NO172017B - ANTENNA CLUTCH DEVICE - Google Patents

Description

The present invention relates to a device for releasably connecting an antenna to a contact for electronic equipment.

A common connection device for an antenna is shown in fig. 5,

6 and 7, Fig. 5 is an extended perspective sketch of the coupling device for a conventional antenna. Fig. 6 shows a section through the connection in a state where the antenna is connected to electronic equipment. Fig. 7 shows the antenna connected to the electronic equipment seen from the front.

In fig. 5-7, the reference number 1 denotes an antenna base, while the reference la denotes a contact pin to be connected to a contact piece for an electronic equipment part, the reference lb denotes a cylindrical coupling sleeve, the reference lc denotes engagement pieces and the reference ld shows a locking slot. The reference number 2 denotes a ring for inserting the sleeve lb and the reference 2a denotes round through holes with each inserted bearing ball 4 and screw spring 5, while the reference 2b denotes stationary stops on the ring 2 to limit the turning movement of the engagement pieces lc on the coupling sleeve lb and the reference 2c denotes cutouts for receiving the engagement pieces lc. The reference numeral 3 denotes screws for fixing the ring 2 on a chassis 6, while the screw springs 5 hold the bearing balls 4 in the round through holes 2a in the ring 2. The reference numeral 6 denotes a chassis for the electronic equipment, while the reference 6a denotes threaded holes into which the screws 3 are screwed into and the reference 6b shows a round through hole drilled in the chassis 6. The reference numeral 7 denotes a filter mounted in the electronic equipment and the reference numeral 7a denotes a coaxial contact piece made in one with the filter 7 and arranged to be brought into contact with the contact pin la of the antenna foot 1.

The operation of the antenna connection thus carried out will now be described. In fig. 5, the coaxial piece 7a for the filter 7 is passed centered through the round through hole 6b which is formed in the electronic equipment chassis 6 for attaching the filter 7 to the chassis. The bearing balls 4 and the coil springs 5 are inserted into the round through holes 2a in the ring 2, which are also attached to the chassis 6 with the help of the screws 3.

When the antenna is to be connected to the electronic equipment, the engagement pieces lc which are designed on the cylindrical insertion sleeve lb on the antenna base 1 are brought into alignment with the cutouts 2c in the ring 2 and the antenna base 1 is pushed against the ring 2. The contact pin la on the antenna base 1 is then connected at this point to the coaxial contact piece 7a for the filter 7 in the electronic equipment. The antenna is then turned in the direction of the arrow in fig. 5 until the engagement pieces lc on the antenna base 1 meet the stationary stops 2b on the ring 2, which stop the turning movement. The bearing balls 4, which are pressed outwards by the helical springs 5 in the round through holes 2a, are then brought into the locking grooves ld in the antenna base 1, thereby bringing the antenna into fixed connection with the electronic equipment.

When the antenna is to be removed, a sufficiently large turning force is first applied to the antenna foot 1 in the opposite direction to the direction of the arrow shown in fig. 5 until the bearing balls 4 are displaced from the locking grooves ld in the antenna base 1. The antenna is then turned further until the engaging pieces lc on the coupling sleeve lb come free and the antenna base 1 can be pulled out.

With a coupling device made as described above, the antenna can be easily connected and released from the electronic equipment, but because it is only the bearing balls and screw springs in the round through holes in the coupling ring that secure the antenna foot against accidental release, it is torque that prevents release small. If the friction coefficient is increased or the spring force is made greater to increase this torque, the balls will easily be exposed to heavy wear, so that the attachment of the antenna foot becomes uncertain and the antenna can easily be turned. Since the locking torque changes and is not adjusted according to variations in antenna length, this coupling device can only be used for an antenna of fixed length, and it will be necessary to allow an antenna stop to protrude from the electronic equipment to prevent the antenna from naturally turning movement.

It is therefore an object of the present invention to produce a coupling device for an antenna which can overcome the disadvantages described above as well as sufficiently resist an external pressure or torque during use of the antenna, while the device has a minimal size and a simple external design that is easy can connect and disconnect the electronic equipment.

