JP2003516606A - Coupler for coaxial plug connector - Google Patents

Abstract

(57) [Abstract] The coupler of the present invention includes a plug-side end 16 for connecting to a coaxial plug, another end remote from the plug-side end for connecting a coaxial cable, and a plug-side end. A contact sleeve 10 arranged in the form of a collet and an axially movable locking sleeve 14 overlapping the collet 18. The locking sleeve has an unlocked position in which the collet 18 is expanded and the coaxial plug 20 can be inserted into the coupler until the collet 18 fits into the recess 22 on the coupler side. In the locked position, the collet 18 does not expand and the plug 20 does not leave the coupler. The other end 28 of the sleeve 14, remote from the plug-side end of the coupler, has at least one radially elastic part 30, which interacts with the surface of the coupler. Is arranged. That is, when the sleeve 14 moves from the locked position, the radial movement of the elastic portion of the sleeve 14 is arranged to generate a restoring force returning to the locked position.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD OF THE INVENTION

The present invention relates to a coupler for a coaxial plug connector, as described in the preamble of claim 1, in which a plug-side end for connecting to a coaxial plug and in particular for connecting a coaxial cable, a plug. The other end apart from the end on the side, a contact sleeve formed on the plug side as a collet, and a locking sleeve that overlaps the collet, is axially movable, and has a locking position, the collet can expand. You can
The coaxial plug can be connected to the coupler at the place where the collet fits in the recess on the coupler side, and also has a locking position where the collet cannot expand, so the coaxial plug does not separate from the coupler. Related to the coupler.

[0002]

[Prior art]

This type of coaxial plug connector with an engagement mechanism is, for example, a German standard D
It is detailed in IN EN 122130 as the SMB series. In these plug connectors, the collet-shaped contact sleeve of the coupler engages the recess of the plug The connection of the plug can be separated only by the application of a suitable force determined by the force of the connection by engagement. . However, this plug connection is seen to undesirably disconnect under the influence of, for example, vibration. To prevent this, it is known to provide a locking sleeve on the coupler. The locking sleeve prevents the collet of the contact sleeve of the coupler from expanding in the locked position and prevents the withdrawal of the plug from the coupler. However,
The various mechanisms found on the market for this connection have the following disadvantages. That is, the locking sleeve has to be manually moved to the locking position or has a corresponding resetting mechanism for the locking sleeve with a large number of individual parts with complex configurations and correspondingly expensive manufacturing and assembly costs. is doing.

[0003]

The invention is therefore based on the object of obtaining a coupler of the type mentioned above with a simple structure. At the same time, it is an object to obtain a coupler which is functional and reliable in use, and in which undesired disconnection of the plug connection once obtained is less likely to occur.

[0004]

[Means for Solving the Problems]

This object is achieved by a coupler according to the invention of the type described above with the features of claim 1. Preferred embodiments of the invention are described in the other claims.

According to the invention, in a coupler of the type described above, the other end of the locking sleeve remote from the plug-side end of the coupler has at least one radially elastic part. This elastic part is devised so as to interact with the surface of the coupler, and based on the axial movement of the locking sleeve from the locking position, the elastic part of the locking sleeve moves in the radial direction. It produces a force that returns it to the locked position.

This has the following advantages. That is, after inserting the coaxial plug into the coupler, it is automatically locked, and the plug has almost no parts.In particular, the mechanism in which the locking sleeve automatically returns to the locking position is due to the interaction between the locking sleeve and the coupler. , Also realized exclusively, without additional separate elements. The coupler according to the invention is economical and simple to manufacture and assemble, while at the same time being functional and reliable in use. The solution according to the invention has the advantage that economics can be realized, especially for relatively small couplers.

The locking sleeve comprises, for example, a first unlocked position for inserting a coaxial plug,
A second unlocked position for separating the coaxial plug from the coupler. Thereby, in the first unlocked position, the locking sleeve is pushed from the locked position towards the plug-side end of the coupler. In the second unlocked position, it is pulled toward the other end of the coupler away from the plug end.

