This application claims the benefit of Japanese Patent Application No. 2014-227035, filed Nov. 7, 2014, which is hereby incorporated by reference wherein in its entirety.
1. Field of the Invention
The present invention relates to a method of manufacturing a diaphragm with a contact, and a pressure switch including a diaphragm with a contact manufactured in accordance with the method.
2. Description of the Related Art
An air-conditioning system or the like generally includes a pressure switch which is provided to piping and configured to detect a pressure of a coolant, carbon dioxide gas, and the like in the piping and to send a detection output. As disclosed in Japanese Patent Laid-Open No. 2002-279875, such a pressure switch includes: a casing assembly connected to a coolant passage via one end of a joint pipe; a diaphragm laminate which partitions off a pressure sensing chamber as a pressure-receiving chamber in the casing assembly; and a rod capable of bringing a movable contact and a fixed contact that are located in the casing assembly close to or away from each other in response to a displacement of the diaphragm laminate. In the above-described configuration, grid-like multipoint contacts are formed on an upper face of the fixed contact which is opposed to the movable contact. Accordingly, if a foreign substance such as a fiber or a contaminant is caught between the fixed contact and the movable contact, continuity between the fixed contact and the movable contact is secured whereby occurrence of a continuity defect is avoided because the foreign substance is pushed into a recess between the multipoint contacts.
In addition, as disclosed in Japanese Patent Laid-Open No. H10-134681 (1998), for example, there is also proposed a pressure switch which is deprived of an actuating force transmission member such as the aforementioned actuating pin and is provided with a curved diaphragm in place of the above-described movable contact and a central part of the curved diaphragm is configured to invert so that the diaphragm can come into contact with or move away from a fixed contact. This diaphragm is held by a pressing portion of an insulator member to be fitted into a recess of a body, such that the curved portion of the diaphragm is opposed to the fixed contact. A surface of this diaphragm may be subjected to plating.
In the case of the pressure switch as disclosed in Japanese Patent Laid-Open No. H10-134681 (1998) mentioned above, when a peak (a contact) of the curved portion of the diaphragm subjected to plating is repeatedly brought into contact with the aforementioned fixed contact, a plated membrane at the peak of the curved portion of the diaphragm is peeled, with the result that the peak (the contact) of the curved portion of the diaphragm is worn. As a consequence, there is a risk of instability of electric connection between the peak (the contact) of the curved portion of the diaphragm and the fixed contact.
In view of the above-described problem, the present invention aims to provide a method of manufacturing a diaphragm with a contact and a pressure switch including a diaphragm with a contact manufactured in accordance with the manufacturing method. The method and the pressure switch can improve durability of a contact of a diaphragm and eventually improving continuity reliability as a switch.
To achieve the above described the object, a method of manufacturing a diaphragm with a contact according to the present invention comprises: bonding a contact stock to a stock made of a thin metal sheet material, the contact stock forming a movable contact having an excellent ability of durability and electrical continuity; and blanking the stock of a diaphragm with a contact which is bonded to the contact stock to form a diaphragm with a contact.
In addition, method of manufacturing a diaphragm with a contact according to the present invention comprises: blanking a stock made of a thin metal sheet material into a shape corresponding to a diaphragm; and bonding a contact stock to the stock blanked into the shape corresponding to the diaphragm, the contact stock forming a movable contact having an excellent ability of durability and electrical continuity to form a diaphragm with a contact.
In addition, a pressure switch including a diaphragm with a contact according to the present invention comprises: a housing to accommodate a connection terminal having a fixed contact therein; a pressure-receiving chamber communicating with a duct to which an actuating pressure is supplied; and a diaphragm formed in accordance with any of the above-described methods of manufacturing a diaphragm with a contact, configured to be displaced in response to a pressure inside the pressure-receiving chamber, and provided with a movable contact to come into contact with the fixed contact when the pressure inside the pressure-receiving chamber is equal to or above a predetermined value.
A contact face of the movable contact of the diaphragm may be formed into an annular shape, and a contact face of the fixed contact may be formed substantially into a cross shape. Alternatively, the contact face of the movable contact of the diaphragm may be formed into an annular shape, and the contact face of the fixed contact may be formed substantially into a Y-shape.