The present invention thus relates to a coupling device for connecting an antenna to a contact for an electronic piece of equipment, and which comprises: - a contact pin with a surrounding coupling sleeve which is rigidly arranged on the base of the antenna and provided with at least one engagement piece projecting outwards from its outer peripheral surface, - a coupling ring made for mounting on the electronic equipment part and designed to receive this upon axial movement of the coupling sleeve and then upon rotation of the coupling sleeve a predetermined angle to lock it in a locking position where said engagement piece prevents axial movement of the coupling sleeve in relation to the coupling ring, as the inner wall of the coupling ring is made with an axially cut groove to guide the engagement piece during the axial movement of the coupling sleeve.

On this background of principally known technique from, among others GB patent no. 529 926 and publicly available GB patent application no. 2 010 025 have the coupling device according to the present invention as distinctive features that: - the coupling ring is designed so that in the locked position it mainly rests against the antenna base, as - the coupling device further comprises a locking mechanism comprising a movable locking element which is so arranged on the side of the antenna base that it protrudes far enough in the axial direction to, under the influence of spring force, automatically engage with a complementary recess in the coupling ring when the coupling sleeve is turned to the locking position, thereby prevent the coupling sleeve from turning in the opposite direction of rotation as long as the locking element is not moved, by hand against the spring force, in relation to the antenna base.

The coupling device according to the invention can then withstand very large torque and tensile forces on the antenna and/or the electronic equipment by the fact that the locking element arranged on the antenna base engages with a recess on the equipment side of the coupling, which has the greatest mechanical strength.

The invention will now be described in more detail with reference to the attached drawings, in which: Fig. 1 is an extended perspective sketch of an embodiment example of a coupling device for an antenna in

according to the present invention,

fig. 2 shows the coupling ring in the device in fig. 1, attached

to a chassis for electronic equipment and front view, fig. 3 is an extracted perspective sketch of the locking mechanism for

the antenna base in the device shown in fig. 1,

fig. 4 shows a section through the coupling device in fig. 1

when the antenna is connected to the electronic equipment, fig. 5 is an extracted perspective sketch of a previously known one

antenna coupling,

fig. 6 shows a section through the antenna connection in fig. 5 when

the antenna is connected electronic equipment,

fig. 7 shows the coupling ring in the antenna coupling in fig. 5,

attached to a chassis for the electronic equipment and

front view,

fig. 8 is an extended perspective sketch of the locking mechanism for the antenna base in another embodiment of a connection device for an antenna according to the present invention.

The embodiment of the present invention shown in fig. 1-4 will now be described in detail. In fig. 1 to 4, the reference number 21 denotes an antenna base with a contact pin 21a for forming an electrical connection between the antenna and the electronic equipment via a contact piece 7a on an electronic equipment part 7. The antenna base 21 has a cylindrical coupling sleeve 21b with outer engagement pieces 21c and is made with a slide lock comprising a slide lock piece 21d arranged in a slide 21f in the antenna base and with a knob 2le for displacing the lock piece in the slide, the slide lock piece 21d being pre-tensioned by a screw driver 2lg which is held by a cover 21h on the antenna base.

A coupling ring 2 designed to engage with the sleeve 21b has cutouts 2c for inserting the engagement pieces 21c onto the sleeve and is made with stationary stops 2b for the engagement pieces. The ring 2 is attached by means of screws 3 to a chassis 6 for the electronic equipment. The chassis has threaded holes 6a for screwing in the screws and a round shaped through hole 6b for placing a coaxial contact piece 7a made in one with an electronic equipment part 7 such as a filter mounted together with the electronic equipment, and which is intended to make contact with the contact pin 21a on the antenna base 21.

The operation of a coupling device for an antenna made in this way will now be described. As shown in fig. 3, the slide lock piece 21d is inserted into the slide 21f formed in the antenna base 21 so that the lock piece is held in place by the screw spring 21g and the cover 21h which is attached by means of threads to the antenna base.

As a result of this, the slide lock piece 21d is held displaced by the coil spring 21g so that the outer end of the lock piece protrudes from the antenna base 21. To pull the outer end of the lock piece into the antenna base 21, the lock piece 21d is pushed in the direction indicated by the arrow in fig. 3.

