RU205848U1 - Rocket stage separation unit - Google Patents

Abstract

The utility model relates to nodes for dropping or separating objects, mainly rocket stages, compartments, fairings, protective screens and payloads from the supporting structures of an aircraft, in any sections of the flight path, and can be used in the field of aviation and rocket technology. EFFECT: simplified design and assembly, increased reliability of the product as a whole, reduced weight and dimensions. The unit for separating the rocket stages includes power units for securing frames of separable structures, attachment surfaces made in the end planes of the frames, pyrotechnics for releasing the power attachment units and a compartment pusher, while the power units for securing the frames contain thrust shelves made on the frame of one of the separable structures, distributed along the periphery frame, and fixing levers made on the frame of another of the separable structures, mounted on the pivot axes, with the possibility of abutting when rotating on the pivot axes of one of the ends of the fixing lever on the stop shelves of the frame of the opposite detachable part of the structure, as well as a movable frame mounted on the guides through the made in the movable window frame, with the ability to move along the guides, in the direction perpendicular to the mating plane of the frames, end position clamps of the movable frame, rods connecting the movable frame with opposite parts of the fixing levers, while the latches of the end position of the movable frame are made on guides in the form of deformable fixing cones wedging the movable frame when it is moved to the end position.

Description

The utility model relates to nodes for dropping or separating objects, mainly rocket stages, compartments, fairings, protective screens and payloads from the supporting structures of an aircraft, in any sections of the flight path, and can be used in the field of aviation and rocket technology.

The closest technical solution, chosen as a prototype, is a system for separating structural elements - patent RU 2724337, containing power units for securing frames of split structures, mating surfaces made in the end planes of frames, pyro-nodes for releasing power attachments and a compartment pusher, power units for securing frames contain thrust shelves made on the frame of one of the separable structures, distributed along the periphery of the frame, and fixing levers made on the frame of the other of the separable structures, mounted on the pivot axes, with the possibility of stopping when rotating on the pivot axes of one of the ends of the fixing lever on the thrust shelves of the opposite frame the detachable part of the structure, as well as a movable frame equipped with floating spherical plain bearings, mounted on guides through the holes of the inner rings of floating spherical plain bearings, with the ability to move along the guides, in the direction perpendicular to the mating plane of the frames, spring-loaded end position clamps located on the movable frame, made in the form of rockers mounted on the pivot axes, with the possibility of stopping when rotating on the pivot axes of the rocker edge into the protrusion on the frame, when moving the movable frame in extreme position, rods connecting the movable frame with opposite parts of the fixing levers, made with the possibility of adjusting their length, a nut with a tightening bolt, with an emphasis on the head of the tightening bolt in the movable frame and pressing the frames along the mating surfaces when moving the movable frame in the process of tightening the bolt, when in this case, an annular groove is made in the bolt body with a conical side wall located on the side opposite to the bolt tightening direction, the thrust part of the tightening bolt head is made in the form of separate crackers, partially immersed in the groove of the tightening bolt body, having the shape of a submerged part identical to the shape between the grooves of the body of the tightening bolt, and a cylindrical shiftable spring-loaded piston, located above the individual crackers, and the pyro-unit for unlocking the power attachment points is made in the form of a pneumatic cylinder with a housing that is movable relative to the body of the tightening bolt, fixed on a movable frame and enclosing a shiftable spring-loaded piston.

The general essential features of the prototype - a system for dividing structural elements that coincide with the essential features of the proposed device are the following: the unit contains power units for fastening frames of separated structures, mating surfaces made in the end planes of the frames, pyro-units for unlocking the power fastening units and a compartment pusher, while the power units frame fasteners contain thrust shelves made on the frame of one of the separable structures, distributed along the periphery of the frame, and fixing levers made on the frame of the other of the separable structures, mounted on the pivot axes, with the possibility of stopping when rotating on the pivot axes of one of the ends of the fixing lever on the thrust shelves frame of the opposite detachable part of the structure, as well as a movable frame mounted on guides through windows made in the movable frame, with the ability to move along the guides, in the direction perpendicular to the mating th plane of frames, clamps of the end position of the movable frame, rods connecting the movable frame with opposite parts of the fixing levers.

A feature of the known joint - the prototype is the complexity of the design and assembly of the end position clamps of the movable frame, the details of which occupy the internal space of the product and increase its mass.

The proposed utility model, the rocket stage separation unit, solves the problems of simplifying the design and assembly, increasing the reliability of the product as a whole, and reducing the weight and dimensions.

