CN107017512B

CN107017512B - Connector for connecting side belt cage type spring

Info

Publication number: CN107017512B
Application number: CN201610963297.0A
Authority: CN
Inventors: 罗尔夫·施瓦尔; 弗兰克·赛特雷
Original assignee: IMS Connector Systems GmbH
Current assignee: IMS Connector Systems GmbH
Priority date: 2015-10-30
Filing date: 2016-10-28
Publication date: 2020-05-19
Anticipated expiration: 2036-10-28
Also published as: EP3163690A1; DE102015118585A1; CN107017512A; EP3163690B1

Abstract

The invention relates to a connector comprising at least one electrically conductive inner conductor, an electrically conductive outer conductor which is insulated from the inner conductor and which is mounted around the inner conductor, which outer conductor is surrounded by a sleeve or is designed in the form of a sleeve and which sleeve has an open connector side, an open connection side opposite the open connector side, and an electrically conductive cage spring, the first end of which is located between the inner conductor and the sleeve and is arranged around the inner conductor, while a part of the cage spring projects outwards through the connection side of the sleeve.

Description

Connector for connecting side belt cage type spring

Technical Field

The invention relates to a connector, in particular a coaxial connector, for fastening to a metal housing base.

Background

To connect an antenna, filter, amplifier, or other coaxial cable to a base of a radio or controller, a housing connector or housing sleeve is used and secured to a wall of the base. Such a housing connector or housing bushing generally includes an electrically conductive inner conductor, an electrically conductive outer conductor, and an insulator mounted in the intermediate region between the inner conductor and the outer conductor and electrically isolating the inner conductor from the outer conductor.

A sealing element, such as a rubber sealing element, may have to be installed between the housing liner or housing connector and the base (typically of metal) to avoid the ingress of moisture into the interior of the metal base housing. On the other hand, between the outer conductor of the sleeve or the device connector or the device bushing and the metal base, a reliable electrical contact should be provided to form a high frequency shield protecting the interior of the metal base from the external environment. Furthermore, the inner conductor of the coaxial cable must also form an electrical shield against the external environment in order to ensure as far as possible that the electronic data transmission is not disturbed.

In order to form an electrical and magnetic shielding of the inner conductor, it may be necessary to ground both ends of the outer conductor of the coaxial cable, which means that a reliable and as much as possible capacitorless electrical connection must be established between the equipment bushing or equipment connector and the metal base, especially when the highest frequency signals need to be transmitted, so that the electrical and electromagnetic resistance between the metal base and the connector can reach the desired 0 Ω. The implementation form may be as follows: the edge of the connector is welded flush to the metal base, but this is extremely costly.

DE 202007018203U 1 therefore proposes enlarging the connection-side region of the metal sleeve as part of the connector and fixing it to the base with metal screws. However, if a seal is to be installed between the connector and the metal base, this manner of attachment does not provide a sufficiently reliable low resistance surface electrical contact because when attaching the equipment bushing or equipment connector to the metal base, a sealing material may be installed there and electrical contact needs to be established between the connector and the metal base.

Disclosure of Invention

The object of the present invention is to provide a connector for connection to a metal base, and to avoid the above-mentioned drawbacks.

The connector and the device with the connector of the invention achieve the object.

The connector according to the invention comprises at least one electrically conductive inner conductor, an electrically conductive outer conductor insulated from the inner conductor and mounted around the inner conductor, which outer conductor is surrounded by or designed in the form of a sleeve and which sleeve has an open connector side, an open connection side opposite the open connector side, and an electrically conductive cage spring, the first end of which is located between the inner conductor and the sleeve and is arranged around the inner conductor.

The connector is characterized in that a portion of the cage spring projects outwardly through the connection side of the sleeve, so that said portion of the cage spring can pass through a corresponding through-hole in the metal base, wherein the selection criterion for the diameter of the through-hole is: the spring ends of the cage springs should contact and be able to rest against the inner wall of the through-hole of the metal base.

This makes it possible to establish an additional, reliable electrical contact between the metal base and the connector mounted on the metal base.

