KR200471329Y1 - Carrying support structure for vertical type motor - Google Patents

Abstract

The present invention relates to a vertical motor moving device, to ensure a more stable movement during the movement of the vertical motor using a forklift to prevent the adverse effects of the conduction or impact generated during the movement.
The movable pedestal of the present invention for realizing this includes a base plate 10 on which a vertical electric motor 1 can be mounted; A plurality of vertical struts 20 installed at both sides of the base plate 10 at a predetermined height; A fork insertion hole 30 provided at an upper end of the vertical support 20 so that the fork portion P of the forklift can be inserted therein; It characterized in that the configuration comprising a support leg 40 configured in the lower portion to support the base plate 10 to a predetermined height from the ground.

Description

Forklift moving base of vertical electric motor {CARRYING SUPPORT STRUCTURE FOR VERTICAL TYPE MOTOR}

The present invention relates to a vertical motor moving support, and more particularly, to a motor fixing device installed on the forklift to stably fix the weight of the motor in the process of the equipment movement of the vertical motor, which is a heavy body using a forklift.

In general, power plants convert thermal or mechanical energy into electrical energy. Therefore, in order to generate electricity, it is necessary to consume a corresponding amount of energy. The source of energy for such generation is called a power generation resource or a power resource. Generators currently used for power generation use almost electromagnetic induction to convert mechanical power into electric power. Therefore, all energy flow is converted into mechanical power to generate electric power. There are batteries that convert chemical energy directly into electrical energy, and thermocouples that convert thermal energy directly into electrical energy, but batteries are not used for large-scale power generation, and the use of thermocouples for power generation is still at an experimental stage. The power generation method and the power plant also vary according to what is used as the power generation resource. Hydroelectric power plants, thermal power plants, nuclear power plants, tidal power plants, wind power plants, and geothermal power plants.

Nuclear power plants, on the other hand, are equipped with several systems to produce electrical energy, including reactors, piping and reactor safety systems, or electronic converters used to control critical process systems.

In addition, the nuclear power plant is equipped with a vertical large electric motor, because such a vertical electric motor is a heavy object to use equipment such as a forklift when moving.

However, when the vertical motor is moved by using a forklift, the motor cannot be stably fixed, causing a fall accident during the moving process, and also causing damage and damage to the fork of the forklift due to friction. There was this.

The present invention is proposed to improve the above problems in the prior art, by developing a forklift pedestal structure capable of stably moving the vertical motor of the heavy weight to reduce the safety work time and move safety The purpose is to prevent accidents.

Moving base of the present invention for achieving the above object is a base plate that can be mounted on the vertical electric motor; A plurality of vertical struts installed at predetermined heights on both sides of the base plate; A fork insertion hole provided at an upper end of the vertical support so that the fork portion of the forklift can be inserted therein; It characterized in that the configuration comprising a support leg configured to support the base plate at a predetermined height from the ground.

This invention, the more stable movement can be made during the movement of the vertical type electric motor using a forklift it is possible to prevent the adverse effects of the conduction or impact generated during the movement.

In addition, it is possible to prevent the occurrence of safety accidents of the worker in the process of moving the heavy.

1 is a perspective view of a movable pedestal according to an embodiment of the present invention.
Figure 2 is a cross-sectional view of the present invention movable pedestal.
3 is a detailed view of portion A of FIG. 2;
Figure 4 is a front structural view of the present invention movable pedestal.
Figure 5 is a plan view of the mobile pedestal of the present invention.
Figure 6 is a side view of the use state of the present invention movable pedestal.
7 is a front view of the use state of the present invention movable pedestal.
8 is an enlarged view of the main portion of the vertical support of the pedestal according to another embodiment of the present invention.
9 is an enlarged cross-sectional view of the guide unit according to another embodiment of the present invention.

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

First, referring to the structure of the forklift moving pedestal according to an embodiment of the present invention through FIGS. 1 to 3, two vertical struts 20 are provided on both sides of the rectangular base plate 10 at predetermined heights. The upper end of the vertical support 20 is configured with a fork insertion hole 30 so that the fork portion P of the forklift can be inserted, and a support leg 40 for supporting a predetermined height from the ground is provided below the base plate 10. Configured.

