KR101276803B1 - A electric power supply device for heavy - Google Patents

Abstract

The present invention relates to a power supply device for heavy equipment, to prevent damage and breakage of the wire cable by improving the structure of the power supply device for supplying power to the heavy equipment.
The present invention for realizing this, the main post 10 is fixed to the ground in a vertical direction, and the guide boom 20 is coupled to the upper end of the main post 10 in the horizontal direction to guide the power supply cable 100 for power supply And a sub-post 30 installed in the heavy equipment 200 to support the wire cable 100 extending from the guide boom 20, the guide boom 20. One end of the cable support (40) for preventing the bending of the wire cable 100 is characterized in that it is configured.

Description

Power Supply for Heavy Equipments {A ELECTRIC POWER SUPPLY DEVICE FOR HEAVY}

The present invention relates to a power supply for heavy equipment, and more particularly to a power supply for supplying power for driving heavy equipment, such as excavators, cranes.

In general, heavy equipment such as excavators, cranes, etc. are provided with a driving means for moving most of the structure is configured to obtain the required power by driving the engine by burning fuel such as diesel.

Conventionally, such heavy equipment such as excavators are used in various fields used to transport digging, scrap metal to cutters or compressors in construction sites, foundries or waste treatment businesses.

Heavy equipment such as excavators used for the above uses use fuel such as diesel to drive the engine even though it is not necessary to travel a long distance.

Then, when the engine is running, noise is generated a lot, and fuel is expensive, so maintenance costs are high. In particular, there is a problem such as contaminating the ground with oil and oil leaks.

Therefore, in recent years, by supplying electricity to heavy equipment such as excavators working within a certain radius to drive a hydraulic pump by a motor is used to modify to achieve the desired purpose.

However, the heavy equipment such as the excavator thus modified continuously moves within the working radius, so that the electric wire is damaged and the electric supply is interrupted, or the electric wire is interrupted, and thus the equipment cannot move smoothly within the working radius.

In order to solve such problems, various technologies have been proposed. However, in the case of a seesaw type which is structurally complicated and particularly designed to enable the use of electric wires flexibly, there is no means to control the excavator even if it deviates from the working radius Therefore, there are frequent cases of disconnection, which leads to a decrease in work efficiency and a high maintenance cost.

The present invention has been proposed to improve the above problems in the prior art, to improve the working efficiency by preventing the wire cable from being bent or damaged at the connection part during the flow of the position of the heavy equipment during the operation process The purpose is to.

The present invention for achieving the above object is a main post fixed to the ground in the vertical direction, the guide boom coupled to the upper end of the main post in the horizontal direction to guide the electric power supply cable, and the wire cable extending from the guide boom In the power supply for heavy equipment consisting of a sub-post installed in the heavy equipment for the support of, the one end of the guide boom is characterized in that the cable support for preventing the bending of the wire cable is configured.

In addition, the cable support is characterized in that the support ring for supporting the wire cable is configured.

In addition, the guide boom is connected to the main post and the hinge shaft so as to be rotatable, a pair of limit switches are configured on the main post side, the guide boom side corresponding to the pair of limit switches of the guide boom The first operating port and the second operating port which is in contact with the pair of limit switches according to the angle change is configured.

In addition, the heavy equipment is characterized in that configured to be rotatable in the axial direction of the sub-post.

In addition, the sub-post is provided with a sub-limit switch and a slip ring, and the sub-limit switch is characterized in that it emits an alarm sound when the bracket is formed with a predetermined circumferential distance on the outer peripheral surface of the slip ring.

In addition, the slip ring is coupled to the lower side of the sub-post, characterized in that a pair of brushes symmetrically provided on the side of the slip ring.

In addition, both sides of the hinge axis is characterized in that the elastic spring is configured in a symmetrical form.

In addition, one end of the guide boom is characterized in that the weight is provided.

The power supply device for heavy equipment of the present invention, the cable support structure of the tip portion of the guide boom can be prevented from bending the wire cable can be prevented from damage and breakage of the cable.