In order to obtain the largest restoring force based on the movement of the locking sleeve, the other end of the locking sleeve which is separated from the plug side of the coupler is formed in a collet shape.

In a preferred embodiment, a cam is formed in the elastic part of the locking sleeve, and two opposing angled surfaces are formed on the surface of the coupler in the area of the cam. Based on the movement of the locking sleeve from the locking position, the movement of the locking sleeve in the axial direction
The cam slides along one angled surface and causes movement of the elastic portion of the locking sleeve. The cam is preferably formed from the same piece as the locking sleeve.

In another preferred embodiment, a cam is formed on the surface of the coupler, and the elastic part of the locking sleeve in the area of the cam is formed with two opposite angled surfaces. Due to the movement of the locking sleeve from the locking position, the axial movement of the locking sleeve causes one of the angled surfaces to slide over the cam and cause a movement of the elastic part of the locking sleeve. The angled surface is preferably one piece which is the same as the locking sleeve.

In order to limit the axial movement of the locking sleeve, the angled surface has a stop.

For economical and automated mass production, locking sleeves are manufactured by injection molding. In this case, the locking sleeve is made of plastic, for example.

In order to increase the mechanical stability of the locking sleeve, metal articles, in particular brass articles, are interspersed in the area of the locking device of the collet.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described in more detail with reference to the drawings. FIG. 1 is a schematic side view showing an example of a preferred embodiment of a coupler according to the present invention. FIG. 2 shows the coupler of FIG. 1 in a schematic side view showing an example of plug insertion in order to obtain a coaxial plug connection. FIG. 3 is a schematic side view of the coupler of FIG. 1, showing an example of plug separation to separate coaxial plug connections.

A preferred embodiment of the coupler according to the invention is shown in FIG. 1, which comprises a contact sleeve 10, a central conductor 12 and a locking sleeve 14. The contact sleeve 10 is arranged with a collet 18 at the end on the plug side so that a plug 20 shown in broken lines can be inserted into the contact sleeve 10. Collet 18
The inner diameter and the outer diameter of the plug 20 are dimensioned so that the collet 18 should be expanded for inserting the plug 20. The plug 20 also has a circumferential recess 22. When the plug 20 is fully inserted into the contact sleeve 10, the collet 18 fits in the recess 22 thereof. Then, it becomes difficult to separate the plug 20 and the contact sleeve 10.

The locking sleeve 14 is arranged at its plug end so as to prevent the collet 18 from expanding in the locking position shown in FIG. 1 and therefore the plug 20.
To prevent insertion and movement. For this purpose, the locking sleeve 14 has a section 24.
Inside, it has an appropriate convex portion 26. When the locking sleeve 14 is in the locking position shown in FIG. 1, the portion corresponding to the collet 18 is in contact with the convex portion.
Similar spread is prevented by the contact of the portion of the collet 18, and insertion and movement of the plug 29 are also prevented.

At the end 28 of the coupler remote from the end on the plug side, the locking sleeve 14 has a plurality of elastic parts 30. The elastic portion 30 is arranged in a collet shape around the locking sleeve 14. The elastic portion 30 is also arranged so as to elastically move in the radial direction with respect to the coupler. Each resilient portion 30 has a cam 32 which engages a recess 34 in the contact sleeve 14 of the coupler. The recess 34 has two angled surfaces 36 so that the locking sleeve 14 can be moved from the locking position shown in FIG.
The movement of the cam causes the cam 32 to move over each angled surface 36. In this method, after the release, the restoring force that the locking sleeve 14 automatically returns to the locking position shown in FIG. 1 works.

As can be seen directly from FIG. 1, according to the invention, the mechanism by which the locking sleeve 14 returns to the locking position is provided without additional separate parts.
It is understood that it is only the interaction with. Locking sleeve 14 on contact sleeve 10
The axial movement of the is limited by the appropriate stops 38 on the indentations 34 on either end of the angled surface 36. The cam 32 comes into contact with the stop 38 by the corresponding movement of the locking sleeve 14, so that the locking sleeve 14 can no longer move axially.

