KR200311970Y1 - Enclosed type Spring Vibration Isolator - Google Patents

Abstract

The present invention relates to a hermetic spring mount for supporting a facility in a dustproof state by installing a coil spring between the upper housing and the lower housing, wherein the slot groove is configured to include a fixing plate formed at both ends and a housing body protruding upward from the fixing plate. It consists of a lower housing, the upper housing coupled to the housing body of the lower housing capable of vertical flow, and a coil spring installed in the lower housing to support the upper housing elastically, and outwardly caught along the upper end of the housing body of the lower housing. A jaw is formed and an inward locking jaw is formed along the lower end of the upper housing so that the inward locking jaw of the upper housing interferes with the outward locking jaw of the lower housing so that the upper housing elastically supported by the coil spring is not separated from the lower housing. It features.

Description

Enclosed Spring Mount {Enclosed type Spring Vibration Isolator}

The present invention relates to a hermetic spring mount that can be more firmly supported inside the spring and can more easily check the compression of the coil spring.

The spring mount is a support device that is installed in the lower part of the equipment generating vibration force by rotation or reciprocating motion such as a pump, a blower or an air conditioner and attenuates the vibration to prevent the generation of vibration and noise. In such a spring mount, when the vibration in the up and down direction or the vibration or reaction force in the horizontal direction is not relatively large, since the sideways is not a big problem, a simple open spring mount is used. In contrast, when the horizontal reaction force is large or the equipment needs to be dustproof with high efficiency, a closed spring mount is used to restrain and attenuate the lateral vibration.

As such a closed spring mount, Utility Model Registration Application No. 16565 filed by the applicant in 1996 (hereinafter referred to as 'Prior Technology 1') and Utility Model Registration Application No. 21842 filed in 1997 (hereinafter 'Prior Technology 2') There is). In case of the related art 1, a coil spring is installed between the upper housing and the lower housing to support the equipment in a dustproof state, and the lower housing is installed in the form of a cup on the fixing plate, and the upper housing is inward or outward of the lower housing. Consists of a cap that is covered with a see-through window formed on the side wall of the lower housing so that the compression of the coil spring can be visually confirmed when installed in the facility. Therefore, the structure is simple and integrated, and the upper housing and the lower housing are configured in a cylindrical shape, respectively, there is an advantage that does not need to consider the directionality when installed, but the coil spring has a fixing means of the coil spring in the housing is insufficient It may flow unstable internally and there is a risk of deterioration of dust-proof effect, and there is no separate ruler to check the compression degree of the coil spring directly through the sight window, but the sight window is located in the lower housing and visually springs. It is inconvenient to check the degree of compression, and moreover, if the upper housing is wrapped around the lower housing by compression, the upper housing covers the viewing window, which makes it more difficult to identify the viewing window. In the case of the prior art 2, a viewing window is formed on one end of the outer circumferential surface of the upper housing as shown in FIG. 1, and one end of the locking piece protruding from the upper end of the lower housing is provided through the viewing window. It is drawn out to the outside of the outer circumferential surface of the upper housing so as to be caught by the upper housing, and the scale is marked vertically along one outer circumferential surface of the see-through window. This is when the spring mount of the present invention is installed in the lower part of the installation, the amount of deflection of the upper housing according to the load of the facility, which makes it easier to check the amount of deflection. In addition, the auxiliary housing protrudes upward from the center of the inner bottom of the lower housing, and the rubber packing is provided outward. The rubber packing is in a tubular state, and an extended base is formed at the bottom thereof, and a plurality of wing parts are curved in one direction and protrude outward on the outer circumferential surface. Therefore, the coil spring installed in the housing has an upper end supported by a spring seat and a lower end supported by an outer side of the rubber packing. In particular, when the rubber part comes into contact with the wing part of the rubber packing, the wing part is bent in one direction as it contacts the inner surface of the coil spring. It is possible to stably maintain the coil spring by supporting it more elastically, and can provide stability in the vertical direction even when the coil spring is compressed. However, in the case of the related art 2, the only means for preventing the upper housing elastically supported by the coil spring from being separated from the lower housing is a locking piece which protrudes from the upper end of the lower housing and is drawn out to the outside of the outer circumferential surface of the upper housing through the viewing window. As the compression and expansion of the upper housing are repeated, fatigue failure of the engaging pieces occurs, thereby shortening the life of the spring mount.

The present invention is devised to achieve the above object, the object of the present invention is as follows.

