KR20090069578A - Spring assembly - Google Patents

Abstract

A spring assembly is provided to facilitate installation in case length is minutely changed or the installation location is changed due to transformation of structure. A spring assembly comprises: a housing(100) of a cylindrical form in which both ends are opened; a load adjusting cap(200) being connected to both ends of the housing; an elastic spring(400) installed inside the inner structure of the housing; and a push rod(500) equipped with a head(510) and a connection shaft(520) which are installed inside the housing to be slid. The housing and the load control cap are joined with screws. On the circumference of both ends of the housing, each screw thread is formed. The load control cap and a working distance control cap(300) have an opened cylindrical form.

Description

Spring assembly

The present invention relates to a spring assembly, and more particularly, to a spring assembly that is installed on a structure in which the spring is used, that is, a structure such as a suspension of a vehicle.

In general, the vehicle provides a suspension device to connect the axle and the vehicle body to alleviate the shock or vibration received from the road surface while driving to improve the riding comfort and stability of the vehicle.

Such, the suspension is provided with a spring assembly that is responsible for a part, as shown in Figure 1, the spring assembly is composed of a coil spring 10, the top seat 20 and the bottom seat 20 is applied to the force The spring will absorb the shock.

However, the spring assembly is installed in the conventional suspension device as an example, the upper spring 20 and the lower seat 30 in the state in which the upper seat 20 is fastened to both ends of the elastic spring 10, the elastic spring (10) There is a problem that cannot be used even if the assembly position of the spring assembly according to the deformation of the structure, such as the suspension device according to the deformation of the spring assembly, the processing error of the structure, such as a vehicle is changed slightly.

That is, in the conventional spring assembly, since the working load and distance of the elastic spring 10 are limited to the length of the elastic spring 10 itself, the installation position change or the elastic spring 10 according to the deformation of the structure in which the spring assembly is installed. If its elastic force is deformed and its length is changed slightly, it cannot be installed and used, and it is not easy to manufacture because it requires precise processing of the structure and spring assembly, respectively, and it takes a lot of time and cost. There is a problem.

The present invention has been created to solve the above problems, it is possible to adjust the operating load and the distance of the spring is easy to the structure even if the length is slightly changed by changing the installation position or elastic force of the spring itself according to the deformation of the structure It is an object of the present invention to provide a spring assembly having a structure that can be installed easily.

Spring assembly of the present invention for achieving the above object, and a cylindrical housing having both ends open; A load adjusting cap and an operating distance adjusting cap respectively fastened to both ends of the housing; An elastic spring installed inside the housing; And a push rod configured to have a head slidably installed in the housing, and a connecting shaft having one end coupled to the head and the other end penetrated through the working distance adjusting cap, wherein the housing and each of the load adjustments are provided. Cap and the working distance adjusting cap is characterized in that the threaded mutually coupled.

Here, a thread is formed on each outer peripheral surface of both ends of the housing, and the load adjusting cap and the working distance adjusting cap have a cylindrical shape with one end open, and threaded threads corresponding to the threads of the housing are formed on the inner peripheral surface. Do.

In addition, the working distance adjusting cap is preferably formed with a through hole through which the connecting shaft of the push rod passes.

The spring assembly of the present invention, by inserting and installing the elastic spring in the housing, the load adjustment cap by connecting the elastic spring to the structure by the push rod in the state of screwing the load adjusting cap and the operation distance adjusting cap to both ends of the housing, respectively. According to the fastening position of the working distance adjusting cap, the load and the working distance of the elastic spring can be finely adjusted, thereby providing an effect of facilitating installation on the structure.

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

Prior to this, terms or words used in the specification and claims should not be construed as having a conventional or dictionary meaning, and the inventors should properly explain the concept of terms in order to best explain their own invention. It should be interpreted as meanings and concepts corresponding to the technical idea of the present invention based on the principle of definition.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

2 is a cross-sectional view of a spring assembly according to an embodiment of the present invention, Figure 3 is an exploded perspective view of the spring assembly according to an embodiment of the present invention.

As shown, the spring assembly according to the present invention, the housing 100, the load adjusting cap 200, the working distance adjusting cap 300, the elastic spring 400, the push rod 500 is provided.

