KR930003220Y1 - Tension spring - Google Patents

Abstract

No content.

Description

Tension Spring

1 is a perspective view of one embodiment of the present invention.

2 is an explanatory diagram illustrating the operation thereof.

Figure 3 is a side view of an embodiment showing a state of use of the subject innovation.

Figure 4 is a cut side view of one embodiment illustrating the use of the present invention.

* Explanation of symbols for main parts of the drawings

1: tension spring 2: overlap

3: hook 4: hook

The present invention mainly relates to tension springs for use in gas valve arrangements or other relatively small appliances.

It is common to use a coil spring as a conventional tension spring.

However, since coil springs are formed by winding wire rods in a spiral shape, they form a tubular body and have a relatively long length and width. .

The present invention aims to obtain a tension spring without this problem.

In order to achieve the above object, the tension spring described in claim 1 of the Utility Model Registration forms a ring body which bends a spring-elastic wire rod into a ring shape and forms a ring portion partially overlapped at both ends thereof, and the diameter of the ring body To exert a tensile force in the direction.

The tension spring of claim 2 of the utility model registration is made by bending both ends of the wire bent in a ring to the inside to form a locking portion.

As the spring of claim 1 having the above structure, the operating member is fastened to a portion where the wire rod of the annular body is overlapped, and the operating member is moved to the radial direction of the annular body by hooking the portion facing the base. At this time, the ring body is somewhat elliptical and shifts in a direction in which the overlapping portion of the wire rod constituting the ring body is reduced to enable movement of the operating member, and when the external body for moving the operating member is removed, It is possible to return the operating member to its original shape.

In particular, the description of the claim 2 of the utility model registration claims that there is no movement of the overlapped portion of the wire rod constituting the loop body when both end portions of the wire rod act on the actuating member, Since the movement is possible, the movement becomes impossible unless an extremely large external force is applied to this operating member.

Therefore, this position can be made into the movement limit position of an operation member.

An embodiment of the present invention will be described with reference to the accompanying drawings.

In the figure, 1 denotes a tension spring in which elastic wires or other wires are bent in a ring to exert a tensile force in the radial direction of the ring body 3 having a portion 2 and 2 partially overlapped at both ends thereof. .

The tension spring 1 is formed by bending the both ends of the wire rod bent in a ring to the inside to form a catching portion 4.

This tension spring (1) engages the operating member (X) to the overlapped portion as shown in FIG. 2 to exert a tension force in the radial direction of the ring body (3). It is deformed in the direction to enable the movement of the operating member (X) with the overlapped portions (2, 2) of the wire rod reduced.

Therefore, the tension spring 1 can obtain a product exhibiting relatively flexible spring characteristics.

Then, when both end portions 4 of the wire rod are engaged with the operating member X, or both the engaging portions 4 and 4 are engaged with each other, the movement of the operating member X due to the deformation of the ring body. Makes this possible.

Therefore, the following shows very high spring characteristics.

Therefore, this is also the case with the rigidity of the wire rod, but it is also possible to set the position of the position where the engaging portions 4 and 4 engage with the movement limit position of the operating member X.

3 and 4 show a gas outlet following the second burner in a heater having a gas valve device (c) having another gas outlet (a) at the first burner and a gas outlet (b) leading to the second burner ( In switching the capacity of a heater by the switching valve (d) provided upstream of b), this invention is designed to the lock piece (f) which locks the switching lever (e) which switches the switching valve (d) to a switching position. The use example which applied the tension spring 1 of this is shown.

To explain this, the switching lever (e) has an L shape, and one side thereof is a lock piece (e-2) which engages the other side with the lock pin (f) on the operation pin (e-1). The locking pin f engaged with e-2) is locked to the frame g by engaging the other end with the tension spring 1 so that the swing is freely axially supported on the base g and the flow is possible. When the switching lever e is switched from the original position A shown in FIG. 3 to the switching position B, the lock pin f resists the tension spring 1 and is locked once. After being rearward on the moving trajectory of, the tension spring 1 is again held by the tension spring 1 to the position on the moving trajectory of the lock e-2.

In addition, the tension spring 1 is extremely flat, so that a part of the frame g is cut and caught by a locking piece h that is formed upright, so that the tension spring 1 is installed in close contact with the frame g from the outside of the frame g. do.

Therefore, when assembling the gas valve device (c) to the heater by using the tension spring (1), it is not necessary to consider the attachment space of the tension spring like the coil spring used in the prior art, and the entire apparatus can be made compact.

This invention has the same effect as the following description because it is configured as described above.

In the tension spring of claim 1, since it is formed extremely flat, it is possible to miniaturize an apparatus using the same. The overlapping portion of the wire rod of the ring body is hung by the actuating member, and the opposing part is hung by the base. When it is tensioned in the radial direction of the annulus, the annulus allows the movement of the actuating member while being slightly deformed and displaced in the direction in which the overlapping portions of the wire constituting the annulus decrease.

When the external force applied to the actuating member is removed, the ring body returns the actuating member to its original position by the force to return to its original state, so that the elastic force of the tension spring moving to the actuating member is very soft.

When both end portions of the wire rod such as the base material act as the magnetic members or when the two edge portions are engaged, there is no movement of the overlapping portions of the wire rods constituting the ring body, and only the deformation of the ring member causes the operation member to move. The spring constant suddenly increases because it enables the movement of.

Therefore, it is possible to set the limit position of the moving member by the tension spring itself.

Claims (2)

A tension spring, wherein the wire having a spring property is bent in a ring shape to form a ring body having a portion overlapping at both ends thereof to exert a tensile force in the radial direction of the ring body. The tension spring as set forth in claim 1, wherein both ends of the wire rod which are bent in a ring shape are bent inward to form a locking portion.