KR200465124Y1 - Anti-vibration rubber high efficiency spring - Google Patents

Abstract

The present invention relates to a high-efficiency spring anti-vibration port, which is installed on the ground, the spring is fixed to the upper portion is formed in the upper portion, the edge portion around the rubber cap guide portion is formed in a vertical direction; and a predetermined diameter and height A buffer spring having a lower portion supported by the spring fixing portion; a rubber cap mounted on an upper portion of the buffer spring and having a spring mounting groove formed at a lower portion thereof to receive and support an upper portion of the buffer spring; And a lower accommodating portion surrounding the case, the buffer spring and the rubber cap through the accommodating space, and a housing in which a predetermined protrusion is formed at the center of the lower accommodating portion, and an upper protruding portion formed with a spiral on the inner surface thereof is integrally formed. Wherein, the lower receiving portion and the upper protrusion is in contact with the diameter beam of the upper protrusion It characterized in that the high strength reinforcement is extruded to form a predetermined interval.
According to the present invention, the shock transmitted from the upper can be attenuated by using the shock absorbing spring and the rubber cap in a double manner, and there is an effect of minimizing the damage of the parts.

Description

Anti-vibration rubber high efficiency spring

The present invention relates to a high-efficiency spring anti-vibration port, more specifically, a high-efficiency spring installed in important areas such as residential spaces, hospital operating rooms, and precision equipment near air conditioning rooms and machine rooms to prevent noise, vibration, and shock transmission. It is about a dustproof mouth.

In general, where a machine or equipment with high vibration or noise, such as a machine room, is installed, a vibration mount is installed to reduce vibration and noise transmitted to a lower floor.

The anti-vibration mount is installed at the base of a machine or equipment to prevent vibration from the surroundings to the machine or equipment or vice versa, which is essential for preventing malfunction and maintaining durability of precision equipment. There is no special preparation for it, but it was only to support and install rubber of a predetermined thickness on the supporting part of the machine or equipment.

However, in the case of installing a rubber bearing and installing a machine or equipment, it may be able to function to some extent against a slight vibration, but the machinery, equipment, piping, etc. have become increasingly high precision and heavy load. With just a few rubber feet, you can no longer expect dust-proof efficiency.

That is, not only the size and shape change depending on the capacity required for the machine, but also the support and relaxation of not only the vertical type but also the shear type load are to be reduced depending on the direction of the applied load.

In addition, the conventional anti-vibration mount has a problem that can not be applied in the place where the traffic and frequent movement of the machine or equipment.

Republic of Korea Patent No. 10-0538817 Republic of Korea Patent Publication No. 2003-0000210

The present invention has been made in order to solve the above problems, the object of the present invention is to be able to attenuate the double shock by using a shock absorbing spring and the rubber cap transmitted from the top.

In addition, it is easy to install and remove by simply configuring a high-efficiency spring anti-vibration, and the purpose is to be able to easily replace only the relevant parts when the parts are damaged.

In order to achieve the above object, the present invention is installed on the ground, the spring is fixed to the upper portion is formed in the upper portion, the peripheral portion of the rubber cap guide portion is formed in the vertical direction projecting; and the predetermined diameter and height A buffer spring having a lower portion supported by the spring fixing portion; a rubber cap mounted on an upper portion of the buffer spring and having a spring mounting groove formed at a lower portion thereof to receive and support an upper portion of the buffer spring; And a lower accommodating portion surrounding the case, the buffer spring and the rubber cap through the accommodating space, and a housing in which a predetermined protrusion is formed at the center of the lower accommodating portion, and an upper protruding portion formed with a spiral on the inner surface thereof is integrally formed. Wherein the lower receiving portion and the upper protrusion is in contact with the diameter of the upper protrusion Characterized in that the additional reinforcement protrusion forming a predetermined interval.

According to the present invention, the shock transmitted from the upper can be attenuated by using the shock absorbing spring and the rubber cap in a double manner, and there is an effect of minimizing the damage of the parts.

In addition, by simply configuring the high-efficiency spring dustproof port, it is easy to install and remove, and when the part is damaged, it is easy to replace only the corresponding part, and thus, there is an effect of reducing the installation and part replacement cost.