The sleeve is preferably electrically conductive and is preferably made of metal or at least has a metal coating. The cage spring is preferably electrically connected to the outer conductor and/or the sleeve.

The sleeve is preferably made of gold or silver plated stainless steel or brass. The corrosion-free conductive contact is formed by a gold-plated sleeve. Silver plating can form a particularly conductive surface layer on the metal. Of course, the sleeve may also be of aluminium, but it should be noted that a thin, high resistance oxide film will form on the surface of the aluminium, which oxide film should first be broken when fixing the connector to the metal base in order to form a reliable electrical contact. In addition, stainless steel or brass is easy to weld, while aluminum has certain limitations.

A plastic insulator surrounding the inner conductor is preferably mounted between the inner and outer conductors to provide electrical and mechanical isolation between the inner and outer conductors. The plastic layer acts as an electrical insulator.

The connecting side of the sleeve preferably has a widened region for fixing the sleeve to the metal base, and this fixing is preferably carried out using screws. Additional electrical connections between the metal base and the connector are established by means of electrically conductive screws and screwing the screws into the metal base.

The cage spring has a first end and a second end. The spring ends are preferably arranged at the first end of the cage spring and are connected to one another in a ring-shaped manner and surround the inner conductor. At a second end of the cage spring opposite the first end, spring ends are preferably provided and are spaced apart and spaced apart from each other and surrounded by a sleeve surrounding the inner conductor.

The spring end on the first end of the cage spring is preferably connected to the spring end on the second end of the cage spring by means of a resilient spring tongue, and the spring tongue extends away from the spring end on the second end of said inner conductor, so that, if the inner conductor and the second spring end are mounted in the through-hole of the metal base, the spring end mounted on the second end is resiliently pressed against the inner wall of the through-hole.

The spring end at the second end of the cage spring is preferably gold and/or silver plated. This makes it possible to establish corrosion-free electrical contact with the spring ends. The spring ends on the second end of the cage spring may of course also have additional or alternative sharp edges which then, when they pass through the through-hole of the metal base, will score the inner wall of the metal base, thereby establishing a good electrical contact with the metal base. Such a spring end is particularly advantageous when the metal base is provided with a thin insulating layer, for example when the metal base is made of aluminum.

The connector may be in the form of a housing bush or a housing connector. The outer conductor may also be surrounded by a sleeve, and an insulating element of plastic material is preferably arranged between the outer conductor and the sleeve.

For connecting the connector to another cable, the sleeve may be provided with an external thread at the connector-side end or an outer sleeve surrounding the sleeve, rotatable towards the sleeve and internally threaded, or with a bayonet fitting for securing another connector to said connector.

The connector is preferably a coaxial connector. The device of the invention thus comprises a connector and a metal housing base having a through hole, and the connector is secured to the housing base with the cage spring projections on the connection side of the connector sleeve resting in the through hole.

Drawings

The present invention will be described in detail below with reference to the accompanying drawings. Wherein:

FIG. 1 is a perspective view of the device of the present invention, including a connector and a metal base;

FIG. 2 is a side view of the device of FIG. 1;

FIG. 3 is the device of FIG. 1 and its connector portion secured in the through hole;

FIG. 4 is a perspective view of the device of FIG. 3;

FIG. 5 is a side view of the connector secured to a metal base;

fig. 6 is a perspective view of the device of fig. 5.

The list of reference numbers is as follows:

1. a device; 2. a connector, a housing bushing, a coaxial connector; 4. a metal base; 6. a sleeve; 8. widening the area; 10. fixing screws; 12. drilling; 14. a through hole; 16. a connector side; 18. a connection side; 20. an outer conductor; 22. an inner conductor; 24. a cage spring; 26. an inner wall; 28. an external thread; 30. a first end of a cage spring; 32. a first spring end; 34. a spring tongue; 36. a second end of the cage spring; 38. a second spring end; 40. and (4) blind holes.