To achieve the named technical result in the unit for separating the stages of the rocket, there are power units for fastening frames of separable structures, attachment surfaces made in the end planes of the frames, pyro-units for releasing the power attachment points and a compartment pusher, while the power units for fastening the frames contain made on the frame of one of the divided structures thrust shelves, distributed along the periphery of the frame, and fixing levers made on the frame of another of the separable structures, mounted on the pivot axes, with the possibility of stopping when rotating on the pivot axes of one of the ends of the fixing lever on the thrust shelves of the frame of the opposite detachable part of the structure, as well as the movable frame installed on the guides through the windows made in the movable frame, with the ability to move along the guides, in the direction perpendicular to the mating plane of the frames, the end position clamps of the movable frame, the rods connecting the sub lower frame with opposite parts of the fixing levers, while the end position latches of the movable frame are made on guides in the form of deformable fixing cones wedging the movable frame when it is moved to the end position.

A distinctive feature of the proposed unit for separating the stages of the rocket is that the end position clamps of the movable frame are made on guides in the form of deformable fixing cones that jam the movable frame when it is moved to the final position.

Due to the presence of these distinctive features in combination with the known ones, the following is achieved: simplification of the design and assembly is provided, an increase in the reliability of the product as a whole, a decrease in weight and dimensions.

This technical solution can be used as a docking unit for rocket stages, compartments, fairings, protective screens and payloads that must be separated during flight.

The utility model is illustrated in FIG. 1 ... 6.

FIG. 1 is a rear view of the rocket stage separation unit.

FIG. 2, section A-A (Fig. 1), shows the unit for separating the stages of the rocket in the holding position.

FIG. 3, section A-A (Fig. 1), shows the unit for separating the stages of the rocket in the unlocked position.

FIG. 4, section b-b (Fig. 1), shows the locking lever in the holding position.

FIG. 5, a remote element B (Fig. 2), shows the lock of the end position of the movable frame.

FIG. 6, the remote element B (Fig. 3), shows the lock of the end position of the movable frame in a deformed state.

The rocket stage separation unit shown in FIG. 1 ... 6 contains power units for fastening frames 1 (Fig. 2, 3, 4) and 2 (Fig. 2, 3, 4, 5, 6) of separable structures, attachment surfaces 3 (Fig. 2, 3, 4), made in the end planes of frames 1 and 2, pyro nodes for unlocking 4 (Fig. 1, 2, 3) of the power attachment points and the pusher of the compartment 5 (Fig. 1), while the power attachment points of frames 1 and 2 contain one of the separable structures stop flanges 6 (Fig. 4), distributed around the periphery of the frame 1, and made on the frame 2 of the other of the separable structures, fixing levers 7 (Fig. 4), mounted on the pivot axes 8 (Fig. 4), with the possibility of stopping during rotation on the pivot axes 8 of one of the ends of the locking lever 7 on the stop flange 6 of the frame 1 of the opposite detachable part of the structure, as well as the movable frame 9 (Fig. 1, 2, 3, 4, 5, 6), mounted on the guides 10 (Fig. 1 , 2, 3, 5, 6) through the windows 11 made in the movable frame 9 (Fig. 5, 6), with the ability to move along the guides 10, in the direction perpendicular to the mating plane 3 of frames 1 and 2, end position latches 12 (Fig. 5, 6) of the movable frame 9, rods 13 (Fig. 4) connecting the movable frame 9 with the opposite parts of the fixing levers 7, while the latches of the end position 12 of the movable frame 9 are made on the guides 10 in the form of deformable fixing cones wedging the movable frame 9 when moving it to the end position.

The rocket stage separation unit works as follows: when an electrical signal is applied to the unlocking units 4, an overpressure arises, at which the movable frame 9 moves along the guides 10, while the movable frame 9 rotates the locking levers 7 through the rods 13, thereby releasing the frames 1 and 2 out of mesh. In the final position, the windows 11, made in the movable frame 9, are aligned with the end position latches 12, made on the guides 10 in the form of deformable fixing cones, which leads to jamming of the movable frame 9, after which the pusher of the compartment 5 is triggered, which carries away the frames 1 and 2 apart.

Claims (1)

The unit for separating the rocket stages, including the power units for securing frames of the separable structures, attachment surfaces made in the end planes of the frames, pyro-nodes for releasing the power attachment points and the compartment pusher, while the power units for securing the frames contain thrust shelves made on the frame of one of the separable structures, distributed along the periphery of the frame, and fixing levers made on the frame of another of the separable structures, mounted on the pivot axes, with the possibility of abutting when rotating on the pivot axes of one of the ends of the locking lever on the stop flanges of the frame of the opposite detachable part of the structure, as well as a movable frame mounted on the guides through windows made in a movable frame, with the ability to move along guides in a direction perpendicular to the mating plane of the frames, latches of the end position of the movable frame, rods connecting the movable frame with opposite parts of the fixing x levers, characterized in that the end position latches of the movable frame are made on guides in the form of deformable fixing cones that jam the movable frame when it is moved to the end position.

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