In addition, the contact face of the movable contact of the diaphragm may be formed substantially into a cross shape, and the contact face of the fixed contact may be formed into an annular shape. Alternatively, the contact face of the movable contact of the diaphragm may be formed substantially into a Y-shape, and the contact face of the fixed contact may be formed into an annular shape. Moreover, the contact stock may be made of an alloy containing any one of tin, indium, zinc, and nickel.
According to the method of manufacturing a diaphragm with a contact of the present invention, and the pressure switch including the diaphragm with a contact manufactured in accordance with the method, the method comprises bonding a contact stock to a stock made of a thin metal sheet material, the contact stock forming a movable contact having an excellent ability of durability and electrical continuity; and blanking the stock of a diaphragm with a contact which is bonded to the contact stock to form a diaphragm with a contact, whereby it is possible to improve durability of the contact of the diaphragm, and eventually to improve continuity reliability as a switch.
Further features of the present invention will become apparent from the following description of exemplary embodiments (with reference to the attached drawings).
The pressure switch is attached, for example, to a not-illustrated hydraulic device or piping to supply air, a coolant, water, or the like via a connection joint 28.
As shown in
The casing 10 as a housing is formed by using a resin material, for example, and is provided with a recess 10A located on inside of the casing 10 and designed to accommodate the fixed contact 13 of the connection terminal 12. An external connection part of the connection terminal 12 passes through a hole in the casing 10 and projects into a cavity which is formed on the outside. The external connection part of the connection terminal 12 is connected to a not-illustrated pressure detection circuit. Accordingly, when the movable contact 20br of the diaphragm 20B comes into contact with the fixed contact 13 as shown in
The diaphragm assembly 20 is disposed in such a way as to serve as a partition between a pressure-receiving chamber 28CH communicating with a flow passage 28a of the connection joint 28 and an open end portion of the casing 10. The diaphragm assembly 20 comprises, as its main constituents: an upper plate 20A in contact with a peripheral edge of the open end portion of the casing 10 and with an O-ring 18; a lower plate 20C in contact with a peripheral edge of the pressure-receiving chamber 28CH of the connection joint 28 and with an O-ring 25; and the diaphragm 20B sandwiched between the upper plate 20A and the lower plate 20C opposed to each other.
The upper plate 20A is formed into an annular shape with a metal material, for example, and by press forming, cutting, die casting, forging, or the like.
The lower plate 20C is formed into an annular shape with a metal material, for example, and by press forming, cutting, die casting, forging, or the like. An annular groove into which the O-ring 25 is inserted is formed in the connection joint 28 at a peripheral edge of a hole of the lower plate 20C concentrically with the peripheral edge of the pressure-receiving chamber 28CH of the connection joint 28. The pressure-receiving chamber 28CH communicating with the flow passage 28a of the connection joint 28 is formed from a surface of the diaphragm 20B, an inner peripheral portion of the lower plate 20C, and an inner peripheral portion of the connection joint 28. On this occasion, an outer peripheral edge of the diaphragm 20B is sandwiched between the upper plate 20A and the lower plate 20C.
The diaphragm assembly 20 is produced by integrating the upper plate 20A and the lower plate 20C together while sandwiching the diaphragm 20B in between, by welding and thus bonding outer peripheral edges thereof. As a consequence, welded portions are formed on outer peripheral portions of the upper plate 20A and the lower plate 20C.
The diaphragm 20B is formed from a thin metal sheet material such as a stainless steel plate, which has corrosion resistance to the fluid supplied through the flow passage 28a in the connection joint 28, for example.
As shown enlarged in
In the above-described example, the diaphragm assembly 20 includes the upper plate 20A, the lower plate 20C, and the diaphragm 20B. However, the present invention is not limited to this example. For instance, the diaphragm assembly may be formed from the upper plate 20A and the diaphragm 20B, or formed from the lower plate 20C and the diaphragm 20B. Alternatively, instead of providing the diaphragm assembly 20, only the diaphragm 20B may be sandwiched between the casing 10 and the connection joint 28 directly through the O-rings.
