RU2135847C1 - Connecting-disconnecting mechanism - Google Patents

Abstract

FIELD: mechanical engineering; connection of parts. SUBSTANCE: connecting-disconnecting mechanism has two parts mounted coaxially, connecting member made is form of split deformable ring laid in matched circular grooves at initial radial pressure for several pairs of mutually perpendicular rods mounted symmetrically. Radial rod of each pair is mounted for motion in radial passage resting against end surface of longitudinal rod partially mounted in longitudinal passage of end of male part for motion. Other end surfaces of each longitudinal rod rest against flexible members mounted in passages of male part. circular groove of male part may be provided with split ring fitted coaxially relative to split deformable ring in front of it. This ring is made from material possessing higher strength as compared with that of split deformable ring. EFFECT: probability of connecting and disconnecting parts with no access to joint taking up impact loads. 2 cl, 2 dwg

Description

 The invention relates to the field of mechanical engineering, in particular to connecting and disconnecting mechanisms.

 A mounting device (1) is known, which fixes the first element inside the second element so that the first element cannot move along the axis. In the second element, an inner annular groove is made in the radial direction, in which an elastically deforming mounting ring is clamped, and a moving sleeve is mounted on the first element. Moving, the sleeve presses the installation ring against the conical proppant surface of the first element, as a result of which the installation ring is deformed in the radial direction and enters the groove of the second element. The sleeve moves along the axis thanks to a simple threaded connection. The moving sleeve has an annular protrusion, which can enter into the annular gap formed between the first and second elements associated with the inner annular groove. The end surface of this protrusion is in contact with the installation ring.

 The disadvantage of this installation device is the need to provide access to the moving sleeve when connecting or disconnecting the first and second elements.

 The closest technical solution to the described invention is the connecting and disconnecting mechanism (2), containing the first cylindrical part with a longitudinal axis, coaxially with which the second part is installed. A cylindrical element made of brittle material is attached to both parts. Using the specified element, the first and second parts are fastened one to the other, while the element is completely placed inside the grooves formed in the boundary surfaces of both parts. Inside the grooves behind the element is a device that allows you to destroy brittle material and separate one part from another.

The disadvantages of this connecting-disconnecting mechanism are:
- limited scope of the design using this mechanism, because the presence of a cylindrical element made of brittle material can lead to its premature destruction from an external mechanical impulse of an impact nature,
- the need for access to the junction of the two parts when they are connected,
- an increase in the dimensions of the mechanism due to the presence of a device that destroys the cylindrical element of brittle material.

 The technical problem solved by the proposed connecting and disconnecting mechanism is to expand the scope of the connecting and disconnecting mechanism with its relatively small dimensions.

 Effect: the work of the connecting and disconnecting mechanism when exposed to shock loads, ensuring the connection of two parts without access to the joint, relatively small dimensions of the structure.

 To solve this problem, a connecting-disconnecting mechanism is proposed, containing two coaxially mounted parts, the connecting element is placed in the combined annular grooves made on the boundary surfaces of the connected parts.

 New in this mechanism is that one of the annular grooves is made on the outer side surface of the male part and has a rectangular cross-sectional profile, and the other is made on the inner side surface of the female part. The female part comprises an inner flange into which the male part abuts against the end face, in which radial channels are symmetrically located, connected on one side with an annular groove on the male part, and on the other hand, with longitudinal channels intersecting with them at right angles. The outputs of the longitudinal channels at the end of the male and in the flange of the female parts are combined. The connecting element is made in the form of a split deformable ring having a rectangular cross-sectional profile with a chamfer on the outer surface and is installed in compatible annular grooves of the connected parts with a stop on the chamfer surface in the conical part of the surface of the annular groove made in the covering part located above it, with an initial radial pressure on several pairs of symmetrically mounted mutually perpendicular rods, while in each pair the radial rod is installed with the possibility of ne emescheniya radial channel with emphasis on the end face of the longitudinal rod mounted partially within the longitudinal bore end of the male member for longitudinal movement along its longitudinal channel. The end surfaces of the rods mating with one another are located at an angle to the longitudinal axis of the parts to be joined, the second end surfaces of the longitudinal rods located in the longitudinal channels of the flange of the female part abut against elastic elements installed in the same channels. The connecting element may further comprise a split ring, with a thickness greater than the width of the annular groove in the female part, made of material with a strength greater than the strength of the material of the split deformable ring, installed in the annular groove of the male part coaxially with the split deformable ring and in front of it from the flange of the female part , with initial radial pressure on the inner side surface of the female part.