1 is a perspective view showing a high-efficiency spring dustproof hole according to the present invention.
Figure 2 is a cross-sectional view showing a high-efficiency spring dustproof hole according to the present invention.
Figure 3 is a cross-sectional view showing a case constituting a high-efficiency spring dustproofing according to the present invention.
Figure 4 is a cross-sectional view showing a rubber cap constituting a high-efficiency spring dust outlet according to the present invention.
Figure 5 is a cross-sectional view showing a housing constituting a high-efficiency spring dustproofing according to the present invention.

Hereinafter, with reference to the accompanying drawings, an embodiment of the present invention, Figure 1 is a perspective view showing a high-efficiency spring dustproof outlet according to the present invention, Figure 2 is a cross-sectional view showing a high-efficiency spring dustproofer according to the present invention, 3 is a cross-sectional view showing a case constituting a high efficiency spring dustproof outlet according to the present invention, Figure 4 is a cross-sectional view showing a rubber cap constituting a high-efficiency spring dustproofer according to the present invention, Figure 5 is a high-efficiency spring chamber according to the present invention It is sectional drawing which shows the housing which comprises a true ball.

The highly efficient spring dustproofing device 10 of the present application includes a case 20, a shock absorbing spring 30 mounted inside the case 20, and a rubber cap 40 mounted on an upper portion of the shock absorbing spring 30. And a housing 50 surrounding the case 20, the buffer spring 30, and the rubber cap 40.

The case 20 is installed on the ground, the spring fixing portion 21 protrudes upward in the center, the rubber cap guide portion 22 protrudes in the vertical direction in the peripheral portion.

In the present application, the case 20 is formed of a spring fixing portion 21 having a predetermined diameter and a height at the center of a disc having a predetermined thickness, and a rubber larger than the height of the spring fixing portion 21 around the edge. An example in which the cap guide portion 22 protrudes will be described.

At this time, the lower part of the case 20 reveals that the contact fixing protrusions 23 may be formed at intervals for fixing the contact on the ground.

The shock absorbing spring 30 mounted inside the case 20 has a predetermined diameter and height and is supported under the spring fixing part 21.

In addition, the shock absorbing spring 30 serves to mitigate shock and vibration transmitted through the housing 50 and the rubber cap 40.

Here, the buffer spring 30 is configured by alternatively known buffer spring, and a separate description thereof will be omitted.

The rubber cap 40 mounted on the upper portion of the shock absorbing spring 30 is formed to have a predetermined height and diameter, and a spring mounting groove 41 is formed on the lower part to receive and support the upper part of the shock absorbing spring 30.

In addition, in the upper center of the rubber cap 40, the stepped part 42 and the insertion part 43 are continuously formed in the downward direction, and the support part 60 is mounted on the insertion part 43.

That is, the rubber cap 40 divides the load transmitted through the housing 50 through the support plate 60 mounted on the stepped part 42 and the insertion part 43, and transfers the load to the shock absorbing spring 30. The flow grooves 44 formed between the stepped portions 42 may correspond to loads transmitted from left and right as well as vertical loads of the housing 50.

The housing 50 surrounding the case 20, the shock absorbing spring 30, and the rubber cap 40 is open to the bottom and the case 20 and the spring 30 through an accommodating space 51a formed therein. A lower accommodating part 51 surrounding the rubber cap 40 and an upper protrusion 52 protruding a predetermined section at the center of the lower accommodating part 51 and a spiral 52a are formed on the inner surface of the lower accommodating part 51.

In the present application, the lower receiving portion 51 is formed in a trapezoidal shape in which the lower portion is opened, and the upper protrusion portion 52 will be described with an example in which a predetermined section is formed in the vertical direction.

In addition, a lower portion of the housing 50 protrudes from the support plate 60 mounted in close contact with the support plate 60 mounted on the rubber cap 40.

In addition, in the portion where the lower receiving portion 51 and the upper protrusion 52 abut, a strength reinforcement 54 larger than the diameter of the upper protrusion 52 is formed to protrude a predetermined section in order to reinforce the strength of the connection portion.

Referring to the embodiment of the high-efficiency spring dustproof structure configured as described above as follows.

First, the spring fixing portion 21 protrudes upward in the center, and a rubber cap guide portion 22 protrudes in a vertical direction, and forms a case 20 in which a spring constituting the case 20 is formed. The shock absorbing spring 30 is formed to the fixing portion 21 having a predetermined height and diameter.