Detailed Description

The device 1 shown in fig. 1 is used to secure a connector 2, such as a housing bush, to a metal base 4. The connector 2 has a sleeve 6 with a widened region 8. The sleeve 6 can be fixed in its widened region 8 to the metal base 4 by means of a fixing screw 10. For this purpose, the widened region 8 should be provided with bores 12, through which fixing screws 10 are fitted and which are connected to the metal base 4.

Figure 2 shows a side view of the device of figure 1. The metal base 4 has a through-hole 14 through which a part of the connector 2 can be passed from the connection side. The connector 2 has a connector side 16 and a connection side 18 opposite the connector side 16, on which the sleeve 6 of the connector 2 with the widened region is formed.

The connector 2 is designed as a coaxial connector. It has an outer conductor 20 and an inner conductor 22. The sleeve 6 in the present embodiment is designed as a connector 2 in the form of a housing bush 2, which is of electrically conductive metal and at the same time forms an outer conductor 20.

The inner conductor 22 is surrounded by a cage spring 24 which projects from the sleeve 6 of the coaxial connector 2 on the connection side 18. The cage spring 24 is electrically conductive and is connected to the outer conductor 20 and is partially disposed in the sleeve 6 between the outer conductor 20 and the inner conductor 22. The inner conductor 22 is spaced from the cage spring 24 and is electrically insulated. This may be achieved by a plastic insulator (not shown) disposed between the inner conductor 22 and the cage spring 24.

Fig. 3 shows how the coaxial connector 2 is fixed to the metal base 4. For this purpose, the cage springs 24 of the coaxial connector 2 are pressed together at the ends and are introduced together with the inner conductor 22 into the through-opening 14 of the metal base 4. The individual springs of the cage springs 24 bear against the inner wall 26 of the through-hole 14, thereby establishing electrical contact between the outer conductor 20 and the metal base 4. The connection side 18 of the coaxial connector 2 is then pressed onto the metal base 4 and screwed thereto. In an environment sensitive to moisture, a sealing element, such as a sealing ring and a sealing gasket made of rubber or silicone, may be mounted between the connection side 18 and the metal base 4. In this case, the connection side 18 of the coaxial connector 2 is pressed onto the metal base 4 by means of a sealing element and screwed thereto.

On the connector side 16 of the coaxial connector 2, an external thread 28 is attached, by means of which a further coaxial cable can be fastened to the coaxial connector 2.

Figure 4 is a perspective view of the device of figure 3. The widened region 8 of the sleeve 6 lies on the metal base 4 or on a sealing element which is arranged between the metal base 4 and the sleeve 6. The cage spring 24 has a first end 30 which is arranged in the sleeve 6 and which establishes an electrical connection with the sleeve 6, while spring ends 32 which are arranged on the first end 30 of the cage spring 24 are connected to one another in the form of a ring and surround the inner conductor 22 at intervals.

The spring end 32 of the cage spring 24 is connected to a second spring end 38 mounted to a second end 36 of the cage spring 24 by spring tabs 34. The spring tongues 34 (which are not connected to each other in this embodiment) are of resilient design and expand the second spring ends 38 towards the inner wall 26 of the through hole 14 of the metal base 4, thereby establishing a good electrical contact between the outer conductor 20 of the coaxial connector 2 and the metal base 4.

Fig. 5 shows a side view of the coaxial connector fixed to the metal base 4. The metal base 4 has four blind holes 40 with internal thread, so that the connector 2 can be fixed to the metal base 4 by means of the fixing screws 10. In fig. 5, the coaxial connector 2 has been screwed onto the metal base 4 with four fixing screws 10 drilled 12 through the widened region 8 of the sleeve 6. The inner conductor 22 passes through the through-hole 14 on the connection side. The second spring end 38 and a part of the spring device 34 emerge from the bushing 6 on the connection side and rest against the inner wall 26 of the through-opening 14.

Fig. 6 is a perspective view of the device of fig. 5.

The invention has been described with reference to one of the preferred embodiments but is not limited to this embodiment.

For example, the present connector may be a connector having a plurality of inner conductors. The connector may be in the form of a housing bush or a housing connector. The base 4 may also be a non-metallic base, so long as the inner wall 26 has at least one metallic surface coating.