FIG. 2 shows the first unlocked position of the locking sleeve 14 in order to insert the plug 20 therein and to fit the collet 18 into the recess 22 at the same time as the contact sleeve 10 is expanded. Is. The locking sleeve 14 is the end 1 on the plug side of the coupler.
By being manually pushed in the direction of 6, the location corresponding to the collet 18
It has a free space for expanding the collet in the radial direction. For insertion, the coupler is manually grasped by the locking sleeve 14 and the plug 20 and the coupler are pushed against each other, so that a force acts on the locking sleeve 14 in the direction of arrow 40. The resulting axial movement of the locking sleeve 14 towards the plug end 16 of the coupler according to the invention causes the cam 32 to slide along the angled surface 36 and FIG. As is apparent from the above, elastic movement of the elastic portion 30 occurs. Cam 32
As a result, tension is generated in the locking sleeve 14 and a restoring force toward the locking position is generated. Then, as soon as the plug 20 is completely pushed into the contact sleeve 10 and the collet 18 fits into the recess 22 of the plug 20, the locking sleeve is released, where the restoring force acts automatically and the locking sleeve 14 moves axially. , And returns to the locking position shown in FIG. This restoring force is generated by the unevenly distributed elastic portions 30 of the locking sleeve 14.

FIG. 3 shows a second unlocked position of the locking sleeve 14 for disconnecting the connection of the coaxial plug and for withdrawing the plug 20 from the contact sleeve 10. At this time, the plug 20 and the locking sleeve 14 are grasped by hand and pulled in the directions away from each other. This causes a separating force in the direction of arrow 42. This force causes the locking sleeve 14 to move axially towards the edge of the coupler edge away from the plug-side end 16. The part of the collet 18 has a free space for expanding the collet 18 in the radial direction. Then, the portion is the concave portion 2 of the plug 20.
Pulled out from 2. At the same time, the cam 32 sliding along the angled surface 36 again produces a corresponding restoring force, which creates a tension on the locking sleeve 14 in the direction of the locking position shown in FIG. As soon as the plug 20 is completely pulled out of the contact sleeve 10, the locking sleeve 14 is released, whereupon the locking sleeve 14 automatically returns in the axial direction under the restoring force of the unevenly distributed elastic parts 30.
Return to the locking position shown in FIG.

The above description directly results in the following: In the manual connection of the coupler and the plug 20, when the coupler is held by the locking sleeve 14, the manual locking force (arrow 40 or 42) in the exact unlocked position of FIG. 2 or FIG. Pressed. Then, after inserting the plug into the coupler or after separating the plug 20 from the coupler, it automatically returns to the locked position of FIG. For example, undesired disconnection of the plug connections due to vibrations is effectively prevented. Therefore, the plug 20
The direction of movement of each of the locking sleeves 14 required for the insertion or disconnection of the shafts simultaneously corresponds to the corresponding manual force exerted between the coupler and the plug 20 for the connection or disconnection. Therefore, the coupler according to the invention can be handled intuitively and does not require special care for the connection of the coaxial plug or for its disconnection. Thus, the user does not have to think, especially regarding the unlocked position required for the locking sleeve 14. When connecting the coaxial plug, pressing the coupler and plug 20 together will automatically result in the correct unlocked position. Further, in order to separate the connection of the coaxial plug, pulling the coupler and the plug 20 automatically causes an accurate unlocked position.

Furthermore, the connection of the plugs can only be separated manually, by the perceptual appropriate holding of the coupler by the locking sleeve 14. Because of the alternative, even if a force is applied between the coupler and the plug 20 in the separating direction 42 (FIG. 3), it remains in the locked position shown in FIG. 1 and the plug 20 from the collet 18 of the contact sleeve 10 is removed. Is also prevented. In other words, even if the coaxial cable attached to the coupler is accidentally pulled, the coupler is prevented from being pulled out from the plug 20.

The mechanism according to the invention is achieved with only one component. That is, the cam 32 formed on the elastic portion 30 is an automatic restoring force in the axial direction from both moving directions to the locking position. This restoring force is achieved by the following method. That is, the locking sleeve 1
The radially distorted cam 32 on top of the four contact surfaces 36 on the contact sleeve is angled.
This is achieved by the sliding force in the direction of the maximum depression by the pressure on and the return of the locking sleeve 14 to the locking position.

