RU2413346C2 - Device with housing containing contact pin tightly connected to it - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: device with housing (1), in which there installed is at least one contact pin (3), differs by the fact that pin (3) includes the section covered with sleeve (6) containing circular cylindrical outer surface; at that, sleeve is tightly attached to the pin and located in seat (20) of the housing, which is restricted with circular cylindrical wall (26). At that, sealing gasket (30) is installed between outer surface of sleeve and the wall restricting the seat.

EFFECT: improving tightness of connection between contact pins and housing.

8 cl, 5 dwg

Description

The present invention relates to any devices, for example, such as connectors, electronic boxes, and in general to any devices containing a housing in which one or more contact pins are installed, where tightness of the connection between the pin and the housing is a paramount requirement.

For example, gas nozzles are known which comprise a diaphragm driven by an electromagnet which is supplied with electric current through contact pins made protruding from the nozzle body.

As a rule, the nozzle body is formed or molded in such a way that it covers part of the pin, forming an intermediate space between the body and the pin. This interstitial space is not completely sealed, and gas in the nozzle under pressure can escape through this interstitial space.

It was proposed to install a gasket between the body and the pin, but in practice this solution can only be applied to circular contact pins.

The present invention is to improve the tightness between the contact pins and the housing in which these pins are installed, including in the case of non-circular pins.

According to the invention, there is provided a device with a housing in which at least one contact pin is located and in which the pin contains a portion closed by a sleeve containing a circular cylindrical outer surface, the sleeve being hermetically attached to the contact pin and disposed in the housing socket bounded a round cylindrical wall, while between the outer surface of the liner and the wall bounding the socket, a sealing gasket is installed.

Thus, when installing an additional part between the contact pin and the housing, instead of one intermediate space, two intermediate spaces are obtained:

- the first intermediate space between the pin and the sleeve, which is sealed due to hermetic fastening, for example, by means of glue or soldering;

- a second intermediate space between the sleeve and the body, which is sealed by means of a gasket installed between two round cylindrical walls.

These two intermediate spaces are sealed by more efficient sealing methods than the simple contact between the body and the pin obtained by injection molding the body around the pin, therefore, the tightness of the device is improved.

The object of the present invention is also a method of manufacturing such a device, comprising the following steps:

- put the sleeve on the pin and lock in the longitudinal direction relative to the pin; and

- the sleeve is fixedly connected to the pin due to capillary impregnation with a liquid coupling substance seeping between the pin and the sleeve.

The present invention will be more apparent from the following description with reference to the accompanying drawings, in which:

figure 1 is a side view of the cap of the gas nozzle in accordance with the present invention, shown in partial section along the line I-I of figure 2 at the level of one of the contact pins;

figure 2 is a front view of the nozzle cap shown in figure 1;

figure 3 is a partial enlarged view of the lid shown in figure 1, at the level of the sleeve;

4 is a front view of the contact pin and sleeve during the stage of the fixed connection of the sleeve with the pin;

figure 5 is an enlarged sectional view along the line V-V of figure 4.

As shown in FIG. 1, the gas nozzle cap according to the present invention comprises a housing 1 comprising a lower part adapted to be mounted on an nozzle not shown in the drawing. In the housing 1 of the cover is an electromagnet (not visible in the drawing), designed to actuate the movable element of the nozzle, for example, a diaphragm.

The housing 1 contains a part made in the form of a connector 2, in which there are metal contact pins 3 (only one pin is visible in the drawing), designed to supply electric power to the electromagnet.

Each of the pins 3 contains a free section protruding from the housing 1, then a connection section 5 with a metal sleeve 6, made in continuation of the free section 4.

The sleeve 6 is put on the pin 3 and fastened to it by soldering at the level of the connecting section 5 by means of a soldering alloy, which is positioned so that it completely fills the space between the sleeve 6 and the pin 3, thus providing a tight connection between the sleeve 6 and the pin 3.

To make this connection, as shown in FIG. 4, the pin 3 is placed in a mounting device (not shown) holding the pin 3 so that the free portion 4 has a vertical direction. Then, the sleeve 6 is put on the pin 3. In this case, the pin 3 contains an extension in the form of a hook, the sleeve 6 abuts against the base, while the sleeve 6 naturally stops opposite the connecting portion 5 of the pin 3.

The solder alloy ring 11 is put on the pin 3 so that it rests on the sleeve 6. The solder alloy ring 11 is heated (for example, by means of a high-frequency coil located around the free portion of the pin) so that the solder melts and penetrates due to capillarity between the pin 3 and the sleeve 6. In this regard, a beveled chamfer 12 is made on the sleeve 6, which facilitates the penetration of the molten alloy between the pin 3 and the sleeve 6.

The curing of the alloy for soldering ensures the tightness of the connection between the pin 3 and the sleeve 6.

According to a preferred embodiment of the invention, the sleeve 6 is left radially free relative to the pin 3 at the stage of fixed connection so that the sleeve 6 takes its position radially relative to the pin only due to surface tension in the molten solder.

In this regard, as shown, in particular, in figure 5, in the case of a pin of rectangular cross-section, the sleeve 6 contains a rectangular inner wall 9 parallel to the outer surface 10 of the pin 3. Under the action of surface tension, the brazing alloy forms around the sleeve 6 and the pin 3 gasket of constant thickness, ensuring alignment of the sleeve 6 on the pin 3 and uniform heat transfer between the pin 3 and the sleeve 6.

After that, the pin 3, connected to the sleeve 6, is placed in the mold and around the pin 3 by means of injection molding perform the housing 1.

