The present invention relates to a rivet-type contact and a method for manufacturing the same, and especially relates to a rivet-type contact that can decrease the amount of use of a contact material such as an Ag alloy, and has a good durability life.
As a fixed contact and a movable contact of a relay, a switch, or the like, rivet-type contacts have been conventionally used. The rivet-type contacts are made of a head part that acts as an electric contact, and a leg part that is deformed by caulking when being fixed to various devices. Then, at fixation of the rivet-type contact, the leg part of the rivet-type contact is inserted into a hole drilled in a base in advance, and is pressed with a caulking tool from a back side (leg part side). With the caulking processing, the diameter of the leg part is increased and the leg part is closely attached to a wall surface of the hole, and the diameter of an end part of the leg part becomes larger than that of the hole, so that the fixation is made.
In the past, the entire rivet-type contact has been configured from a contact material. However, an Ag alloy or the like, which is the contact material, is expensive. Therefore, to decrease the material cost, a two-layer rivet-type contact has been typically used, in which the contact material is partially applied, and a relatively low cost material (base material) such as copper or a copper alloy is applied to other parts.
As a configuration of the two-layer rivet-type contact, one in which the head part is formed into a two-layer structure, an upper surface part of the head part is configured from the contact material, and a lower surface part of the head part and the leg part are made of the base material such as Cu is known, for example (
Further, as the two-layer rivet-type contact, there are one in which the above-described head part is formed into a two-layer structure, and one in which the entire head part is configured from the contact material and the leg part is configured from the base material (
Conventional two-layer rivet-type contacts are satisfactory in terms of achievement of both of a member cost and a contact function. However, according to the present inventors, the conventional two-layer rivet-type contacts have problems of being inferior to single-layer rivet-type contacts in durability life, and being damaged relatively early.
Forms of the damage caused in the conventional two-layer rivet-type contacts mainly include separation and dropping out of the head part associated with consumption of a contact material part of the head part. The fixed contact (rivet-type contact) in an electrical device such as a relay is subject to a load of arc heat/Joule heat when coming in contact with the movable contact. Although an Ag-based alloy having wear resistance is applied to the contact material in consideration of the heat load and friction, the consumption cannot be completely eliminated even in such a case.
Further, in the fixed contact of a relay or the like, a load is often applied to an end part due to its structure, and the loaded part is severely consumed. Therefore, in the rivet-type contact (
Further, when the entire head part is configured from the contact material (
The problems in the two-layer rivet-type contacts are assumed to be caused due to the configuration of combination of different materials. However, the configuration is rational when the member cost is considered. Therefore, the point is to give consideration to the durability. The present invention provides a rivet-type contact having a two-layer configuration, in which the separation/dropping out of the contact material as described above does not occur, and having an excellent durability life.
To solve the problems, the present inventors have re-examined the problems of the two-layer rivet-type contacts. Here, the problem about the rivet-type contact in which the upper surface of the head part is configured from the contact material is that the contact material, which becomes thin due to uneven wear, is separated from the end part. Therefore, the present inventors have considered that it is favorable to avoid a structure in which the base material is exposed to a side surface of the head part.
Meanwhile, as for the phenomenon in which the entire head part drops off the two-layer rivet-type contact in which the entire head part is a contact material, first, a small joined area is considered as a cause. However, even if the joined area is small, condition setting is performed in the manufacturing process so that sufficient joining strength can be obtained. Therefore, the phenomenon of the dropout of the head part cannot so easily happen. Thus, the present inventors have further conducted examination. As a result, it has been confirmed that the cause of the dropout of the head part happen in the caulking processing for fixation of the rivet-type contact. That is, during the caulking processing, a joint part of the leg part is subject to stress concentration from a plurality of directions. This stress-concentrated part is a part corresponding to joined interface between the head part (contact material) and the leg part (base material). Since processability and hardness of the head part and the leg part are different, caulked wrinkles are caused in the vicinity of the joint of the leg part, as illustrated in
The present inventors have considered that, from the above examination result, it is favorable to apply two structures: (i) the base material is not exposed to the side surface of the head part; and (ii) a joined interface of different types of materials is not formed in the joint part of the leg part, in order to secure the durability regarding the configuration of the two-layer rivet-type contact in which the contact material and the base material are combined. Then, the present inventors have arrived at the present invention, which is a two-layer rivet-type contact satisfying the above conditions.
That is, the present invention is a rivet-type contact including: a head part made of a contact material; and a leg part having a narrower width than the head part, and configured to deform at fixation, wherein the leg part includes, in an end part of a side of the head part, a flange part having a larger diameter than the leg part, the flange part is embedded in the head part such that a lower end surface of the flange part and a lower end surface of the head part become approximately flat, and a length (l) between an endmost part of the flange part and a starting point of the leg part satisfies l<L with respect to a length (L) between an endmost part of the head part and the starting point of the leg part.
The rivet-type contact according to the present invention is obtained such that the flange part having a larger diameter than the leg part is formed in an end part of the side of the head part regarding the shape of the leg part, as illustrated in
Further, in the rivet-type contact according to the present invention, the length (l) between an endmost part of the flange part and a starting point of the leg part satisfies l<L with respect to the length (L) between an endmost part of the head part and the starting point of the leg part, on the lower end surface of the head part. In this way, the width of the flange part is made smaller than the width of the head part, and the entire flange part is embedded in the head part, so that the base material will not be exposed to the side surface of the head part. Accordingly, the separation due to consumption of the contact material can be suppressed. However, when the head part is unevenly worn, there is a high possibility that the base material is exposed if the width l of the flange part is too large, and the separation may happen. Meanwhile, a joined area is decreased and the leg part may be dropped off the head part if the width l of the flange part is too small. Considering balance of them, the width l of the flange part is favorably 0.5L≤l≤0.9L.