[Brief description of drawings]

FIG. 1 shows a schematic side view of an example of a preferred embodiment of the coupler according to the invention.

2 is an example of inserting the plug to obtain the connection of the coaxial plug in the coupler of FIG.
It is shown in a schematic side view.

FIG. 3 is a schematic side view of the coupler of FIG. 1, showing an example of plug separation for separating the coaxial plug connections.

[Explanation of symbols]

  10 Contact sleeve   14 Locking sleeve   16 Plug end   18 collets   20 coaxial plug   22 recess   28 Other end of locking sleeve   30 Elastic part   32 cams   36 angled surface   38 stop

Claims (12)

[Claims] 1. A plug-side end (16) for connecting to a coaxial plug (20) and another end remote from the plug-side end, in particular for connecting a coaxial cable, and a collet (18). As a contact sleeve (10) disposed on the plug side and the collet (18), the locking sleeve (10) is axially movable and has a locking position (
14) and the collet (18) is expandable, the coaxial plug (2)
0) can be inserted into the coupler by fitting the collet (18) into the recess (22) on the coupler side, and the collet (1) at the locking position.
In a coupler for a coaxial plug connector in which 8) cannot spread and the coaxial plug (20) cannot be separated from the coupler, the locking sleeve (14) remote from the plug end of the coupler. The other end (28) comprises at least one radially elastic part (30), the elastic part (30) being moved by the movement of the locking sleeve (14) from the locking position. The radial movement of the elastic portion (30) of the locking sleeve (14) is arranged to interact with the surface of the coupler so as to generate a restoring force to the locking position. A coupler for featured coaxial plug connectors. 2. The locking sleeve (14) has a first unlocked position for inserting the coaxial plug (20) and a second unlocked position for separating the coaxial plug (20) from the coupler. A coupler for a coaxial plug connector according to claim 1. 3. A coaxial plug connector according to claim 2, wherein the locking sleeve (14) in the first unlocked position is constructed by being pushed from the locked position towards the plug-side end (16) of the coupler. Coupler for. 4. The locking sleeve (14) in the second unlocked position is constructed by being pushed towards the other end of the coupler away from the plug-side end.
Coupler for the described coaxial plug connector. 5. A coupler for a coaxial plug connector according to claim 1, wherein the end of the locking sleeve, which is separated from the end of the coupler on the plug side, is formed in a collet shape. 6. The elastic part (30) of the locking sleeve (14) is provided with at least one cam (32) and two opposite angles on the surface of the coupler in the area of the cam (32). The surface and the locking sleeve (14
), The cam (32) slides along one of the angled surfaces (36) due to the axial movement of the locking sleeve (14) and the locking sleeve (14). 6. A coupler for a coaxial plug connector according to any one of claims 1 to 5, which is configured to cause a movement of the elastic part (30) of. 7. A coupler for a coaxial plug connector according to claim 6, wherein the cam (32) is integral with the locking sleeve (14) and is formed as one piece. 8. A cam is formed on the surface of the coupler, and two opposite angled surfaces are formed on the surface of the elastic part (30) of the locking sleeve in the area of the cam, and the cam from the locking position Due to the movement of the locking sleeve (14), the axial movement of the locking sleeve (14) causes one angled surface to slide over the cam and the elastic portion () of the locking sleeve (14). 30) A coupler for a coaxial plug connector according to any one of claims 1 to 5, which is configured to cause the movement of 30). 9. A coupler for a coaxial plug connector according to claim 8, wherein the angled surface is integral with the locking sleeve (14) and is formed as one piece. 10. The angled surface (36) comprises a stop (38) for limiting axial movement of the locking sleeve (14). A coupler for the coaxial plug connector described in. 11. A coupler for a coaxial plug connector according to claim 1, wherein the locking sleeve (14) is manufactured by injection molding. 12. A coupler for a coaxial plug connector according to claim 1, wherein the locking sleeve (14) is made of plastic.