First, it provides a fixing means for stably installing the coil spring in the upper housing and the lower housing to prevent the deterioration of the dust-proof effect.

Second, by providing a means to easily and accurately determine the compression state of the coil spring or the degree of deflection of the upper housing to improve the reliability of the product.

Third, even if the compression and expansion of the coil spring is repeated, the life of the spring mount is maximized by providing a housing structure that can minimize fatigue breakdown and strengthen durability.

1 is a perspective view of an embodiment of a conventional hermetic spring mount.

Figure 2 is a cross-sectional view of a specific example of the hermetic spring mount of the present invention.

Figure 3 is a perspective view of a specific example of the hermetic spring mount of the present invention.

Figure 4 is a plan view of an embodiment of a rubber packing that is a component of the hermetic spring mount of the present invention.

<Description of the symbols for the main parts of the drawings>

10: upper housing 11: inward locking jaw

12: Upper elastic pad 13: Nut

20: lower housing 21: fixed plate

22: housing body 23: outwardly caught jaw

24: Anti-friction ring 25: Auxiliary housing

26: ruler 27: slot groove

28: bottom elastic pad 30: coil spring

31: Spring cap 40: Rubber packing

41: wing 42: support

In order to achieve the above object, the present invention, which is a hermetic spring mount, is coupled to the housing of the lower housing and the lower housing, wherein the slot groove includes a fixing plate formed at both ends and a housing body protruding upward from the fixing plate. And an upper housing; and a coil spring installed in the lower housing to elastically support the upper housing. The upper housing may include an outward locking jaw formed along the upper end of the housing body of the lower housing and inwardly caught along the lower end of the upper housing. A jaw is formed so that the inward locking jaw of the upper housing interferes with the outward locking jaw of the lower housing, so that the upper housing elastically supported by the coil spring is not separated from the lower housing. In addition, the coil spring can be stably installed in the upper housing and the lower housing by further including a rubber packing that is inserted into the auxiliary housing and the auxiliary housing protruding upward from the fixing plate in the housing body of the lower housing to support the coil spring. A ruler is formed on the outer circumference of the housing body of the lower housing so that the amount of deflection of the upper housing can be easily and accurately checked.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. FIG. 2 shows a plan view and a bottom view along with a schematic cross-sectional shape of a hermetic spring mount including a lower housing 20, an upper housing 10, a coil spring 30 and the like, and FIG. A schematic perspective view of the mount is shown.

The lower housing 20 is configured to include a housing plate 22 performing a function of a container for accommodating the fixed plate 21 and a coil spring 30 to perform a base function. Slotted grooves 27 are formed at both ends of the fixing plate 21 to fix anchor bolts on the bottom, and the bottom elastic pad 28 is further provided on the lower surface of the fixing plate 21 to be in contact with the bottom. The effect can be maximized. The housing body 22 is an upwardly open container shape formed by protruding upward from the upper surface of the fixing plate 21. The coil spring 30 is accommodated in the inside of the container and along the circumference of the upper end of the housing body 22. A radially outwardly protruding outwardly engaging jaw 23 is formed to prevent separation and separation after being combined with the upper housing 10. In addition, the outer circumferential surface of the housing body 22 of the lower housing 20 is formed with a ruler 26 for checking the deflection amount of the upper housing 10 in the vertical direction, and is shown in FIG. 2 on the outer circumferential surface of the outward locking jaw 23. As equipped with anti-friction ring 24 to minimize the friction with the upper housing (10). An auxiliary housing 25 protruding upward from the upper surface of the fixing plate 21 is formed inside the housing body 22 to serve as a guide when the coil spring 30 is mounted, and a rubber packing is provided on the outside of the auxiliary housing 25. 40 is inserted to support the coil spring 30. 2 and 4, the rubber packing 40 includes a base 42 having a lower end of a tube shape extending outward and a plurality of wings 41 protruding outward from an outer circumferential surface of the tube. The wing 41 has a curved shape in one direction and has a pinwheel shape.

The upper housing 10 is cap-shaped and inserted and coupled to the housing body 22 of the lower housing 20 to move up and down. The lower end of the upper housing 10 is radially along the circumference of the lower end of the lower housing 20. A protruding inwardly engaging jaw 11 in the inward direction is formed to correspond to an outwardly engaging jaw 23 of the lower housing 20. The upper elastic pad 12 is further installed on the outer upper surface of the upper housing 10 to maximize the dustproof effect. A hollow is formed on the upper surface of the upper housing so that a bolt for fixing the equipment to the hermetic spring mount of the present invention passes and a nut is coupled to the hollow into the hollow housing. In addition, a spring cap 31 for accommodating and fixing the coil spring 30 is installed on the inner upper surface of the upper housing 10.

