SPRING

Abstract

This spring used for a suspension device for a vehicle is provided with: a metal wire material which constitutes a spring section and which has a cover layer provided on the surface thereof; and a seat section which is subjected to a load acting on the spring section, is formed from an elastically deformable material, and is bonded to the cover layer by an adhesive. The difference between the hardness of the seat section and the hardness of the adhesive is greater than the difference between the hardness of the adhesive and the hardness of the cover layer.

Claims

1. A spring for a suspension device, configured to be used in a suspension device for a vehicle, comprising: a wire made of metal, constituting a spring section, and provided with a coating layer on a surface of the wire; and a seat section made of an elastically deformable material, configured to bear load acting on the spring section, and adhered to the coating layer by an adhesive, wherein a difference between a hardness of the seat section and a hardness of the adhesive is greater than a difference between the hardness of the adhesive and a hardness of the coating layer.

2. The spring for a suspension device according to claim 1, wherein the spring section is a coil spring, and the seat section is adhered to an end turn section of the spring section.

3. The spring for a suspension device according to claim 1, wherein a material of the seat section comprises rubber.

4. The spring for a suspension device according to claim 1, wherein a material of the seat section comprises resin.

5. The spring for a suspension device according to claim 2, wherein a material of the seat section comprises rubber.

6. The spring for a suspension device according to claim 2, wherein a material of the seat section comprises resin.

7. The spring for a suspension device according to claim 3, wherein a material of the seat section comprises resin.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0012] FIG. 1 is a diagram showing a spring according to an embodiment of the invention.

[0013] FIG. 2 is a diagram showing a seat section in an embodiment.

[0014] FIG. 3 is a diagram showing an adhesion layer and its vicinity in an embodiment.

DETAILED DESCRIPTION OF EMBODIMENTS

[0015] The following embodiment of the invention shows an example of an embodiment falling within the technical scope of the present disclosure. In other words, the invention-specifying matters recited in the claims are not limited by specific configurations, structures, or the like shown in the following embodiments.

[0016] Arrows or the like indicating directions marked in the drawings are described to provide easy understanding of the relationships among the drawings. The invention described in this specification is not limited by the directions marked in the drawings.

[0017] At least a member or portion described with a reference numeral is provided at least one in number unless specified with the term one or the like. In other words, two or more such members may be provided when not specified with the term one or the like.

[0018] This embodiment is an example in which the spring of the present disclosure is applicable as a spring for a suspension device, such as a spring for a suspension device for a vehicle.

First Embodiment

1. Configuration of Spring for Suspension Device

[0019] A spring 1 for a suspension device shown in FIG. 1 (hereinafter referred to as a spring 1) comprises at least a spring section 2 and a seat section 3. The spring section 2 is a spring constituted by a wire 2A made of metal.

[0020] A coating layer 2B covering the entire wire 2A is provided on the surface of the wire 2A. The spring section 2 of this embodiment is a coil spring formed in a coil shape. The coating layer 2B is a thin film formed by painting and baking a resin such as a thermosetting resin.

[0021] The seat section 3 is a seat bearing load acting on the spring section 2, and is, for example, a rubber seat. The seat section 3 is made of an elastically deformable material. The material of the seat section 3 may exemplarily include at least one of rubber and resin. As shown in FIG. 2, the seat section 3 is provided with a groove section 3A into which a portion of the wire 2A is fitted/embedded.

[0022] The groove section 3A is a groove into which a portion of the wire 2A constituting an end turn section is fitted. In other words, the seat section 3 is arranged at an end side of the spring section 2 in a coil shape in the coil axial direction, and is in contact with the portion of the wire 2A constituting the end turn section (see FIG. 1). The wire 2A described below is the portion of the wire 2A constituting the end turn section.

[0023] The wire 2A is adhered by an adhesive to the inner wall surface of the seat section 3, i.e., the groove section 3A. Therefore, as shown in FIG. 3, an adhesion layer AD of the adhesive is formed between the wire 2A and the inner wall surface of the groove section 3A.

2. Structure of an Adhesion Part

[0024] In this embodiment, as the adhesive, an adhesive is used such that the difference between the hardness of the seat section 3 and the hardness of the adhesive (the adhesion layer AD) is greater than the difference between the hardness of the adhesive (the adhesion layer AD) and the hardness of the coating layer 2B.

[0025] Specifically, the adhesive is an adhesive with excellent weather resistance (for example, an epoxy-based adhesive). The seat section 3 is made of a rubber such as a natural rubber. The coating layer 2B is made of an epoxy-polyester-based resin. The adhesion layer AD of this adhesive has a thickness of about 1 mm. The coating layer 2B has a thickness of about 40 m or more.

[0026] The hardness of the adhesive (the adhesion layer AD) is the hardness obtained when the adhesive has been fully hardened. Specifically, for example, in the case of the adhesive of this embodiment, the hardness is that obtained after the adhesive has been kept at room temperature for about 8 hours, or after the adhesive is heated in a furnace at 100 C. for about 20 minutes.

3. Features of the Spring of this Embodiment

[0027] Generally, peeling is more likely to occur at a boundary surface with a greater hardness difference. Therefore, for the spring 1 of this embodiment, peeling is more likely to occur at the boundary surface between the seat section 3 and the adhesion layer AD than at the boundary surface between the adhesion layer AD and the coating layer 2B.

[0028] Therefore, even in the case where peeling occurs at the adhesion layer AD, the coating layer 2B can be maintained in a state of being covered with the adhesion layer AD, and thus early damage of the coating layer 2B can be prevented. Hence, the wire 2A made of metal can be prevented from being damaged early, and therefore early damage of the spring section 2 can be prevented.

Other Embodiments

[0029] In the above embodiment, the adhesive is an epoxy-based adhesive, the seat section 3 is made of a rubber such as a natural rubber, and the coating layer 2B is made of an epoxy-polyester-based resin. However, the invention disclosed in the specification of the present disclosure is not limited thereto.

[0030] In other words, in this invention, the specific materials may be materials other than those described above, provided that the difference between the hardness of the seat section 3 and the hardness of the adhesive (the adhesion layer AD) is greater than the difference between the hardness of the adhesive (the adhesion layer AD) and the hardness of the coating layer 2B.

[0031] Furthermore, the present disclosure is not limited to the above embodiments, without departing from the gist of the invention recited in the claims. Therefore, at least two of the above multiple embodiments may be combined. Furthermore, the present disclosure is also applicable to springs other than the spring for a suspension device.