And the upper portion of the buffer spring 30 is formed having a predetermined height and diameter, the lower portion is formed with a spring mounting groove 41 for receiving and supporting the upper portion of the buffer spring 30, the upper end step ( 42 and the insertion part 43 are continuously formed in the downward direction, and the insertion part 43 is equipped with a rubber cap 40 to which the support plate 60 is mounted.

Next, a lower accommodating part 51 surrounding the case 20, the spring 30, and the rubber cap 40 through an accommodating space 51a formed at the lower portion of the rubber cap 40. And an upper protrusion 52 formed at a center of the lower accommodating part 51 and having a spiral 52a formed therein, and a connection portion between the lower accommodating part 51 and the upper protruding part 52. When the strength reinforcing portion 54 formed in the predetermined section and the housing 50 in which the predetermined section housing support portion 53 protrudes from the lower portion of the upper protrusion 52 are assembled, the assembly of the highly efficient spring dustproof outlet 10 is completed. Will be.

Here, the assembly order of the high-efficiency spring dustproof sphere reveals that it can be configured differently from the above.

And look at the state of use of the high-efficiency spring dustproof sphere configured as described above are as follows.

First, the bolt 70 having a spiral formed on the outer surface is coupled to the upper protrusion 52 of the housing 50, and then the living space, hospital operating room, precision equipment, etc. in the air conditioning room and the machine room neighborhood using the bolt 70. Installed at the bottom of main facilities.

Next, in the above state, the high-efficiency spring dustproof outlet 10 receives a load and an impact transmitted from major facilities such as a residential space, a hospital operating room, and precision equipment in the vicinity of the air conditioning room and the machine room. It is delivered through.

In addition, the load transmitted through the bolt 70 and the housing 50 is primarily absorbed through the material of the rubber cap 40, and then loads the shock absorbing spring 30 positioned below the rubber cap 40. And shock.

As described above, the high-efficiency spring dustproof outlet 10 of the present application can doublely offset the load and the impact transmitted through the bolt 70 and the housing 50 through the rubber cap 40 and the shock absorbing spring 30. Is there.

In the above description with reference to the accompanying drawings, the high-efficiency spring dustproof sphere of the present invention has been described with a particular shape and direction, the present invention is capable of various modifications and changes by those skilled in the art, such variations and modifications of the present invention It should be interpreted as being included in the scope of rights.

10: high efficiency spring dustproof outlet, 20: case,
21: spring fixing portion, 22: rubber cap guide portion,
30: buffer spring, 40: rubber cap,
41: spring mounting groove, 42: stepped portion,
43: inserting portion, 50: housing,
51: lower receptacle, 52: upper protrusion,
53: housing support, 54: strength reinforcement,
60: support plate.

Claims (4)

A case 20 installed on the ground, at the center of which a spring fixing part 21 protrudes upward, and a rubber cap guide part 22 protruding in a vertical direction at the edge circumferential part;
A buffer spring 30 having a predetermined diameter and height and having a lower portion supported by the spring fixing portion 21;
A rubber cap 40 mounted to an upper portion of the buffer spring 30 and having a spring mounting groove 41 formed at a lower portion thereof to receive and support an upper portion of the buffer spring 30;
A lower accommodating part 51 surrounding the case 20, the shock absorbing spring 30, and the rubber cap 40 through an accommodating space 51 a formed in the lower part of the lower accommodating part 51. The housing 50 is formed integrally with the upper projection 52 is formed in the center is projected a predetermined section and the spiral 52a is formed on the inner surface;
High-efficiency spring dustproof outlet, characterized in that the lower reinforcing portion 51 and the upper protrusion 52 is in contact with the strength reinforcing portion 54 larger than the diameter of the upper protrusion 52 protrudes a predetermined section.
The method according to claim 1,
In the upper center portion of the rubber cap 40 in contact with the housing 50, the stepped portion 42 and the inserting portion 43 are continuously formed in the downward direction, and the supporting plate 60 is mounted on the inserting portion 43. High-efficiency spring dustproof features.
The method according to claim 2,
High efficiency spring dustproof outlet, characterized in that the lower portion of the housing 50, the housing support portion 53 is in close contact with the support plate 60 is formed to protrude in the downward direction.

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