The coaxial connecting piece 7a shown in fig. 1, is fed centrally into the round through hole 6b which is formed in the chassis 6 for the electronic equipment, while the filter 7 is fixed by means of the screws 3 to the chassis and the ring 2. The engagement pieces 21c on the antenna foot coupling sleeve 21b are adapted to the cutouts 2c in the ring 2 , and when the antenna 21 is to be connected, the coupling sleeve 21b is pushed into the ring 2 on the equipment side of the coupling. The contact pin 21a on the antenna base 21 is then brought into contact with the coaxial contact 7a for the filter 7 in the electronic equipment and at the same time the slide lock 21d for the antenna comes into contact with the ring 2.

The antenna base 21 is then turned in the direction of the indicated arrow in fig. 1 until the antenna's engagement pieces 21c come into contact with the stationary stops 2b in the ring 2, which prevent further turning movement. At the same time, the outer end of the antenna's slide lock piece 21d enters one of the cutouts 2c in the coupling ring 2 and prevents movement of the antenna in relation to the electronic equipment.

When the antenna base 21 is to be detached, slide the slide lock knob 21e on the antenna base 21 in the direction of the arrow in fig. 1 to release the slide lock piece 21d from the cut-out 2c in the ring 2. After the antenna has been turned in the opposite direction to the direction of rotation when the antenna was attached, the antenna foot 21 can be pulled out.

In the embodiment described above, the slide lock piece 21d engages with a cut-out 2c in the ring 2 to prevent the antenna from turning. However, the present invention is not limited to this particular embodiment. As shown in fig. 8, can e.g. a recess 23a be formed on the side of a coupling ring 23, while a pawl piece 22a which is arranged for movement perpendicular to the axial direction is arranged on the side of the antenna foot 22, so that the pawl piece 22a can be brought into engagement with the recess 23a to prevent the antenna from rotated.

When the pawl piece 22a in the embodiment shown in fig. 8 is brought inwards towards the axis of the antenna base by displacement in a direction indicated by arrow 24, the end of the pawl piece will be opened in a direction indicated by arrow 25, so that the antenna base 22 can then be rotated.

According to the present invention as described above, the engaging pieces prevent the antenna from detaching from the electronic equipment, while the locking mechanism prevents rotation of the antenna. An antenna can therefore be very simply attached to and removed from the electronic equipment without this resulting in an irregular external appearance, as the coupling device is able to exert a fastening force that ensures against very strong torques and pulling forces within a very compact design.

Claims (5)

1. Connecting device for connecting an antenna to a contact for an electronic piece of equipment, and comprising: - a contact pin (21a) with a surrounding connecting sleeve (21b) which is rigidly arranged on the antenna's foot (21, 22) and provided with at least one engagement piece (21c) projecting outwards from its outer peripheral surface, - a coupling ring (2, 23) made for mounting on the electronic equipment part and arranged to receive the coupling sleeve (21b) upon axial movement and then upon rotation of the coupling sleeve a predetermined angle to block this in a locking position where said engagement piece (21c) prevents axial movement of the coupling sleeve in relation to the coupling ring (2, 23), the inner wall of the coupling ring being made with an axially cut groove (2c) to guide the engagement piece (21c) during the axial movement of the coupling sleeve (21b), characterized in that: - the coupling ring (2, 23) is made in such a way that in the locked position it mainly rests against the antenna base (21, 22), the coupling device further comprising a locking mechanism comprising a movable locking element (21d-e, 22a) which is so arranged on the side of the antenna base (21, 22) that it protrudes far enough in the axial direction to, under the influence of spring force, automatically engage with a complementary recess in the coupling ring (2, 23) when the coupling sleeve (21b) is turned to the locking position , thereby preventing the coupling sleeve from turning in the opposite direction of rotation as long as the locking element is not moved by hand against the spring force, in relation to the antenna base. 2. Coupling device as specified in claim 1, characterized in that said complementary recess for the locking element (21d) is constituted by the cut-out groove (2c) in the inner wall of the coupling ring. 3. Coupling device as stated in claim 2, characterized in that the locking element (21d) consists of a slide lock piece arranged for movement in a slide (21f) in the antenna base (21) and is biased by means of a spring (21g). 4. Coupling device as stated in claim 1, characterized in that the locking element consists of a pawl piece (22a) arranged on the outside of the antenna base (22) for rocking movement perpendicular to the axial direction. 5. Coupling device as specified in any preceding claim, characterized in that stationary stops (2b) are formed on one surface of the coupling ring (2) in the path of the engaging piece (21c), to prevent further turning movement of the coupling sleeve (21b) after it has been rotated the predetermined angle to the locking position.