In addition, it is possible to automatically alarm and power off according to the angle change of the guide boom to prevent the safety accident in advance.

1 is a structural diagram of a power supply for heavy equipment according to an embodiment of the present invention.
FIG. 2 is a detailed view of portion A of FIG. 1; FIG.
Figure 3 is an enlarged side view of the portion B of FIG.
4 is an enlarged internal cross-sectional view illustrating a portion B of FIG. 1.
5 is an internal perspective view showing another enlarged view of portion B of FIG. 1;
6 is a sectional view showing the principal parts of still another enlarged view of portion B of FIG. 1;
Figure 7 is a side cross-sectional view showing a sub-post used in the power supply for heavy equipment according to an embodiment of the present invention.
8 is a cross-sectional view showing a sub-post used in the power supply for heavy equipment according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, looking at the main components of the power supply device for heavy equipment according to an embodiment of the present invention, the main post 10 is fixed to the vertical direction fixed to the ground and coupled to the upper end of the main post 10 in a horizontal direction to supply power Medium length consisting of a guide boom 20 for guiding the wire cable 100 for use, and a sub-post 30 installed in the heavy equipment 200 for the support of the wire cable 100 extending from the guide boom 20 In the cost power supply device, one end of the guide boom 20 is configured with a cable support 40 for preventing the wire cable 100 from being bent, and the cable support 40 is an electric wire cable 100. It can be seen that the support ring 41 is configured for the support.

In addition, the guide boom 20 is connected by the main post 10 and the hinge shaft 11 so as to be rotatable, and the main post 10 has a pair of limit switches 12 for detecting external contact. The first operating port and the second operating port in contact with the limit switch 12 according to the angle change of the guide boom 20 on the side of the guide boom 20 corresponding to the pair of limit switches 12 (22,22 ').

And, on both sides of the hinge shaft 11, the elastic spring 13 for supporting the guide boom 20 with a constant elastic force is configured in a symmetrical form.

In addition, one end of the guide boom 20 has a weight 50 for applying a load to the rear end of the guide boom 20.

On the other hand, the guide boom 20 is preferably made of a multi-stage structure to enable the adjustment of the length.

The effect of the operation of the power supply of the present invention constituting such a configuration will be described.

Heavy equipment 200 in the present embodiment is to receive the power supplied from the power supply unit (not shown) through the wire cable 100 is made to operate, guide the wire cable 100 in accordance with the movement of the heavy equipment (200) The variable flow of the direction and angle of the guide boom 20 is made.

That is, when the heavy equipment 200 is working in a position close to the main post 10, the guide boom 20 is made up by the predetermined weight of the weight (50).

And, as the position of the heavy equipment 200 gradually away from the guide boom 20 to gradually form a horizontal state to guide the wire cable 100, the present invention, the cable support 40 is the tip of the guide boom 20 Since the wire cable 100 is held by the wire cable 100 in such an operation process, it is possible to prevent the occurrence of breakage due to the sharp bending.

On the other hand, a pair of limit switches 12 are configured on the main post 10 side, and on the side of the guide boom 20 corresponding to the pair of limit switches 12 according to the change of the angle of the guide boom 20. Since the first operating port and the second operating ports 22 and 22 'which come into contact with the pair of limit switches 12 are constituted, the signal of the limit switch 12 during the vertical movement of the guide boom 20 is transmitted. It can be delivered to workers to prevent the occurrence of safety accidents.

That is, when the guide boom 20 is leaned at a predetermined angle, the first operating port 22 is in contact with any one of the pair of limit switches 12 to generate a distance alarm primarily. If 20 is further leaned, the second operating port 22 'is in contact with the other one of the pair of limit switches 12 so that the power can be secondarily cut off so that the system can be stopped. will be.

In addition, since the elastic spring 13 is formed in a symmetrical form on both sides of the hinge shaft 11, the shock is absorbed when the guide boom 20 rotates up and down.

