SU720593A1 - Electrical jack for interconnecting different units - Google Patents

Description

one

The invention relates to electrical engineering and is intended for use in electrical installations for various purposes, where mechanical docking of connector mating parts mounted on two blocks shifted during the docking process is necessary.

An electrical connector is known, consisting of two mating parts, one of which is mounted on one of the blocks and is made floating with respect to the docking axis, and the second is fixedly mounted on the other block 1.

"One part of the connector floats due to radial and axial clearances between the floating part and its fastening elements on the block. With the aid of a twisted cylindrical spring coaxially with the axis of the connector docking, the floating part presses against its support plane when disconnecting the connector.

The disadvantages of the known disconnection are the absence of a centering device which, after disconnecting the connector, returns the floating part of the connector in the radial direction to the nominal axis.

docking the connector, to its original position for subsequent docking, as well as pressing the floating part against the movement of the counter, fixedly fixed part during the docking process. This leads to an increase in the size of catchers intended for mutual capture of the counter parts of the connector in the initial stage of joining, and consequently, an increase in the dimensions of the connector. Due to the advancement of the floating part towards the movement of the counterpart, the position of the floating part of the connector along the docking axis appears, which reduces the reliability of the mechanical docking of the connector under conditions that exclude the possibility of visual control of the docking fact.

Also known is an electrical connector consisting of two mating parts, one of which is mounted on one of the blocks and is made floating with respect to the docking axis, and the other is fixedly mounted on the other block. The floating part of the connector is pressed by the springs to the fixedly mounted conical bushings, the body of the floating part of the connector, due to the resistance of the connector; and the floating part of the connector on coic shovels. installed in the holes flange1, a, the floating part of the connector rises under the action of springs in the radial direction on the but; LI11alny axis of the docking of the connector to its original position for subsequent docking (2 |. However, due to the floating part advancing in opposite direction to the movement of the counterpart in this connector The initial angular deviation of the floating part of the connector from 1 is large; the nominal donkey docking is disconnected and remains unchanged; 1, the duration of the joint: docking of the connector under conditions that exclude the possibility of visual inspection of the fact of docking. Our invention is to increase reliability by increasing the accuracy of returning the floating part of the connector to its original position and changing the direction of its pressing. This goal is achieved by the fact that the electrical connector for interconnect docking consists of two response parts, one of which is floating It is connected to the axis of the joint and contains a centering device in the form of several, at least two conical bushings in the shape of a truncated cone, installed parallel to the axis of the joint in the cylindrical hole Stem of the housing flange of the floating part of the connector and pressed with a conical surface to this flange by means of a spring. coaxial bushings coaxially, each of the conical bushings is mounted for movement along its axis; and on the fixed cylindrical guides, equipped with a stop at one end, exchanged from the other counterpart of the connector, and from the other end .1.3 - flat a support base, wherein each conical sleeve is mounted on a guide between the body flange and the stop and directed by the mounting base of the cone towards the support base of the guide, and each spring is placed between the large base vaniem cone of the conical sleeve and the stop guide. In this case, each of the guides can be made with the centering gossip on its supporting centerline and a hole for the passage of the screw fastening the guide or all of the supporting bases of the guides vtoryT to be united into a common platform with the hole centered along the axis of the dock mounting platform made in it or in rails. Changing the direction of pressing the floating part, i. pressing it against the stationary / fixed, flattened base of the guides results in a decrease in the angular deviation of the floating part of the connector relative to the nominal axis of the joint of the connector after it returns to its original position for subsequent joining. In addition, in this method of pressing at all stages of the docking, the fixed position of the floating part along the docking axis of the connector is preserved, which significantly increases the reliability of the mechanical joining of the connector under conditions that exclude the possibility of visual control of the fact of docking. FIG. 1 shows the proposed electrical connector for inter-unit docking with a partial cut-out to better show the design of the colored tool (Shown is the design, and in which all the supporting bases of the cylindrical axes of the pre-assembled direction for moving along the kh.L. spring-loaded conical bushings are combined into a common platform having a juice centering along the docking axis, and the platform is fixed on the block through openings made in the rails); in fig. 2-- general view of the proposed electrical connector when docking the connector parts; in fig. 3 is an electrical connector in which each of the two sections intended to move r (podlzhi; 1eli; xk; a;) hubs, has a centering button on its support ociiOBaHHM and a hole for the w-bolt of the guide fastening screw; pas figs. 4 is an electrical connector, in which all the supporting bases of cylindrical guides intended for movement: and along them spring-loaded tapered bushings are combined into a common platform having centering juice along the axis of the steel pipe. and the platform is mounted on the block through holes made in the self-platform. :); The electrical connector for interfragment docking consists of two mating parts, an overlapping part 1 fixed with the possibility of crossing relative to the docking axis of N.a.ojj.f-iOM from the blocks, and the reciprocal part 2, leiedv; to; block. In order to mutually grip the socket mates, at the initial stage of its joining the following, it is a catcher made in the form of a socket 3 and a fixedly mounted mate part 2 of the connector and guided the pack 4 to the floating chamfer on the floating one: to the; tn connector. ; 1 laEa1C-pga part i of the connector is mounted on sludge form 5, which unites the supporting bases 6 of cylindrical sleeves 7 and has a centering point along 8 of the joining point. To reduce friction between the platform 5 and the floating part 1, a gasket 9 of antifriction material is laid. Conical sleeves 10 along with springs 11 are mounted on guides 7. Conical sleeves 10 can move along the axis of guides 7. At the same time, movement of conical sleeves 10 is limited on one side by the flange of housing 12 of floating part 1 of connector, in cylindrical holes 13 of which they are mounted parallel to the axis of the joint on the cylindrical guides 7, and on the other hand limited by the stops 14, which are provided with the guides 7 on the side of the other counterpart 2 of the connector In the stops 14 there is a cavity for accommodating spring washers 15 and screw heads 16 for mounting the platform 5 on the surface of the block 17.

