JPS637700Y2 - - Google Patents

Description

[Detailed description of the invention] The present invention relates to an improvement of a link fulcrum mechanism, and its application is not particularly limited, but it is suitable for use, for example, in a link mechanism for opening and closing a damper in an automobile air conditioner. It is something.

Conventionally, in the link mechanism for the above-mentioned applications, when supporting the link rotatably, an elastic material is placed between the link and its support member,
There are known structures in which elastic force is applied to the links, but in this conventional structure, when the elastic force of the elastic material is set strong to prevent the links from tilting, this strong elastic force always acts on the links. Therefore, a problem arises in that the operating force of the link becomes heavy. Conversely, if the elastic force of the elastic material is set weakly,
A problem arises in that links tend to tilt.

In view of the above, it is an object of the present invention to provide a link fulcrum mechanism that allows the link to be easily operated with a small force and that also reliably prevents the link from tilting.

The present invention will be described below with reference to embodiments shown in the drawings. In Figures 1 and 2, 1 is a link made of metal such as an iron plate or a suitable resin with excellent strength, and has a band-like shape. It constitutes an opening/closing link mechanism such as a switching damper. The left end side of the link 1 is connected to, for example, a manual operating lever mechanism of an air conditioner, and the right end side is connected to the shaft of the damper. 1a is a circular hole in link 1. Reference numeral 2 denotes a support base portion of the link 1, which is integrally molded on the outer surface of the resin case 3 of the internal/external air switching box of the air conditioner or the heater unit of the air conditioner.
This support part 2 is formed into a cylindrical protrusion,
a stepped portion 2a that supports one surface 1b of the link 1;
A shaft portion 2b into which the hole 1a of the link 1 is rotatably fitted.
It has

Reference numeral 4 denotes a substantially disc-shaped holding piece made of highly elastic resin such as polyacetal, metal spring material, iron plate, etc., and has a mounting hole 4a in the center for easy installation. It is fixed onto the shaft portion 2b by passing a screw 5 or the like through the hole 4a. This presser piece 4 is provided with a dividing groove 4b,
A plurality of narrow elastic legs 4c (three in this example) are formed. A plurality (three in this example) of wide stopper portions 4d with low elasticity are formed between the elastic leg portions 4c.

Small circular projections 4e are formed at the tips of the elastic legs 4c, respectively.

The elastic leg portion 4c is in contact with the other surface 1c of the link 1 at the small protrusion 4e with a small elastic force. The small protrusion 4e serves to reduce sliding friction with the link 1. Further, the stopper portion 4d is arranged to face the other surface 1c of the link 1 with a small gap c (for example, 0.1 mm) interposed therebetween.

According to the above configuration, while the amount of inclination _A1 of the link 1 in the direction of the arrow A is small, the elastic leg 4 is attached to the link 1.
Since only a slight force is applied by c, the link 1 can be operated easily.

On the other hand, the inclination amount A ₁ of the link 1 is a constant value, that is, the minute gap c between the stopper part 4d and the link 1
If the size becomes larger than , the tip of the stopper portion 4d comes into contact with the link 1, and a suddenly large pressing force acts on the link 1, so that the inclination of the link 1 can be ultimately limited to within the above-mentioned constant value c.

FIG. 3 explains the above-mentioned action, and the vertical axis shows the link holding force F by the holding piece 4, and the horizontal axis shows the link inclination amount _A1 , where X indicates the characteristics of the present invention. , Y ₁ indicates the characteristics of a conventional product using an elastic material with a small spring constant (elastic modulus of the material), and Y ₂ indicates the characteristics of a conventional product using an elastic material with a large spring constant. . Further, W indicates the characteristic when the elastic leg portion 4c of the presser piece 4 is not provided.

In order to absorb dimensional variations in the link 1, support part 2, etc. that make up the link mechanism, the gap C
It is necessary to set the link holding force F to be larger than the dimensional variation (C≧dimensional variation), but in order to improve the operation feeling, the link holding force F can be kept at a relatively small constant value until the constant inclination determined by the above gap C. desirable. However, this is not possible if the link pressing force F is zero, as this will cause backlash. Further, in order to suppress the inclination A ₁ of the link 1 to within a certain inclination C, it is desirable that when the inclination A ₁ exceeds a certain value C, the link holding force F increases rapidly. Therefore, the ideal characteristic of the presser piece 4 is represented by K in FIG.

On the other hand, according to the present invention, the holding piece 4 has the elastic leg portion 4c with high elasticity (small spring constant) and the stopper portion 4d with low elasticity (large spring constant), thereby achieving ideal characteristics. It is possible to obtain a characteristic X that is close to K, which greatly contributes to improving the operability of the link.

In the above embodiment, the pressing piece 4 is fixed by the screw 5. However, for example, a small diameter portion may be formed on the shaft portion 2b, and the mounting hole 4a of the pressing piece 4 may be inserted into the small diameter portion.
The holding piece 4 may be fixed by fitting a part such as a circular clip onto the small diameter portion, and the fixing structure of the holding piece 4 may be modified in various ways.

As described above, according to the present invention, the link 1 is held down using the specially shaped presser piece 4 having the elastic leg portion 4c with high elasticity and the stopper portion 4d with low elasticity. It can be easily operated by force, and when the link 1 is about to tilt, the stopper portion 4d has a great effect in that the tilt of the link 1 can be reliably suppressed within a certain value.

[Brief explanation of the drawing]

Fig. 1 is a sectional view showing one embodiment of the present invention;
This figure is a plan view of the presser piece 4 shown in FIG. 1, and FIG. 3 is an explanatory diagram of the operation of the present invention and the conventional product. DESCRIPTION OF SYMBOLS 1...link, 2...support base part, 2a...step part, 2b...shaft part, 4...presser piece, 4c...elastic leg part, 4d...stopper part.

Claims (1)

[Scope of utility model registration request] A support mechanism for rotatably supporting a link, the support base having a stepped part supporting one side of the link, and a shaft part into which a hole of the link rotatably fits; a presser piece fixed to the shaft portion and arranged to press the other side of the link; and a fulcrum mechanism for a link, characterized in that a stopper portion with low elasticity is formed on the other surface of the link to face each other with a small gap therebetween.