RU2107252C1 - Rocket compartments joint - Google Patents

Abstract

FIELD: rocketry. SUBSTANCE: rocket compartment joint has flanges of the compartments to be joined, studs, nuts and a seal. Flange of one of the compartments is detachable, it is installed with the aid of spring rings for turning relative to the longitudinal axis. EFFECT: enhanced compartment loading ratio, provision for adjustment of relative position of compartments. 1 dwg

Description

 The invention relates to the field of rocketry, in particular to nodes docking compartments of rockets of multiple launch rockets.

 Various designs of docking units for rocket compartments are known and widely used.

 The most widespread are flange docking assemblies, the connecting parts of which are flat rings or discs with holes for the passage of bolts or studs.

 So, it is known flange connection [1], adopted by the authors as an analogue.

 The specified connection consists of two connected compartments with flanges with holes located on their outer surfaces and a sealing seal. The compartments are secured by bolting.

This connection is structurally simple, but has significant disadvantages:
1. The protrusion of the flanges for the dimensions of the body of the product, which affects the aerodynamics of the product.

 2. An increase in the diameter of the tube guide launcher is required.

 3. It does not allow adjustment of the relative position of the compartments.

 Common features of the analogue with the docking station proposed by the authors are the presence of flanges on the abutting compartments, sealing seals and fastening elements.

 The closest analogue to the proposed invention is the mounting unit of the compartments of the flange type [2], adopted by the authors for the prototype.

 This mounting unit consists of two connected compartments with flanges located on the inner surfaces with a sealing seal. On the flange of one of the compartments there are threaded holes for installing the studs, and on the flange of the other there are holes for the studs and “pockets” for screwing on the nuts.

 This design partially eliminates the disadvantages of the analogue, namely: the protrusion of the fastening elements of the compartments beyond the outer surface of the product, which significantly improves the aerodynamic characteristics of the product and does not require an increase in the diameter of the tubular guide launcher.

However, the adopted prototype has the following disadvantages:
1. The flange of the first compartment does not allow to install blocks in the compartment whose outer diameter exceeds the inner diameter of the flange, which leads to a decrease in the fill factor of the compartments and, as a result, to an increase in the dimensions of the product.

 2. The design of this joint does not allow for adjusting the relative position of the compartments, which leads to the need to set special structural elements and dimensions to ensure the specified position of the compartments, to tighten tolerances in the manufacture of rockets and, as a consequence, to increase the cost of the rocket.

 Common features of the prototype with the authors proposed unit docking compartments are the presence of flanges on the inner surfaces of the connected compartments, sealing seals and fastening with studs.

 In connection with the foregoing, the objective of the invention was to create a design of a flange assembly for docking rocket compartments, providing a maximum fill factor of the compartment, as well as the ability to adjust the relative angular position of the compartments.

 In contrast to the prototype, the flange of one of the mating compartments is removable and installed in the compartment using spring rings to enable rotation about the longitudinal axis of the rocket.

 At the same time, a technical result is achieved consisting in the possibility of installing blocks with overall dimensions larger than the inner diameter of the flange in the compartment, which increases the fill factor of the compartment, and also in the possibility of adjusting the mutual angular position of the compartments (before tightening the joint) in order to ensure a given position of the elements, located on the compartments relative to each other (for example, adjusting the position of the tear-off connector relative to the position of the rocket guide pin), which allows to expand the tolerance When manufacturing parts and components of the rocket.

 It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result. These signs, distinctive from the prototype, to which the requested amount of legal protection applies, in all cases are sufficient.

 The essence of the invention lies in the fact that in the docking unit of the rocket compartments containing the flanges of the mating compartments, studs, nuts, sealing seal, unlike the prototype according to the invention, the flange of one of the compartments is removable and mounted using spring rings with the possibility of rotation relative to the longitudinal axis of the rocket .

 The invention is illustrated in the drawing, which shows the docking unit of the rocket compartments.

 The unit for docking the rocket compartments contains: compartment 1, in which a removable flange 2 is mounted, fixed by spring rings 3, into which the studs 4 are screwed, compartment 5, nuts 6, and a sealing seal 7.

 Docking compartments is as follows. Before installing the flange 2 in the compartment 1, control units and control systems are installed, the outer diameters of which can exceed the inner diameter of the flange.

 After installing the flange, the compartments are docked, their angular position is adjusted relative to each other, and the nuts are tightened.

 According to the invention, design documentation was developed, samples were made, laboratory bench and flight tests of the proposed missile docking assembly were carried out.

 The test results are positive. In the future, the docking unit is proposed to be used for installing multiple launch rocket systems on one of the shells.

Claims (1)

 A unit for docking rocket compartments containing flanges of mating compartments, studs, nuts, a sealing seal, characterized in that the flange of one of the compartments is removable and installed in the compartment using spring rings with the possibility of rotation relative to the longitudinal axis.