GB2188796A

GB2188796A - Improvements in adaptors

Info

Publication number: GB2188796A
Application number: GB8707513A
Authority: GB
Inventors: Ronald James Henry Springall
Original assignee: Staeng Ltd
Current assignee: Staeng Ltd
Priority date: 1986-04-01
Filing date: 1987-03-30
Publication date: 1987-10-07
Also published as: EP0290688B1; DE3781271D1; GB2188796B; GB8707513D0; EP0290688A1

Abstract

A connector backshell adaptor comprises a body portion (20), a rotatable coupling nut (22) at one end, and a fixed part (24) at the other end, separated by means of an annular groove (23). The fixed part (24) comprises two sections (30) and (32) separated by an annular groove (31). In order to secure a cable screen (26), a first, conductive, adhesive (27) is located in the annular groove (23) and a second adhesive (28) is located between the section (32) and the screen (26), thus providing a substantial longitudinal separation of the two adhesives in order to prevent migration of the first adhesive towards the second adhesive. <IMAGE>

Description

SPECIFICATION Improvements in adaptors The present invention relates to improvements in adaptors and in particular to connector backshell adaptors for use with heat shrinkable metallized parts.

A known construction of a connector backshell adaptor is disclosed in Figure 1 of the accompanying drawing.

As shown in Figure 1,this known construction has a body portion 10, a rotatable coupling nut 12 at one end and a fixed part 14 at the other end separated from the rest of the body portion by an annular groove 13. A cable screen 16 is secured to the fixed part 14 by means of two adhesives 17 and 18. The cable screen 16 is formed of a plastics material whose surfaces are coated with an electrically conductive material. The first adhesive 17 has sealing and mechanical adjustment characteristics.

The second adhesive 18 has a conductive adhesive paste, which on shrinkage, gives a mechanical and electrical connection from the cable screen to the body of the connector. Such a construction will hereinafter be referred to as a connector backshell adaptor of the kind described.

Whilst it is possible to achieve the electrical connection with the construction of the kind described, it has been found that in practice the adhesive 17 becomes very viscous during the shrinking, so that it can migrate into the conductive adhesive paste 18 resulting in a bad electrical connection.

It is therefore an object of the present invention to overcome partially or wholly the above referred to disadvantage of the construction shown in Figure 1.

According to the present invention there is provided a connector backshell adaptor of the kind described, wherein the end of the body portion to be sealed to the cable screen has an extended section which is separated from the rest thereof by at least one annular groove.

Preferably, the end of the body portion comprises two sections which are separated by a second annular groove, the first adhesive being positioned in the first annular groove against the first section, whilst the second adhesive is positioned between the second section and the cable screen.

The body portion may be extended by three or more sections, annular grooves being provided between each such section.

In the preferred construction, the provision of the second annular groove prevents migration of the first adhesive towards the second adhesive and so ensures good electrical connection between the cable screen and the body portion of the connector backshell adaptor.

The present invention will now be described in greater detail by way of example with reference to Figure 2 of the accompanying drawing which is a diagrammatic view of a preferred form of connector backshell adaptor.

Referring to Figure 2, the connector backshell adaptor comprises a body portion 20, a rotatable coupling nut 22 at one end and a fixed part 24 at the other end, separated from the rest of the body portion by means of an annular groove 23. A cable screen 26 is secured to the fixed ring 24 by means of two adhesives 27 and 28. The cable screen 26 is formed of a plastics material whose surfaces are coated with an electrically conductive material to act as a screen against radio frequencies.

In this construction the fixed part 24 has two sections 30 and 32 which are separated by an annular groove 31. The first adhesive 27, which is equivalent to the adhesive 17 in the known construction shown in Figure 1, is still used in the same position in the annular groove 23. The second adhesive 28, which is equivalent to the adhesive 18 is used between the section 32 of the fixed part 24 and the screen 26.

As will be evident from Figure 2 in comparison with the construction shown in Figure 1, there is substantial longitudinal separation of the two adhesives 27 and 28, owing to the extended length of the fixed part 24. Moreover, by virtue of the provision of the annular groove 31,the migration of the first adhesive 27 towards the second adhesive 28 is prevented and consistent results are achieved following shrinking with the metallized moulding. Furthermore, the extended length of the fixed part 24 provides increased mechanical stability to the heat shrinkable moulded component.

Thus, by preventing the first adhesive 27, which as stated above has sealing and mechanical adjustment characteristics, from reaching the second adhesive 28, which as stated above is a conductive adhesive paste, a good electrical connection is ensured between the cable screen 26 and the fixed part 24.

Whilst, in the above example, the fixed part 24 is provided with two sections 30 and 32 which are separated by the annular groove 31, in alternative constructions the fixed part 24 may have three or more sections separated by two or more annular grooves.