In particular, each fork insertion hole 30 is connected to each other by the guide portion 31 forming a cross-sectional structure of the "b" shape so that the fork portion (P) can be guided stably.

On the other hand, the base plate 10 is formed with a circular bottom groove 11 for mounting of the vertical motor 1, the bottom groove 11 is a plurality of for absorbing the shock of the vertical motor (1) The buffer plate spring 12 is provided at regular intervals, it can be seen that the bottom groove 11 is provided with a rubber buffer pad 13 for supporting the buffer plate spring 12 with a predetermined elastic force.

The working effect of the use of the subject innovation moving pedestal to achieve such a structure will be described.

First, the vertical motor 1 to be moved is placed on the base plate 10. At this time, the lower bottom surface of the vertical motor 1 is positioned so as to correspond to the bottom groove 11 portion. 1) can be supported by the shock absorbing leaf spring (12).

When the fork portion P of the forklift is inserted into the fork insertion hole 30 in this state, the guide portion 31 is guided by the insertion of the fork portion P in the form of penetrating the two fork insertion holes 30. Will be done.

Then, when the fork portion P is raised through the forklift operation, the moving pedestal of the present invention is raised, and the vertical type electric motor 1 is moved by moving the forklift in this state.

In particular, even if an external shock is transmitted in this movement process, the shock force is not transmitted to the vertical electric motor 1 by the shock absorbing leaf spring 12 and the shock absorbing pad 13, so that the more stable movement is achieved. have.

On the other hand, Figures 8 and 9 shows the structure of the movable pedestal according to another embodiment of the present invention.

That is, as shown in Figure 8, the vertical strut 20 is composed of a lower support 20a and the upper support 20b to enable a variable adjustment of the height, the upper support 20b has a lower end of the lower support 20a Is inserted into the configuration, the upper support (20b) was provided with a fixing bolt 21 for fastening the position of the lower support (20a) inserted therein.

In addition, the guide portion 31 minimizes the friction force when the fork portion P is inserted so that the insertion guide can be easily made, and a Teflon layer 32 for preventing damage due to the friction force is formed as shown in FIG. 9. will be.

Accordingly, by varying the height of the strut 20 according to the height of the vertical motor (1) that is the work object, it is possible to prevent the phenomenon in which the vertical motor (1) is conducted during the movement process, and also guide portion ( It can be seen that the Teflon layer 32 of 31 has a lubricating layer function, thereby minimizing frictional force with the guide part 31 when the fork part P is inserted, thereby enabling a smoother fork insertion guide.

10: base plate 11: bottom groove
12: shock absorbing leaf spring 13: buffer pad
20: vertical post 20a: lower post
20b: upper column 21: fixing bolt
30: fork insertion hole 31: guide part
40: support leg

Claims (6)

The vertical motor 1 is seated, but a circular bottom groove 11 is formed for the mounting of the vertical motor 1, and the bottom groove 11 absorbs the shock of the vertical motor 1. A base plate 10 having a plurality of shock absorbing leaf springs 12 configured at regular intervals;
A plurality of vertical struts 20 installed at both sides of the base plate 10 at a predetermined height;
A fork insertion hole 30 provided at an upper end of the vertical support 20 so that the fork portion P of the forklift can be inserted therein;
A support leg 40 configured at a lower portion to support the base plate 10 at a predetermined height from the ground;
Forklift moving base of the vertical electric motor, characterized in that the configuration comprising a. The method according to claim 1,
The forklift of the vertical type electric motor, characterized in that the upper portion of the plurality of vertical struts 20 is provided with a guide portion 31 for connecting the fork insertion ports 30 on both sides to guide the insertion of the fork (P). Mobile base. The method according to claim 1,
The vertical strut 20 is composed of a lower support 20a and an upper support 20b to enable a variable adjustment of the height, the upper support 20b is configured to be inserted into the lower support 20a, the upper support ( 20b) is a forklift moving pedestal of a vertical electric motor, characterized in that the fastening bolt 21 for fastening the position of the lower column (20a) inserted therein is fastened. delete The method according to claim 1,
The bottom groove 11 is a forklift moving stand of a vertical type electric motor, characterized in that the buffer pad 13 of the rubber material for supporting the shock absorbing leaf spring 12 with a predetermined elastic force. delete

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