting the vertical height of the power supply rail 100 by flowing up and down the rectangular parallelepiped structure from the inside.

In addition, the rail support means 300 for the power supply is made in the form of a rectangular panel or an angle pipe, the power supply rail 100 is fixed through the upper end of the rectangular panel or the angle pipe (100) A vertical support 310 for fixing the insulator 200 coupled with the bolt; An inclined support 320 formed in a rectangular panel or an angular pipe and connected to the lower end of the vertical support 310 to support the vertical support 310 in an inclined shape; It is made in the form of a rectangular panel or an angle pipe, connected to the bottom of the inclined support 320 is installed horizontally on the concrete floor so that the rail for power supply 100 is spaced apart a certain distance in a horizontal direction from the running rail Characterized in that it comprises a horizontal support 330 to.

In addition, it is installed between the concrete floor and the power supply rail support means, characterized in that it further comprises a dust-proof rubber 400 to block the vibration generated from the concrete floor surface to be transmitted to the horizontal support (330) to be.

In addition, one side of the power supply rail support means 300 is provided with a laser firing apparatus 700, the side of the vertical support 310 is further formed through the hole 710 through which the laser passes, the vertical height Characterized in that formed by further forming a through-hole 660 through which the laser passes on one side of the adjusting means (600).

As described above, the present invention installs a power line rail through a support on the ground to supply power to the electric vehicle, but by easily adjusting the horizontal length and the vertical length of the support to be matched, the stiffness reinforced and easy to install the electric vehicle for the ground. It is effective to provide an electric supply device.

1 is a configuration diagram of a conventional electric vehicle electric cable installation.
Figure 2 is an overall configuration diagram of the ground electric supply device of the electric vehicle of the present invention.
Figure 3 is a configuration of the rail vertical height adjustment means of the present invention.
Figure 4 is a front view of the ground electric supply device of the electric vehicle of the present invention.
Figure 5 is a right side view of the ground electric supply device of the electric vehicle of the present invention.
Figure 6 is a plan view of the ground electric supply device of the electric vehicle of the present invention.
Figure 7 is an embodiment provided with a laser firing device on the forward electricity supply device of the electric vehicle of the present invention.
Figure 8 is an embodiment of the rail vertical height adjustment means of the present invention.
Figure 9 is an installation example applying the ground electric supply device of the electric vehicle of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom. Therefore, the definition should be based on the contents throughout the present title.

In addition, preferred embodiments of the present invention to be carried out below are already provided in each system functional configuration to efficiently describe the technical components constituting the present invention, or system functions commonly provided in the technical field to which the present invention belongs. The configuration will be omitted, and described mainly on the functional configuration to be additionally provided for the present invention.

If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components already used in the prior art among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the following examples will be used to properly change the terms so that those skilled in the art to clearly understand the key technical features of the present invention to clearly understand, thereby the invention It is by no means limited.

Figure 2 is an overall configuration diagram of the ground electric supply device of the electric vehicle of the present invention.

Figure 3 is a configuration of the rail vertical height adjustment means of the present invention.

Figure 4 is a front view of the ground electric supply device of the electric vehicle of the present invention.

Figure 5 is a right side view of the ground electric supply device of the electric vehicle of the present invention.

Figure 6 is a plan view of the ground electric supply device of the electric vehicle of the present invention.

Figure 9 is an installation example applying the ground electric supply device of the electric vehicle of the present invention,

The components of the present invention are largely the power supply rail 100, the insulator 200, the power supply rail support means 300, the anti-vibration rubber 400, the rail horizontal width adjustment means 500 and , Rail vertical height adjustment means (600).

The power supply rail 100 has a structure very similar to that of a conventional electric vehicle rail, and its cross section forms an I (eye) shape. And, the lower end of the power supply rail is made of a conductor 110 for supplying power.

The insulator 200 is installed at one end of the power supply rail and serves to block electricity generated through the power supply rail from being electrically conductive.

The power supply rail support means 300 serves to connect and support the power supply rail through the insulator, and is coupled to the power supply rail formed long in the longitudinal direction at a predetermined interval to stably the concrete floor surface. Support the power supply rail to be installed on the ground spaced a certain distance from the floor.

In addition, the rail support means 300 for power supply is composed of a vertical support 310, the inclined support 320 and the horizontal support (330).

The vertical support 310 is formed in the form of a rectangular panel or an angular pipe, the power supply rail is fixed through the upper end of the rectangular panel or angular pipe, but the power supply by fixing the insulator coupled to the power supply rail with bolts. It supports the rails in the vertical direction to serve as a distance apart from the concrete floor surface in a vertical direction by a certain distance.

The inclined support 320 is formed in the form of a rectangular panel or an angular pipe, is connected to the lower end of the vertical support and serves to support the vertical support in an inclined form.

The horizontal support 330 is formed in the form of a rectangular panel or an angular pipe, connected to the bottom of the inclined support, but installed horizontally on the concrete floor surface so that the rail for power supply is spaced apart a certain distance in the horizontal direction from the traveling rail Play a role.