The coil spring 30 is installed inside the lower housing 20 to elastically support the upper housing 10. In this case, the upper end of the coil spring 30 is supported by a spring cap 31 installed on the inner upper surface of the upper housing 10, and the lower end of the coil spring 30 is a support 42 of the rubber packing 40. And is supported by the wing portion 41, the coil spring 30 is in contact with the wing portion 41 while bending the wing portion 41 in one direction to support the coil spring 30 more elastically coil spring ( 30) can be more stably fixed, and the stability in the vertical direction can be improved even when the coil spring 30 is compressed.

The present invention is assembled as follows. First, the rubber packing 40 is inserted into the auxiliary housing 25 formed in the lower housing 20 to be coupled thereto, and then the coil spring 30 is inserted into the rubber packing to fix the outward locking jaw 23 of the housing body 22. The anti-friction ring (24). When the upper housing 10 mounted with the spring cap 31 in such a state is pressed into the housing body 22, the inward locking jaw 11 of the upper housing 10 is slightly enlarged and the lower housing 20 The outward locking jaw 23 is slightly contracted while the housing body 22 of the lower housing 20 is inserted into the upper housing 10 and coupled thereto, and the inward locking jaw 11 of the upper housing 10 is contracted again. It is restored to its original size and the outward locking jaw 23 of the lower housing 20 is enlarged and restored back to its original size so that the inward locking jaw 11 and the outward locking jaw 23 interfere with each other and the upper housing 10 The coil spring 30 is not separated from the lower housing 20 while maintaining a state of being elastically supported. In order to facilitate the interference fit, as shown in FIG. In the assembled state as shown in FIG . 3 , the lower end of the upper housing 10 performs a guide function of the ruler 26 formed perpendicular to the outer circumferential surface of the lower housing 20.

The enclosed spring mount of the present invention can be fixed by coupling the bolts connected to the equipment to the nut 13 formed in the upper housing, and can simply be supported by mounting the equipment, in this case the upper elastic pad of the coil spring 30 It can supplement elasticity and prevent slip of equipment.

The configuration as described above is not intended to limit the gist of the present invention, the shape or configuration of the upper housing and the lower housing may be changed within the scope of the present invention according to the installation or installation characteristics.

According to the present invention of the above configuration can achieve the following effects.

First, it is possible to stably install the coil spring inside the upper housing and the lower housing to prevent the deterioration of the dustproof effect.

Second, by using a ruler can easily and accurately check the compression state of the coil spring or the degree of deflection of the upper housing can improve the reliability of the product.

Third, even if the compression and expansion of the coil spring is repeated, it is possible to maximize the life of the spring mount by minimizing fatigue breakdown and strengthening durability.

Claims (6)

A lower housing including a fixing plate formed at both ends of the slot groove and a housing body protruding upward from the fixing plate; An upper housing coupled to the housing body of the lower housing to enable vertical flow; A coil spring installed in the lower housing to elastically support the upper housing, and configured to include an outwardly caught jaw along an upper end of the housing body of the lower housing, and an inwardly caught jaw along a lower end of the upper housing. Is formed so that the inward locking jaw of the upper housing interferes with the outward locking jaw of the lower housing so that the upper housing elastically supported by the coil spring is not separated from the lower housing. . The auxiliary housing of claim 1, wherein the auxiliary housing protrudes upward from the fixing plate in the housing body of the lower housing. And a rubber packing inserted into the auxiliary housing to support the coil spring. The hermetic spring mount according to claim 1 or 2, further comprising an anti-friction ring installed along an outer circumferential surface of the outward locking jaw of the lower housing. The upper elastic pad of claim 1 or 2, wherein the upper elastic pad is installed on an upper surface of the upper housing; The hermetic spring mount further comprises a lower elastic pad installed on a lower surface of the fixing plate of the lower housing. The hermetic spring mount according to claim 1 or 2, wherein a ruler for checking a deflection amount of the upper housing is formed on an outer circumferential surface of the housing body of the lower housing. The hermetic spring mount according to claim 2, wherein a plurality of curved wing parts are formed on an outer circumferential surface of the rubber packing.