With the above construction we have found that the electrical resistance between the cable screen and the body portion of the connector backshell adaptor is in the range 1.0 to 2.4 milliohms.

1. A connector backsheil adaptor of the kind described, wherein the end of the body portion to be sealed to the cable screen has an extended section which is separated from the rest thereof by at least one annular groove.

2. A connector backshell adaptor according to claim 1, wherein the end of the body portion comprises two sections which are separated by a second annular groove, the first adhesive being positioned in the first annular groove against the first section, whilst the second adhesive is positioned between the second section and the cable screen.

3. A connector backshell adaptor according to claim 1, wherein the body portion is extended by

**WARNING** end of DESC field may overlap start of CLMS **.

Claims

**WARNING** start of CLMS field may overlap end of DESC **. SPECIFICATION Improvements in adaptors The present invention relates to improvements in adaptors and in particular to connector backshell adaptors for use with heat shrinkable metallized parts. A known construction of a connector backshell adaptor is disclosed in Figure 1 of the accompanying drawing. As shown in Figure 1,this known construction has a body portion 10, a rotatable coupling nut 12 at one end and a fixed part 14 at the other end separated from the rest of the body portion by an annular groove 13. A cable screen 16 is secured to the fixed part 14 by means of two adhesives 17 and 18. The cable screen 16 is formed of a plastics material whose surfaces are coated with an electrically conductive material. The first adhesive 17 has sealing and mechanical adjustment characteristics. The second adhesive 18 has a conductive adhesive paste, which on shrinkage, gives a mechanical and electrical connection from the cable screen to the body of the connector. Such a construction will hereinafter be referred to as a connector backshell adaptor of the kind described. Whilst it is possible to achieve the electrical connection with the construction of the kind described, it has been found that in practice the adhesive 17 becomes very viscous during the shrinking, so that it can migrate into the conductive adhesive paste 18 resulting in a bad electrical connection. It is therefore an object of the present invention to overcome partially or wholly the above referred to disadvantage of the construction shown in Figure 1. According to the present invention there is provided a connector backshell adaptor of the kind described, wherein the end of the body portion to be sealed to the cable screen has an extended section which is separated from the rest thereof by at least one annular groove. Preferably, the end of the body portion comprises two sections which are separated by a second annular groove, the first adhesive being positioned in the first annular groove against the first section, whilst the second adhesive is positioned between the second section and the cable screen. The body portion may be extended by three or more sections, annular grooves being provided between each such section. In the preferred construction, the provision of the second annular groove prevents migration of the first adhesive towards the second adhesive and so ensures good electrical connection between the cable screen and the body portion of the connector backshell adaptor. The present invention will now be described in greater detail by way of example with reference to Figure 2 of the accompanying drawing which is a diagrammatic view of a preferred form of connector backshell adaptor. Referring to Figure 2, the connector backshell adaptor comprises a body portion 20, a rotatable coupling nut 22 at one end and a fixed part 24 at the other end, separated from the rest of the body portion by means of an annular groove 23. A cable screen 26 is secured to the fixed ring 24 by means of two adhesives 27 and 28. The cable screen 26 is formed of a plastics material whose surfaces are coated with an electrically conductive material to act as a screen against radio frequencies. In this construction the fixed part 24 has two sections 30 and 32 which are separated by an annular groove 31. The first adhesive 27, which is equivalent to the adhesive 17 in the known construction shown in Figure 1, is still used in the same position in the annular groove 23. The second adhesive 28, which is equivalent to the adhesive 18 is used between the section 32 of the fixed part 24 and the screen 26. As will be evident from Figure 2 in comparison with the construction shown in Figure 1, there is substantial longitudinal separation of the two adhesives 27 and 28, owing to the extended length of the fixed part 24. Moreover, by virtue of the provision of the annular groove 31,the migration of the first adhesive 27 towards the second adhesive 28 is prevented and consistent results are achieved following shrinking with the metallized moulding. Furthermore, the extended length of the fixed part 24 provides increased mechanical stability to the heat shrinkable moulded component. Thus, by preventing the first adhesive 27, which as stated above has sealing and mechanical adjustment characteristics, from reaching the second adhesive 28, which as stated above is a conductive adhesive paste, a good electrical connection is ensured between the cable screen 26 and the fixed part 24. Whilst, in the above example, the fixed part 24 is provided with two sections 30 and 32 which are separated by the annular groove 31, in alternative constructions the fixed part 24 may have three or more sections separated by two or more annular grooves. With the above construction we have found that the electrical resistance between the cable screen and the body portion of the connector backshell adaptor is in the range 1.0 to 2.4 milliohms. CLAIMS

3. A connector backshell adaptor according to claim 1, wherein the body portion is extended by three or more sections, annular grooves being provided between each such section.

4. A connector backshell adaptor constructed substantially as herein described with reference to and as illustrated in Figure 2 of the accompanying drawing.