The anti-vibration rubber 400 is installed between the concrete floor surface and the horizontal support and serves to block the vibration generated from the concrete floor surface to be transmitted to the horizontal support.

The horizontal rail width adjusting means 500 is composed of a long hole 510 formed in the horizontal direction of the horizontal support 330, and a bolt 520 coupled to the long hole, by using the long hole 510 After moving the horizontal support 330 a certain distance in the horizontal direction by adjusting the horizontal length of the horizontal support 330 by coupling the bolt 520 through the long hole 510. Therefore, the horizontal moving distance of the power supply rail 100 is adjusted.

The rail vertical height adjusting means 600 is a rectangular parallelepiped shape that is inserted into and coupled to the inner side of the vertical support 310 to form a vertical through hole 610 and a horizontal through hole 620, and a vertical through hole 610. The bolts 630 are formed vertically from the top of the vertical support 310 to the vertical through holes, and are vertically moved up and down from the inside of the vertical support by the clockwise and counterclockwise rotation of the bolt 630. By adjusting the vertical height of the rail 100 for power supply. Reference numeral 640 denotes a bolt for fixing the insulator, and 650 is a long hole for allowing the bolt for fixing the insulator to flow.

In addition, the present invention is provided with a plurality of rail support means 300 for power supply at a predetermined interval, the power supply rail is manufactured in the form of a straight line exactly match the horizontal and vertical distance of the rail support means for power supply I need to.

Of course, by using a tape measure or the like, the horizontal distance of the horizontal support 330 of each rail supply means 300 for power supply and the vertical distance of the vertical support 310 can be matched, but the concrete floor surface is Since it is not completely uneven, when the distance of the horizontal support and the vertical support is the same as the tape measure on the basis of the concrete floor, there is a problem that the mutual separation width of the rail support means for power supply does not match.

That is, the height of the vertical support 310 must be slightly different according to the height difference of the bottom surface, and the width of the horizontal support 330 can only be slightly different according to the installation accuracy of the running rail. will be.

Therefore, in order to solve this problem in the present invention, as shown in Figs. 7 and 8, the laser launching apparatus 700 is added to the rail support means 300 for power supply, and the electric power is supplied thereto. After forming a through hole 710 through which the laser passes through one side of the vertical support (310) of the rail support means for, and forming a through hole 660 through which the laser passes through one side of the rail vertical height adjusting means (600), The laser is emitted from the laser launching apparatus 700 so as to pass the through hole of the vertical support 310 and the through hole of the rectangular parallelepiped structure so that the width and height of the rail for power supply are exactly matched.

That is, since the laser launching apparatus 700 has a strong straightness, the laser launching apparatus 700 continuously progresses through the laser passing holes 710 and 660 of the vertical support 310 and the rail vertical height adjusting means 600, wherein the laser is Vertical support 310 that does not pass through the through holes (710, 660) is adjusted by the rail vertical height adjusting means 600, and at the same time by adjusting the horizontal support 330 to the horizontal width adjusting means 500, the laser through Pass (710, 660). When the laser passes through the through holes 710 and 660 of the vertical support 310 and the rail vertical height adjusting means 600 by using the rail horizontal width adjusting means 500 and the rail vertical height adjusting means 600. The installation width and height of the power supply rail 100 are completely matched.

In this way, the horizontal width and the vertical height of the rail support means 300 for power supply can be consistently matched.

Therefore, when the horizontal width and the vertical height of the power supply rail support means 300 are equally matched as described above, the power supply rail 100 extending in a straight line can be accurately seated.

Hereinafter, the installation method of the present invention will be described sequentially.

According to the present invention, a vertical support 310, an inclined support 320, and a horizontal support 330 are used as the power supply rail 100, the insulator 200, and the power supply rail support means 300. Equipped. Then, the anti-vibration rubber 400, the rail horizontal width adjusting means 500, and the rail vertical height adjusting means 600 is provided.

When the constituent means are provided, first, the anti-vibration rubber 400 is installed on the concrete floor and the rail support means 300 for power supply is installed thereon.

The vertical support 310 and the inclined support 320 and the horizontal support 330 constituting the rail support means 300 for power supply are configured in the form of a rectangular panel or an angular pipe, and the vertical support The 310 and the inclined support 320 and the horizontal support 330 are provided to be coupled to each other or integrally formed by bending or welding.

At this time, the vertical support (310) and the horizontal support (330) is formed in each of the long holes (510, 640) in advance so that the width and height of the power supply rail 100 can be adjusted.

In addition, a rail vertical height adjusting means 600 is inserted into the vertical support 330, and a bolt 630 is coupled to the rail vertical height adjusting means 600 in a vertical direction.