Further, an embedded depth (x) of the flange part is favorably 1/10 to 1/3 of a height (Y) of the head part. Joining becomes insufficient and the leg part may be drop off if the embedded depth is too shallow. In contrast, if the embedded depth is too deep, the contact material becomes thin by the depth and the durability becomes insufficient. Therefore, it is favorable to employ the above-described range in terms of balance between the joining strength and securing of the thickness of the contact material. Note that a deepest part is employed as the embedded depth of the flange part, when an upper surface of the flange part has a curved surface as described below.
Further, with regard to the shape of the flange part, a side surface of the flange part may be parallel to the side surface of the head part (
The contact material that forms the head part is favorably an Ag-based contact material. To be specific, the Ag-based contact material is pure Ag or an Ag alloy (an Ag—Ni alloy, an Ag—Cu alloy, or the like). As the Ag alloy, an oxide dispersion-type Ag alloy (an Ag—SnO2-based alloy, an Ag—SnO2—In2O3-based alloy, an Ag—ZnO-based alloy, or the like) can be applied. Further, as the base material that configures the leg part having the flange part, Cu or a Cu alloy (a Cu—Ni alloy, a Cu—Sn alloy, or the like) is applicable.
As a method of manufacturing the rivet-type contact according to the present invention, a leg part to which a flange part is formed, and a head part in which a recess for allowing the flange part to be embedded is formed are separately manufactured, and the leg part and the head part may be joined. However, production efficiency of the method is not very good, and moreover, the joining strength between the leg part and the head part may not be secured.
Therefore, a method of manufacturing a rivet-type contact according to the present invention includes: causing a first billet made of a contact material and a second billet made of a base material to butt against each other and pressure-welding the first billet and the second billet to manufacture a joined material; combining a joining punch having a recessed space, and a joining dice having a cylindrical space to form a rivet-shaped space; pressing the joined material into the space of the joining punch from a lower part of the joining dice; and filling the space in the joining punch with the first billet and forming a head part, and embedding a part of the second billet in the head part to form a flange part.
In the method of manufacturing the rivet-type contact according to the present invention, for a start, the first billet made of a contact material and the second billet made of a base material are pressure-welded and a joined material is obtained. This process of manufacturing the joined material is an essential process for manufacturing the rivet-type contact according to the present invention. The first billet and the second billet are firmly joined, which will help a joined surface follow deformation of the first billet (head part) in forming a flange part in the next process of forming the head part. Therefore, a load at the time of the pressure welding is favorably 0.5 to 2.0 ton·f.
The manufactured joined material is pressed into a mold formed by a combination of the joining punch and the joining dice, so that the rivet-type contact can be obtained. In this forming process, the first billet pressed into the space of the joining punch is formed into a head part shape while being deformed due to a wall surface of the joining punch, and the joined surface of the joined material follow the deformation and forms the flange part together with a part of the second billet. A load in the pressing of the joined material may be any load as long as the first billet can be deformed/processed with the load, and can be adjusted according to a type of the contact material of the first billet.
The manufacturing of the joined material and the forming processing by pressing can be performed at a normal temperature. Further, with regard to the rivet-type contact in which the head part and the flange part are formed, the head part may be appropriately pressed and molded. This molding process is useful when strict control is required for the shape and dimension of the head part.
As described above, the rivet-type contact according to the present invention suppresses separation/dropout of the contact material and has an excellent durability life while having a two-layer structure in which a contact material and a base material are combined.
Hereinafter, a favorable embodiment of the present invention will be described.
Then, as illustrated in
Next, a joining punch was set on the joining dice, and the joined material was processed into a rivet shape, as illustrated in
After the creation of the rivet-type contact with a molding, the joining punch was moved, and an upper surface of the head part was pressed and molded, as illustrated in
Then, the durability was evaluated with respect to the manufactured rivet-type contact. Durability evaluation was performed such that the rivet-type contact was attached to a hinge-type alternating current general relay, as a fixed contact, opening/closing operations were repeated in a state of a current load, and the number of times of opening/closing of the durability life until occurrence of failure was measured. In this evaluation test, as a comparative example, a rivet-type contact in which an Ag alloy that has the same shape as
Load: Resistance load
Frequency of opening/closing: ON for one second/OFF for 10 seconds
Contact force: 1.96×10−1N (20 gf)
Movable Contact Dimensions: ϕ 3.0 mm×t 0.35 mm
The durability test was conducted with a plurality of relay test machines, and the numbers of times of opening/closing of the durability life, at which failure occurred in each relay, was plotted on a Weibull probability paper. Results are illustrated in
The two-layer rivet-type contact according to the present invention suppresses the separation/dropout of the contact material in the use process. In the present invention, improvement of the durability life is added to the primary characteristic of the two-layer rivet-type contact, which is the decrease in the amount of use of the contact material and the suppression of the member cost.
Number | Date | Country | Kind |
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2012-273136 | Dec 2012 | JP | national |
Number | Date | Country | |
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Parent | 14649263 | Jun 2015 | US |
Child | 16692227 | US |