 The implementation of the connecting element in the form of a split deformable ring installed in the combined annular grooves of the parts to be joined with an initial radial pressure of several pairs of symmetrically mounted mutually perpendicular rods allows a reliable connection of two parts, which can also work under the influence of a mechanical shock impulse, because . the connecting element is not made of brittle material.

 The possibility of longitudinal movement of the rods along the channels and the location at an angle to the longitudinal axis of the connected parts of the mating end surfaces of the rods, one of the ends of which abuts the elastic element, allows the connection of two parts without access to them, because when connected, a split deformable ring having an initial radial pressure is completely located in the annular groove of the male part. As the annular grooves are aligned, the ends of the longitudinal rods abut against the elastic elements, thereby transmitting forces from them through the rods to a split deformable ring, which is unclenched from these forces and enters the annular groove of the enclosing part. When the end face of the male part abuts against the flange of the female part, the annular grooves are combined and the split deformable ring is fully expanded with the chamfer surface stop in the conical part of the annular surface of the female part and thereby reliably connects both parts.

 If necessary, the separation of parts, the covered part is affected by a force of a certain size, under the influence of which a cut of the split deformable ring occurs and separation of the parts. The absence in this connecting-disconnecting mechanism of the device that destroys the connecting element allows it to be performed in relatively small dimensions.

 The presence of an additional split ring made of a material with a strength greater than the strength of the material of the split deformable ring installed in the annular groove of the male part coaxially with the split deformable ring and in front of it from the flange side of the female part, with initial radial pressure on the inner side surface of the female part, provides the best conditions for cutting a split deformable ring, thereby realizing the classic case of a clean cut when separating parts.

The invention is illustrated by drawings:
in FIG. 1 shows a General view of the connecting and disconnecting mechanism;
in FIG. 2 shows an embodiment of a connecting-disconnecting mechanism with an additional split ring.

 The connecting and disconnecting mechanism contains two coaxially mounted parts: a male part 1, on the outer side surface of which an annular groove 2 of a rectangular cross-sectional profile is made, and a female part 3, on an inner side surface of which an annular groove 4 of an asymmetric trapezoidal cross-sectional profile is made. The female part 3 comprises an inner flange 5, into which the male part 1 abuts against the end 6. At the end 6, radial channels 7 are made, which are arranged symmetrically around the circumference. The radial channels 7 are connected with the annular groove 2 and with the longitudinal channels 8 intersecting with them at right angles, made at the end 6 of the male part 1. In the flange 5 of the female part 3, the longitudinal channels 9 are made, the outputs of which are aligned with the outputs of the longitudinal channels 8 made in the end 6 of the male part 1. In the combined grooves 2 and 4, a connecting element is installed, made in the form of a split deformable ring 10 of a rectangular cross-sectional profile with a chamfer 11 on the outer surface. The split deformable ring 10 is installed in the aligned annular grooves 2 and 4 with the stop of the chamfer surface 11 in the conical portion of the surface 12 of the ring groove 4 located above it and with the focus of the surface 13 of the ring 10 in the surface 14 of the ring groove 2. The split deformable ring 10 in the free state has a slightly smaller outer diameter 15 than the outer diameter 16 of the male part 1, which ensures its installation with an initial radial pressure on several pairs of symmetrically mounted mutually perpendicular rods 17 and 18. In each pair, the radial rod 17 is installed in the radial channel 7 with the emphasis of its end surface 19 on the end surface 20 of the longitudinal rod 18, partially installed in the longitudinal channel 8. The rods 17 and 18 have the ability to move each of them along their channels 7 and 8. The mating end surfaces 19 and 20 of the rods 17 and 18 are located at an angle to the longitudinal axis of the connected parts 1 and 3. The second end surfaces 21 of the rods 18 located in the longitudinal channels 9 of the flange 5 abut against the elastic elements 22 (in this connection eat away body mechanism - springs) installed in the same channels. The intersection of the surface 14 of the annular groove 2 with the outer side surface of the male part 1 forms a cutting edge 23.

 To provide better cut conditions for the split deformable ring 10, Fig. 2 shows an embodiment of the connecting and disconnecting mechanism, which further comprises a split ring 24 made of a material with a strength greater than the strength of the material of the split deformable ring 10. The split ring 24 is installed in the annular groove 2 parts 1 coaxially split deformable ring 10. The split ring 24 in the free state has a slightly larger outer diameter 25 than the inner diameter 26 of part 3, which both sintering the initial radial pressure on the inner side surface of the female part. The width 27 of the annular groove 2 in the male part 1 is greater than the width 28 of the annular groove 4 in the female part by a thickness 29 of the split ring 24, while the thickness 29 of the split ring 24 is slightly larger than the width 28 of the groove 4 in the female part 3.