In this regard, it is necessary that the material used to make the housing have a injection molding temperature lower than the melting temperature of the soldering alloy so that the sleeve cannot detach from the pin during injection molding of the housing 1. For example, if the housing is made of aluminum, then to fix the sleeve on the solder pin, you can use an alloy of tin and aluminum.

As shown, in particular, in FIG. 3, the housing 1 delimits a circular socket 20 in which the sleeve 6 is located. The socket 20 comprises a first circular portion 21 opening outward, then, after the bevel transition 22, a second circular portion of a smaller diameter bounded by a circular a cylindrical wall 26, opposite the circular cylindrical outer surface 13 of the sleeve 6.

The socket 20 extends beyond the end of the sleeve 6 and contains a bottom from which the central bulge 24 begins, which tightly covers part of the outer surface 13 of the sleeve 6, thereby increasing the rigidity of the connection between the pin 3 and the housing 1.

The thickening 24 limits on the outer surface 13 of the sleeve 6 a shoulder 25, preferably of a conical shape, forming a saddle for a toroidal gasket 30 mounted between the outer surface 13 of the sleeve 6 and opposite the wall 26 of the socket 20. Thus, the toroidal gasket 30 provides a seal between the sleeve 6 and case 1.

The part of the socket 20, directly adjacent to the shoulder 25 and located between the wall 26 and the central bulge 24, forms a cavity 27 closed by a toroidal gasket 30 and containing a certain amount of air remaining there after the installation of the toroidal gasket 30 in place. In practice, the cavity 27 should have a sufficiently large volume so that when the toroidal gasket 30 is replaced in the cavity 27, only a slight increase in the pressure of the air in the cavity 27 occurs, and that this pressure increase does not interfere with the movement of the toroidal gasket 30 to the shoulder 25.

In order to prevent the toroidal gasket 30 from being pushed out under the action of gas pressure leaking along the outer surface of the pin 3 to the cavity 27, a retaining ring 31 is installed on the side of the toroidal gasket 30 opposite to the seat 26, while said retaining ring 31 is held by a spring-loaded washer 32 (partially shown in figure 2), which is inserted into the first part 21 of the socket 20, then pressed to the conical transition 22 of the socket 20 so that the base of the petals is fixed on the outer surface of the 13 gil PS 6 due to the effect of self-jamming.

The present invention is not limited to the described embodiment, and may cover any other options that are not beyond the scope defined by the attached claims.

In particular, although the invention was presented for a non-circular pin, it can also be used for a circular pin, and the sleeve allows the use of a toroidal gasket larger than the size of the gasket adapted to the diameter of the pin, and therefore it is easier to install in place.

During the connection of the sleeve with the pin, the sleeve is locked opposite the connecting portion of the pin due to the special shape of the pin, however, external locking can also be provided.

Despite the fact that, as indicated, the sleeve and the pin are soldered using an alloy as solder, the connection of the sleeve and the pin can be carried out by other connecting means, for example, liquid glue. You can also apply other methods of tight fastening, for example, soldering without solder.

As indicated, the sleeve is made of metal, but it can be made of any other material, such as plastic.

According to the described embodiment, the inner wall of the sleeve is parallel to the outer surface of the pin, however, it is possible to provide an inner wall of the sleeve of any shape.

As was shown, the housing tightly covers part of the outer surface of the sleeve, which increases the rigidity of the connection between the pin and the housing, however, the housing may not tightly cover the sleeve. In this case, the seat can be made on the housing so that it is on the wall 26 defining the socket. The saddle can also be made on the outer surface of the sleeve.

In the presented embodiment, the sleeve is located in the socket facing the outside of the housing, however, it can also be in the blind socket. In this case, the gasket can be installed inside the housing.

Claims (8)

1. A device with a housing (1) in which at least one contact pin (3) is installed, characterized in that the pin contains a section (5) closed by a sleeve (6) containing a circular cylindrical outer surface (13), in this case, the sleeve is hermetically attached to the pin and is located in the housing socket (20) bounded by a round cylindrical wall (26), and a sealing gasket (30) is installed between the outer surface (13) of the sleeve and the wall (26) bounding the socket. 2. The device according to claim 1, characterized in that the housing is capable of partially overlapping the outer surface (13) of the sleeve (6) and the formation of the shoulder (25) on this outer surface. 3. The device according to claim 2, characterized in that the housing (1) limits the cavity (27) adjacent to the shoulder (25) and closed by a sealing gasket (30). 4. The device according to claim 1, characterized in that a ring (31) is installed on the side of the gasket (30), while the ring is locked by a locking element (32) fixed to the sleeve (6). 5. A method of manufacturing a device with a housing (1) in which at least one contact pin (3) is located, characterized in that the sleeve (6) is put on the pin and locked in the longitudinal direction relative to the pin, while the sleeve is fixedly connected with a pin by means of capillary impregnation with a liquid connecting substance seeping between the pin and the sleeve, the pin thus equipped with its own sleeve, then placed in the housing (1) of the device, while the housing (1) of the device is injection molded DC pins (3) equipped with a sleeve (6), wherein the housing is made of a material having a molding temperature under a pressure less than the melting point of the joint material. 6. The method according to claim 5, characterized in that at the stage of the fixed connection of the sleeve with the pin on the pin, a ring (11) of brazing alloy is put on so that the ring rests on the sleeve, while the ring of alloy for soldering is melted in this way so that the solder alloy penetrates between the sleeve and the pin. 7. The method according to claim 5, characterized in that the sleeve (6) comprises an inner surface (9) parallel to the opposite outer surface (10) of the pin (3), while the sleeve remains radially free relative to the pin at the stage of fixed connection . 8. The method according to claim 5, characterized in that a sealing gasket (30) is installed between the outer surface (13) of the sleeve and the opposite wall (26) of the housing socket (1) in which the sleeve is located.

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