Here, the housing 100 is a cylindrical member having both ends opened to allow the elastic spring 400 to be described later.

That is, the housing 100 prevents the buckling of the elastic spring 400 so that the elastic force () can stably act on the structure.

Such, the outer peripheral surface of both ends of the housing 100 is preferably formed with a screw thread so as to be coupled with the load adjusting cap 200 and the working distance adjusting cap 300 which will be described later.

The load adjusting cap 200 and the working distance adjusting cap 300 are tubular sealing members, one end of which is coupled to both ends of the housing 100, respectively.

Such, the inner circumferential surface of the load control cap 200 and the working distance control cap 300 forms a screw thread for correspondingly fastening to both ends of the housing 100, respectively.

Accordingly, the load adjusting cap 200 and the working distance adjusting cap 300 are threaded to each other in an extrapolated state at both ends of the housing 100, so that the load adjusting cap 200 is connected to the housing 100. The load of the elastic spring 400 may be determined according to the position coupled to the end of the elastic spring 400, and the operation distance adjusting cap 300 may be connected to the end of the housing 100. The working distance can be determined.

That is, when the load adjusting cap 200 and the connecting shaft 520 of the push rod 500 are fixed to the structure and assembled to the load adjusting cap 200 in the "A" direction, the elastic spring 400 ), The load increases, while the assembly position in the "B" direction decreases the load of the elastic spring 400.

In addition, when the operating distance control cap 300 is assembled in the "C" direction to increase the working distance of the elastic spring 400, while the assembly position in the "D" direction to operate the elastic spring 400 The distance will be shorter.

Here, it is preferable to form a through hole 310 through which the connecting shaft 520 of the push rod 500 to be described later is formed at one side of the working distance adjusting cap 300.

The elastic spring 400 is an elastic member that absorbs and mitigates the shock and vibration transmitted from the structure after being inserted into the housing 100.

The push rod 500 is a transmission member that transmits the shock and vibration transmitted from the structure to the elastic spring 400 to absorb the shock and vibration by its own elastic force of the elastic spring 400.

The push rod 500 includes a head 510 that is slidably installed in the housing 100 and a connection shaft 520 coupled to one end of the head 510.

Here, the head 510 is formed in a plate shape in contact with the inner circumferential surface of the housing 100 so as to stably transmit the shock and vibration transmitted from the structure to the elastic spring 400.

One end of the connecting shaft 520 is coupled to the head 510, and the other end of the connecting shaft 520 is connected to the structure through the through hole 310 of the working distance adjusting cap 300.

As such, the spring assembly of the present invention, after the elastic spring 400 is inserted into the housing 100 and installed, the load adjusting cap 200 and the working distance adjusting cap (at both ends of the housing 100), respectively. By connecting the elastic spring 400 to the structure by the push rod 500 in a state in which the screw 300 is mutually screwed together according to the fastening position of the load control cap 200 and the working distance control cap 300 The load and the working distance of the elastic spring 400 can be finely adjusted to facilitate the installation in the structure.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is described by the person of ordinary skill in the art to which the present invention pertains. Various modifications and variations are possible without departing from the scope of the appended claims.

1 is a perspective view showing a typical spring assembly

2 is a cross-sectional view of a spring assembly according to an embodiment of the present invention.

3 is an exploded perspective view of a spring assembly according to an embodiment of the present invention;

Claims (3)

A cylindrical housing having both ends opened; A load adjusting cap and an operating distance adjusting cap respectively fastened to both ends of the housing; An elastic spring installed inside the housing; And, A push rod configured to have a head slidably installed in the housing and a connecting shaft having one end coupled to the head and the other end penetrated through the working distance adjusting cap, The housing and each of the load adjustment cap and the working distance adjustment cap is a spring assembly, characterized in that each other is threaded. The method of claim 1, Threads are formed on the outer circumferential surfaces of both ends of the housing, respectively, and the load adjusting cap and the working distance adjusting cap have a cylindrical shape with one end opened, and threaded threads corresponding to the threads of the housing are formed on the inner circumferential surface. Spring assembly. The method of claim 1, The operating distance adjusting cap is a spring assembly, characterized in that a through hole through which the connecting shaft of the push rod is formed.

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