 The connecting and disconnecting mechanism operates as follows. In the initial state, before connecting parts 1 and 3, a split deformable ring 10 is located in the annular groove 2 so that its outer diameter 15 does not protrude outside the outer diameter 16 of the covered part 1. The split deformable ring 10, having an initial radial pressure, acts on the rods 17 which, in turn, act on the rods 18 by means of surfaces 19 and 20, made at an angle to the longitudinal axis of the connected parts 1 and 3, while the end surfaces 21 of the rods 18 protrude as much as possible above the end face 6 of the male parts 1. During the installation of part 1 in part 3, part 1 moves freely until the end surfaces 21 of the rods 18 abut against elastic elements 22, which, as the male part moves, are compressed and transmit forces through rods 18 and 17 to the split deformable ring 10. These efforts unclench a split deformable ring 10, increasing it in diameter. At the moment of combining the annular grooves 2 and 4, the split deformable ring 10 partially leaves the groove 2 and enters the groove 4 due to the forces transmitted from the elastic elements 22 through the rods 18 and 17, while the elastic elements partially expand. The split deformable ring 10 enters the annular groove 4 in such a way that when it is squeezed, the surface of the chamfer 11 of the split deformable ring abuts against the conical part of the surface 12, thereby compressing the end face 6 of the part 1 into the inner flange 5 of the part 3, and this ensures a reliable connection parts 1 and 3.

 If necessary, the separation of one part from another on the covered part 1 is influenced by a force of a certain size, under the influence of which a shear split deformable ring 10 is cut by the edge 23 of the covered part 1, and thereby the parts 1 and 3 are separated.

 In the embodiment of the connecting-disconnecting mechanism with an additional split ring 24, when one part is separated from another, the cut of the split deformable ring 10 occurs by the edge 30 of the ring 24, which is in contact with the inner side surface of the female part 3, and thereby the classic case of a clean cut of the split deformable ring is realized . The thickness 29 of the split ring 24 is slightly larger than the width 28 of the groove 4 in the female part 3 provides a normal passage of the ring 24 during the passage of the groove 4 in the process of connecting parts 1 and 3.

 The choice of the size of the annular grooves, split deformable ring and split ring, rods, as well as the materials from which they are made, is determined by calculation and experimental means depending on the loads for which the connecting-disconnecting mechanism is designed.

Using the proposed connecting and disconnecting mechanism will allow:
1) to ensure the operation of the connecting-disconnecting mechanism under the influence of a mechanical impulse of shock nature;
2) to ensure the connection of two parts without access to the junction;
3) to carry out its construction in relatively small dimensions.

 Sources of information.

 1. Japanese application N 58-53208, IPC F 16 B 21/18, 1983

 2. US patent N 4 627 355, IPC 4 F 42 B 15/10, 1986

Claims (2)

 1. The connecting and disconnecting mechanism comprising two coaxially mounted parts, a connecting element located in the combined annular grooves made on the boundary surfaces of the connected parts, characterized in that one of the annular grooves is made on the outer side surface of the male part and has a rectangular cross-sectional profile the other is made on the inner side surface of the female part, the female part contains an inner flange into which the male part abuts end, in which the radial channels are symmetrically located, connected on one side with an annular groove on the male part, on the other hand with longitudinal channels intersecting with them at right angles, the outputs of the longitudinal channels in the male end face and in the flange of the female parts are aligned, the connecting element made in the form of a split deformable ring having a rectangular cross-sectional profile with a chamfer on the outer surface, installed in compatible annular grooves of the connected parts with surface of the chamfer in the conical part of the surface of the annular groove located above it, made in the enclosing part, with an initial radial pressure of several pairs of symmetrically installed mutually perpendicular rods, while in each pair the radial rod is mounted with the possibility of movement in the radial channel with emphasis on the end surface a longitudinal rod partially installed in the longitudinal channel of the end face of the male part with the possibility of moving it along the longitudinal channels, interfaced with one another goy end surfaces of rods arranged at an angle to the longitudinal axis of the parts, the second end surfaces of each longitudinal rod disposed within the longitudinal bore of the flange of the female part, abut the resilient elements mounted in the same channels.  2. The connecting and disconnecting mechanism according to claim 1, characterized in that the connecting element further comprises a split ring with a thickness greater than the width of the annular groove in the female part, made of a material with a strength greater than the strength of the material of the split deformable ring installed in the annular groove of the male part coaxially to the split deformable ring and in front of it from the flange side of the female part, with initial radial pressure on the inner side surface of the female part ali.

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