KR101320578B1 - a insulation structure of vibration in forging press - Google Patents

Abstract

The present invention relates to an anti-vibration structure for forging press installation, and the anti-vibration structure for forging press installation according to the present invention includes a recessed space which is dug to a certain depth from the ground, a lower sand part laminated to the lower layer of the recessed space, and a center thereof. An accommodating space is formed, and a plurality of through holes are formed on the bottom surface, and the concrete structure is placed on the upper side of the lower sand part, an upper sand part filled in the lower part of the accommodating space, and a part of the lower part is accommodated in the accommodating space. And a press base.

Description

{A insulation structure of vibration in forging press}

The present invention relates to a forging press installation structure, and because of the frequent complaints caused by the noise and vibration caused by the impact when operating the forging press machine relates to a permanent anti-vibration structure for solving this problem.

A forging press is a machining apparatus which plastic-processes metal material using a press, cutting | disconnecting and shaping | molding, The kind of press machine is divided into a mechanical press and a hydraulic press according to the structure which produces a compressive force.

Such a press uses a flywheel or inevitably generates noise and vibration in the process of accumulating hydraulic pressure, and the generation of such vibration and noise induces a lowering of the working environment, thereby lowering production efficiency.

Conventional prior art for solving this problem is disclosed in Publication No. 10-2011-0064866 (published: 2011.06.15) vibration reduction knuckle press, Application No. 20-2002-0001630 (Application Date: 2002.01.18) Vibration reduction presses and the like.

However, such a conventional anti-vibration press device is not a permanent vibration prevention structure using the vibration and noise absorption structure of the mechanism itself, there is a problem that the permanent vibration prevention is impossible.

The anti-vibration structure for forging press installation according to the present invention has an object to provide an anti-vibration structure that can prevent vibration in the place where the forging press is installed.

The anti-vibration structure for forging press installation according to the present invention includes a recessed space that is dug to a certain depth from the ground, a lower sand portion laminated to the lower layer of the recessed space, and an accommodation space in the center, and a plurality of through holes in the bottom surface. It is characterized in that it comprises a concrete structure which is formed dog is raised on the upper side of the lower sand portion, the upper sand portion is filled in the lower portion of the receiving space, the press base portion is partially accommodated in the receiving space.

And, the lower sand portion is characterized in that it is placed on the nonwoven fabric.

Here, the lower sand portion is characterized in that the concrete ball is mixed.

The anti-vibration structure for forging press installation according to the present invention has an advantage of absorbing vibration in the process of moving to the lower sand through the through-hole formed in the concrete structure.

1 is a conceptual cross-sectional view showing a vibration preventing structure for forging press installation according to an embodiment of the present invention.
Figure 2 is a conceptual diagram illustrating the vibration absorption of the anti-vibration structure for forging press installation according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a conceptual cross-sectional view showing a vibration preventing structure for forging press installation according to an embodiment of the present invention.

As shown in FIG. 1, the anti-vibration structure for forging press installation according to the present invention digs the depression space 10 to a certain depth from the ground at the position where the forging press is installed, and the lower sand portion 20 in the depression space 10 here. , The upper sand portion 30, the concrete structure 40, the press base portion 60 is sequentially stacked.

First, the lower sand part 20 is stacked on the lower layer of the recessed space 10, and the lower sand part 20 is placed on the nonwoven fabric 70 to prevent the loss of sand.

Next, the concrete structure 40 is accommodated in the center 44 is formed on the upper side of the lower sand 20, the bottom surface is formed with a plurality of through holes 42.

In addition, the upper sand part 30 may be accommodated in the lower portion of the accommodation space 44, and the upper sand part 30 may move through the through hole 42.

The press base portion 60 is partially accommodated in the receiving space to directly support the load generated in the pressing process to the load of the press apparatus.

In addition, the lower sand part 30 may be mixed with the concrete ball 80, the concrete ball 80 is made of a concrete material of about 10CM size, so that the vibration absorption is effectively made to increase the porosity.

Looking at the vibration absorption process in the anti-vibration structure according to the present invention,

Figure 2 is a conceptual diagram illustrating the vibration absorption of the anti-vibration structure for forging press installation according to an embodiment of the present invention.

As shown in FIG. 2, the load and the vibration transmitted through the press base 60 are transferred to the upper sand part 30, and primarily absorb the load and the vibration transmitted from the air gap in the upper sand part 30 itself. Done.

In addition, the upper sand portion 30 absorbs the vibration and secondarily while transmitting the vibration to the lower sand portion 20 through the through hole 42 formed in the bottom surface of the concrete structure 40 while absorbing the load and vibration. As the upper sand part 30 is moved finely through the through hole 42, the load and vibration are reabsorbed.

As described above, the present invention has as its main technical idea to provide a vibration preventing structure for forging press installation that can absorb the vibration generated in the press working process, the embodiment described above with reference to the drawings is only one embodiment Only the true scope of the present invention should be determined by the claims.

10: depression space
20: lower sand part
30: upper sand part
40: concrete structure
42: Through hole
44: accommodation space
60: press foundation
70: non-woven
80: concrete ball

Claims (3)

A depression space that is dug to a certain depth from the ground;
A lower sand part stacked on the lower layer of the recessed space;
A concrete structure in which a receiving space is formed at a center thereof, and a plurality of through holes are formed at a bottom thereof to be placed on an upper side of the lower sand part;
An upper sand portion filled in the lower portion of the accommodation space;
Vibration preventing structure for forging press installation, characterized in that it comprises a; the base portion which is partially accommodated in the receiving space.
The method of claim 1,
And the lower sand part is mounted on a nonwoven fabric.
The method of claim 1,
The lower sand portion,
Anti-vibration structure for forging press installation, characterized in that the concrete ball is mixed.

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