As shown enlarged in
As shown enlarged in
Thus, when the diaphragm 20B is inverted, the cross-shaped contact face 13bt of the fixed contact 13 comes into contact with the annular movable contact 20br at four positions as shown enlarged in
Note that the contact face 13bt at the end surface of the contact portion 13B described above is not limited to this example. For instance, as shown in
In
In the above-described configuration, when a pressure inside the pressure-receiving chamber 28CH is below a predetermined value, as shown in
In the above-described example, the end surface of the contact portion 13B of the fixed contact 13 has the cross-shaped contact face 13bt. However, the fixed contact is not limited to this example. For instance, as shown enlarged in
The fixed contact 23 having the contact face 23bt is made of copper-based metal or iron-based metal, for example, and includes a columnar portion 23A to be joined to the lower end of the connection terminal 12, and a contact portion 23B of a truncated cone shape integrally formed at a lower end of the columnar portion 23A.
The substantially Y-shaped contact face 23bt is formed from portions radially diverging at intervals of 120°, for example. Cavities 23bd are formed at three positions around the contact face 23bt which is a flat end surface of the contact portion 23B.
In this case, when the diaphragm 20B is inverted, the Y-shaped contact face 23bt of the fixed contact 23 comes into contact with the annular contact 20br at three positions.
Note that the contact face 23bt at the end surface of the contact portion 23B is not limited to this example. For instance, as shown enlarged in
A fixed contact 24 having the contact face 24bt is made of copper-based metal or iron-based metal, for example, and includes a columnar portion 24A to be joined to the lower end of the connection terminal 12, and a contact portion 24B of a truncated cone shape integrally formed at a lower end of the columnar portion 24A.
The substantially Y-shaped contact face 24bt is formed from portions radially diverging at intervals of 120°, for example. Cavities 24bd are formed at three positions around the contact face 24bt which is the convex arc-shaped surface of the contact portion 24B.
In this case, when the diaphragm 20B is inverted, the Y-shaped contact face 24bt of the fixed contact 24 comes into contact with the annular movable contact 20br at three positions.
Furthermore, the fixed contact is not limited to the examples shown in
In this case, as shown enlarged in
In addition, a diaphragm 40B to be combined with the fixed contact 34 is not limited to the above-described example. For instance, as shown in
The diaphragms 20B, 30B, and 40B described above are each manufactured in accordance with an example of a method of manufacturing a diaphragm with a contact of the present invention to be described below.
In the case of manufacturing a diaphragm 56 with a contact (see
Accordingly, as shown in
Next, as shown in
Accordingly, characteristics of the movable contact 50′ai of the diaphragm 56 with a contact including its abrasion resistance and continuity reliability are improved as compared to those of the diaphragm with a contact which is subjected to plating.
In the above-described example, the diaphragm 56 with a contact is produced by forming the stock 54 of a diaphragm with a contact and then blanking the stock 54 of a diaphragm with a contact by using the press machine. However, the diaphragm 56 with a contact does not always have to be manufactured as described above. For example, the stock 52 may be first formed into a circular piece by blanking and then the contact stock 50ai may be bonded by resistance welding to the circular stock produced by blanking. On this occasion, the contact stock 50ai may be bonded to the stock 52 not by resistance welding but by other bonding methods including brazing, diffusion bonding, and the like.
The example of the pressure switch according to the present invention is applied to the normally-open switch. However, the present invention is not limited to this example and may naturally be applied to a normally-closed switch, for instance. Moreover, the diaphragm with the contact manufactured by an example of a method of manufacturing a diaphragm with a contact according to the present invention is applied to the pressure switch to be connected to the piping via the connection joint 28. However, the present invention is not limited to this example. For instance, the present invention may also be applied to a pressure switch disclosed in Japanese Patent Laid-Open No. H 02-220320 (1990) or Japanese Patent No. 3,031,679.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
Number | Date | Country | Kind |
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2014-227035 | Nov 2014 | JP | national |