While the outer conductor is preferably circular around the inner conductor and evenly spaced therefrom, it may also be non-circular, particularly where multiple inner conductors must be shielded.

It is of course also possible for the inner conductors to be surrounded by a plurality of shielding conductors, respectively, and then to be electrically connected to a common outer conductor which surrounds all inner conductors.

The second spring ends provided at the second end of the cage spring can also be connected to one another by a metal ring, like the first spring ends. In this case, the intermediate region of the cage spring can be designed to widen towards its two ends, so that if the intermediate region of the cage spring is at least partially inserted into the through-opening 14, it will rest against the inner wall 26 of the through-opening 14, so that an electrical contact is established between the connector 2 and the metal base 4.

The features of this embodiment can be freely combined with the functionally identical features of the other embodiments, or arbitrarily exchanged, as long as the concept of the invention remains unchanged.

Claims

1. A coaxial connector (2) for fixing to a metal base (4) having a through-hole (14) comprises

-at least one electrically conductive inner conductor (22),

-an electrically conductive outer conductor (20) insulated from and mounted around the inner conductor (22), the outer conductor being designed in the form of a sleeve (6), and the sleeve (6) having an open connector side, an open connection side opposite the open connector side, wherein the connection side of the sleeve (6) has a widened region (8) for fixing the sleeve (6) on the metal base (4),

-and an electrically conductive cage spring (24), said cage spring (24) having a first end (30) and a second end (36) opposite to the first end (30), said second end (36) being arranged between said at least one inner conductor (22) and the sleeve (6) and surrounding said at least one inner conductor (22),

wherein first spring ends (32) are arranged at the first ends (30) of the cage springs (24), said first spring ends (32) being connected to one another in a ring-shaped manner,

wherein the second end (36) of the cage spring (24) has a second spring end (38), said second spring end (38) being arranged separately around the at least one inner conductor (22),

wherein the second end (36) projects outwards through the connection side (18) of the sleeve (6), and wherein the second spring end of the cage spring (24) rests on the inner wall (26) of the through-opening (14).

2. Coaxial connector (2) according to claim 1, characterized in that the sleeve (6) is electrically conductive or has a metal coating.

3. The coaxial connector (2) according to any one of the preceding claims, wherein the cage spring (24) establishes an electrical connection with the sleeve (6).

4. Coaxial connector (2) according to claim 1 or 2, characterized in that the sleeve (6) is made of gold or silver plated stainless steel or brass.

5. Coaxial connector (2) according to claim 1 or 2, characterized in that a plastic insulation (26) is arranged between the inner conductor (22) and the outer conductor (20) around the inner conductor (22).

6. Coaxial connector (2) according to claim 1 or 2, characterized in that the connection side of the sleeve (6) has said widened region (8) in order to fix the sleeve (6) on the metal base (4) and in that this fixing is carried out using a screw (10).

7. Coaxial connector according to claim 1, characterized in that a first spring end (32) on a first end (30) of the cage spring is connected to a second spring end (38) on a second end of the cage spring (24) by means of resilient spring tongues (34), which spring tongues (34) spread the second spring end (38) on the second end of the cage spring (24) away from the inner conductor (22).

8. The coaxial connector (2) according to claim 1 or 2, wherein the spring end (32) at the second end (36) of the cage spring (24) is gold and/or silver plated.

9. Coaxial connector (2) according to claim 1 or 2, characterized in that the coaxial connector (2) is designed in the form of a housing bushing or a housing connector.

10. Coaxial connector (2) according to claim 1 or 2, characterized in that the sleeve (6) is provided with an external thread on the connector side (16) or an outer sleeve which surrounds the sleeve (6), is rotatable towards the sleeve (6) and has an internal thread, or a bayonet fitting for fixing another connector on the coaxial connector (2).

11. A metal base (4) having a through hole (14) and a coaxial connector (2) according to claim 1, characterized in that the coaxial connector (2) is fixed to the metal base (4) and that the protruding part of the cage spring (24) passing through the connecting side (18) of the sleeve (6) of the coaxial connector (2) rests in the through hole (14).