In this state, the horizontal support 310 flows to adjust the width and height of the rail support means 300 for power supply, but flows from the upper rail horizontal width adjusting means 500 to the bolt 520 at one side of the long hole 510. ) Is coupled and fixed, and the rail vertical height adjusting means 600 flows up and down inside the vertical support 310 to adjust the height of the point where the rail is to be installed.

More specifically, the rail vertical height is adjusted by rotating the bolt 630 coupled to the vertical through hole 610 of the rail vertical height adjusting means 600 installed in the vertical support 310 in a clockwise or counterclockwise direction. When the means 600 flows vertically and the flow is completed, the bolts 650 are coupled to the horizontal through holes 620 to couple the insulator 200. Then, the power supply rail 100 is coupled to the insulator 200 to complete the installation of the power supply means for the electric vehicle.

On the other hand, as shown in Figure 7 and 8 the present invention can adjust the horizontal width and vertical height of the power supply rail 100 using a laser bar, one power supply rail support means 300 As a reference, the laser launcher 700 is disposed, wherein the laser launcher 700 is formed in the state in which the laser passing holes 710 and 660 are formed in the vertical support 310 and the rail vertical height adjusting means 600. And fires the laser into the laser passing holes 710 and 660.

Then, if the horizontal width and the vertical height of the vertical support 310 does not match, the laser does not penetrate the laser passing holes 710 and 660, so that a laser is formed around the vertical support 310. In this case, the vertical support 310 The laser is adjusted to penetrate the laser passing holes 710 and 660 by moving the rail vertical height adjusting means 600 and the horizontal support 310 which are mounted on the panel.

By adjusting the height and width of the power supply rail support means 300 sequentially in this manner, it is possible to arrange them to be aligned in a straight line. In this state, when the power supply rail 100 is installed, it is perfectly straight. Are combined.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention.

That is, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the scope of the technical spirit of the present invention by these embodiments.

Therefore, the protection scope of the present invention should be interpreted by the claims below, and all technical ideas within the equivalent scope will be construed as being included in the scope of the present invention.

100: rail for power supply
200: insulator
300: rail support means for power supply
310: vertical support
320: inclined support
330: horizontal support
400: dustproof rubber
500: rail horizontal width adjustment means
600: rail vertical height adjustment means
700: laser launch device

Claims (4)

A power supply rail (100) having a cross section having an I-shaped shape and having a conductor 110 for supplying power to a lower end thereof;
An insulator 200 installed at one end of the power supply rail 100 to block electricity generated through the power supply rail 100 from being electrically conductive;
It serves to connect and support the power supply rail 100 through the insulator 200, and is coupled to the power supply rail 100 formed in the longitudinal direction at regular intervals to stably support the concrete floor surface. A power supply rail support means 300 for placing the power supply rail 100 on the ground in a state spaced apart from the bottom by a predetermined distance;
It is installed in the form of a rectangular panel on the lower end of the rail support means 300 for the power supply, the long hole 510 is formed long in the transverse direction of the panel and the power supply consisting of a bolt 520 coupled to the long hole 510 Rail horizontal width adjusting means 500 for adjusting the horizontal width of the rail support means for 300;
A rectangular parallelepiped structure inserted into and coupled to the inner side of the power supply rail support means 300 to form a vertical through hole 610 and a horizontal through hole 620, and to form a screw thread in the vertical through hole 610 to supply power. The bolt 630 is coupled vertically from the upper portion of the rail support means 300 to the vertical through hole 610, and the rail support means 300 for power supply by clockwise and counterclockwise rotation of the bolt 630. Ground electric supply device for an electric vehicle, comprising a rail vertical height adjusting means for adjusting the vertical height of the power supply rail 100 by flowing up and down inside the. The method of claim 1,
The rail support means 300 for power supply,
It is made in the form of a rectangular panel or an angle pipe, and the power supply rail 100 is fixed through the upper end of the rectangular panel or the angle pipe, but the insulator 200 coupled with the power supply rail 100 by bolts A vertical support 310;
An inclined support 320 formed in a rectangular panel or an angular pipe and connected to a lower end of the vertical support 310 to support the vertical support 310 in an inclined shape;
It is made in the form of a rectangular panel or an angle pipe, is connected to the lower portion of the inclined support 320 is installed horizontally on the concrete floor surface so that the power supply rail 100 is spaced apart a certain distance in a horizontal direction from the concrete floor surface Ground electric supply device for an electric vehicle, characterized in that it comprises a horizontal support (330) to be configured. The method of claim 1,
It is installed between the concrete floor and the rail support means for power supply and characterized in that it further comprises a dust-proof rubber 400 to block the vibration generated from the concrete floor surface to be transmitted to the horizontal support (330) Ground power supply for electric vehicles. The method of claim 1,
On one side of the power supply rail support means 300 is installed a laser launching device 700, the side of the vertical support 310 to form a through-hole 710 through which the laser passes, vertical height adjustment means 600 Ground electric supply device for an electric vehicle, characterized in that formed on one side of the through-hole 660 through which the laser passes.

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