At the inter-block docking of the connector at the initial moment, the socket 3 is guided by the socket 3 of the guide cup 4. Then the floating part of the connector I is shifted in the radial direction by the value of "a and tilted by an angle in (to compensate for radial and angular skews (Fig. 2). In this case The conical bushings 10 move along the axes of the guides 7, compressing the spring 11.

When disconnecting the spring connector 11, the conical sleeves 10 move along the axes of the guides 7 until the conical sleeves 10 are mounted along the axis of the holes 13 of the flange of the housing 12 of the floating part 1 of the connector. In this case, the floating part 1 of the connector is displaced relative to the platform 5, returning to the nominal axis of the connector dock to its original position for subsequent docking (Fig. 1).

The electrical connector for coaxial-type inter-unit docking with lateral cable exit from the floating part of the connector is applicable to connectors with frontal cable outlets from the floating part of the connector, and when introducing into the construction of counter parts of the connector, polarizing elements and multi-pin connectors.

The electrical connector (Fig. 3) has guides along which spring-loaded tapered bushings 10 move, which are separate mounting elements. The guides have a juice centering on the support bases and holes for the screws securing the supports to the surface of the block.

Instead of a gasket 8, washers 18 of antifriction material are installed on the guides 7.

The electrical connector (Fig. 4), in order to reduce the axial dimensions of the centering device of the connector, for mounting on the surface of the block 17 with screws 16 in the platform 5 has holes 19, and the diameter of the guides 7 is reduced.

Introducing the moving spring-loaded conical sleeves of self-aligning holes in the flange of the body of the floating part of the connector, pressing the body to the flat supporting bases of the fixedly mounted guides at all stages of the docking, improves the accuracy of returning the floating part of the connector to the nominal dock axis to its original position for later docking In this case, the error in the return of the floating part of the connector to the docking axis is reduced both by radial displacements and by angular distortions. This increases the reliability of the interconnect docking of the connector and reduces the required dimensions of the catcher to intercept the counter parts of the connector and reduce the size of the entire connector.

In addition, due to the fixed position of the floating part of the connector in the direction of the docking axis at all stages of docking, the uncertainty of the position of this part of the connector on the docking axis is eliminated, which significantly increases the reliability of interconnect under conditions that exclude the possibility of visual control of the docking.

Claims (4)

1. An electrical connector for inter-unit docking, consisting of two parts, one of which is made floating with respect to the docking axis and contains a centering device in the form of several at least two conical bushings in the form of a truncated cone, installed parallel to the docking axis in cylindrical openings of the flange of the housing of the floating part of the connector and pressed against the flange by a conical surface by means of springs mounted coaxially to the conical bushings, characterized in that, in order to improve reliability, Because of the accuracy of returning the floating part of the connector to its original position and changing the direction of its pressing, each of the tapered bushings is mounted for movement along its axis on stationary cylindrical guides provided with a stop at one end placed on the counterpart side and flat at the other end a support base, wherein each conical sleeve is mounted on a guide between said body flange and an anvil and directed by a smaller base towards the support base towards Aulus moiety and each of the springs is disposed between the large base of the conical sleeve and the stop guide. 2. The electrical connector according to claim 1, characterized in that the supporting bases of the guides are integrated into a common platform, provided with a centering along the axis of the joint, and in the guides there are holes for the passage of the platform fastening screws, 3. An electrical connector according to claim 1, characterized in that each of the guides is made with a centering track on its support base and an opening for the passage of the fastening screw. 4. Electrical connector according to claim 1, characterized in that the supporting bases of the guides are integrated into a common platform of the mounting screws provided with centering along the axis of the joint. Information sources, taken into account in the examination 1. US patent number 3094364, CL. 339-64, 1963. 2. US patent number 3488623, cl. 339-64, 1970. FIG. 2