On the other hand, the heavy equipment is configured to be rotatable in the axial direction of the sub-post (30).

A lower limit switch 32 and a slip ring 33 are provided at the lower end of the sub post 30.

That is, the slip ring 33 is coupled to the lower side of the sub post 30, and a pair of brushes 31 are symmetrically provided on the side surface of the slip ring 33. In this case, the brush 31 serves to supply power to the slip ring.

The brush 31 is in contact with the slip ring 33 by a spring and slides in friction contact with the outer circumferential surface of the slip ring 33 when the heavy equipment rotates.

Since the sub limit switch 32 is fixed to the sub post 30, the sub limit switch 32 does not move even if the slip ring 33 rotates along the rotation axis of the sub post.

In addition, when the bracket 34 for pressing the sub limit switch 32 is formed on the outer circumferential surface of the slip ring 33 and the sub limit switch 32 exists within the circumferential distance of the bracket 34. Heavy equipment is in a safe working environment.

Therefore, when the heavy equipment rotates, the slip ring 33 rotates, and the sub-limit switch 32 is out of the circumferential distance of the bracket 34 at the moment the heavy equipment deviates from the allowable rotation radius. At that moment, the sub-limit switch 32 is released from the pressurization of the bracket 34, thereby causing the sub-limit switch 32 to interfere with the alarm sound, that is, the power supply wire cable 100, indicating a danger. The position alarm will sound.

When the alarm sounds, the operator can recognize the danger and effectively cope with it, thereby preventing a safety accident that may occur during work.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the power supply structure of the present invention may be variously modified and implemented by those skilled in the art.

However, such modified embodiments should not be understood individually from the spirit or scope of the present invention, such modified embodiments will be included within the appended claims of the present invention.

10: Main Post 11: Hinge Shaft
12: limit switch 13: elastic spring
20: guide boom 22,22 ': first operating port and second operating port
30: Subpost 31: Brush
32: Sub limit switch 33: Slip ring
34: bracket 40: cable support
41: support ring 50: weight
100: wire cable 200: heavy equipment

Claims (8)

The main post 10 fixed to the ground in the vertical direction, the guide boom 20 is coupled to the upper end of the main post 10 in the horizontal direction to guide the electric wire cable 100 for power supply, and the guide boom 20 In the electric power supply for heavy equipment consisting of a sub-post 30 installed in the heavy equipment 200 for the support of the wire cable 100 extending from),
One end of the guide boom 20 is a power supply device for heavy equipment, characterized in that the cable support 40 for preventing the bending of the wire cable 100 is configured. The method according to claim 1,
The cable support (40) is a power supply for heavy equipment, characterized in that the support ring 41 for supporting the wire cable 100 is configured. The method according to claim 1,
The guide boom 20 is connected by a main post 10 and a hinge shaft 11 so as to be rotatable, and a pair of limit switches 12 are formed on the main post 10 side, and the pair The first and second operation ports 22 are in contact with the pair of limit switches 12 according to the angle change of the guide boom 20 on the side of the guide boom 20 corresponding to the limit switch 12 of the , 22 ') is configured for a heavy equipment power supply. The method according to claim 1,
The heavy equipment power supply for heavy equipment, characterized in that configured to be rotatable in the axial direction of the sub-post (30). The method of claim 4,
The sub post 30 includes a sub limit switch 32 and a slip ring 33, and the sub limit switch 32 has a predetermined circumferential distance on the outer circumferential surface of the slip ring 33 ( 34) Power supply for heavy equipment, characterized in that emits an alarm sound. The method according to claim 5,
The slip ring (33) is coupled to the lower side of the sub-post (30), characterized in that a pair of brushes (31) are provided symmetrically on the side of the slip ring (33). The method according to claim 3,
Both sides of the hinge shaft (11) is characterized in that the elastic spring (13) is configured in a symmetrical form power supply for heavy equipment. The method according to claim 1,
One end of the guide boom 20, the weight device 50, characterized in that provided with a weight.

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