RU2480389C2 - Space center complex for preparation of carrier rocket with ascent unit equipped with sustainer, and spaceship - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: proposed complex comprises sets of equipment required to carry out at space center mount-and-test complex the entire range of jobs related to reception, servicing and prelaunch preparation of carrier rocket components, their tests assembly, checks and mounting ascent unit at carrier rocket and preparation to transfer to launching complex.

EFFECT: higher reliability, expanded performances.

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Description

The invention relates to rocket and space technology (RKT), namely to the technique and technology of preparation for launching a launch vehicle (LV) with a space warhead (KCH) containing an upper stage (RB) and a spacecraft (KA), and can be used to prepare for launching launch vehicles of light, medium and heavy class with space warheads at the technical complexes of cosmodromes.

The level of technology.

The known complex preparation of the launch pad for launching a space rocket (ILV) and ground equipment for launching (see the description of the patent of the Russian Federation No. 2094337, IPC B64G 5/00, 1994).

A set of prelaunch preparation and launch of the launch vehicle is also known (see the description of the patent of the Russian Federation No. 2099255, IPC B64G 5/00, F42B 15/00, 1995).

A well-known launch complex for prelaunch and launch vehicles with a spacecraft (see the description of the patent of the Russian Federation No. 224242411, IPC B64G 5/00, 2003).

Known launch complex for the preparation and launch of the spacecraft with spacecraft (see the description of the patent of the Russian Federation No. 2270792, IPC B64G 5/00, 2004). The composition of the well-known launch complex includes systems for filling the LV with various gas and liquid components, including air supply system in the form of a compressor station, refrigeration thermostatic control system and other auxiliary equipment.

Also known is the launch complex for prelaunch preparation and launch of the launch vehicle with KGCH and options for the implementation of the thermostatic control system of various launch vehicles (see the description of the patent of the Russian Federation No. 2318706, IPC B64G 5/00, 2006). The well-known launch complex includes, in particular, systems for filling the pH with an oxidizing agent and fuel, a fuel cooling system, means for remote control of the main air parameters (pressure and temperature), a thermostatic control system for low-pressure air with a low pressure, a refrigeration center, general technical systems and other equipment.

In addition, a similar starting complex for prelaunch preparation and launch of a LV with KGCH and options for performing a thermostatic control system for various LV compartments is known (see the description of RF patent No. 2318707, IPC B64G 5/00, 2006), which contains, in particular, a refueling system LV with fuel and oxidizing agent, refrigeration center, low-pressure air temperature control system and general technical systems.

Also known is the "Universal Launching Assembly Complex for Launching Spacecraft" - see the description of US Patent No. 4932607; Int.Cl. B64F1 / 04 (US Cl 244/63), Date of Patent 06/12/1990 "UNIVERSAL ERECTION AND PROCESSING SYSTEM FOR LAUNCHING A SPACE VEHICLE". The basis of the launch complex is a cable-filling tower (KZB) installed on a railway platform in the form of a U-shaped vertical structure, the main purpose of which is to prepare for the launch of a middle-class space launch vehicle, after which the platform is moved from the launch position.

A common drawback of the known technical solutions-analogues, which prevents the selection of the closest technical essence and the achieved result from the list of the prior art, is that in the known technical solutions regarding preparation for launch of a launch vehicle with a space head part ( KGCH), there is no information about the necessary technological and technical measures for the implementation of the full range of routine preparation of KGCH and upper stages of the launch vehicle for launch.

In view of the foregoing, the set of common essential features that is closest in technical essence and the achieved result is the technical complex of the cosmodrome for preparation for launching launch vehicles with space warheads, including technological equipment for pre-launch testing of components of space rockets located in the assembly and testing the building of the technical complex (see Volsky A.P. ed., Cosmodrome. M., Military Publishing House of the Ministry of Defense of the USSR, 1977, p. 52-78).

The reasons that impede the achievement of the desired result when using the well-known technical solution adopted for the prototype include the fact that the principles laid down in the design decisions at the beginning of space exploration are generally justified, but the equipment and technology that were used in those years to implement modern design decisions are morally outdated, but functionally and technologically fundamentally changed.

The essence of the proposed invention is as follows.

The task to which the claimed technical solution is directed is to create a universal technical complex in the integrated assembly and test building (MIC) of the cosmodrome to ensure that it is possible to carry out technological operations in the closed universal building of the MICC for receiving, technical and technological maintenance and pre-launch preparation of rocket components carrier (LV) - the space head part (KGCH), containing the upper stage (RB) and the spacecraft (SC), their testing, assembly e, the testing operations of the Republic of Belarus, spacecraft and KGCH as a whole, the installation of the KGCH on the LV, the reloading of the assembled LV from the KGCH to the transport and installation unit (TUA) and preparation for removal to the launch complex.

The technical result that can be obtained by carrying out the invention is to increase the reliability of the test results, testing and verification of the space head with an accelerating unit and a spacecraft, expanding the range of capabilities of the technical complex of the cosmodrome to perform universal technological operations for receiving, checking, testing and assembling components of a launch vehicle (LV) of any class - light, medium or heavy with individual verification of the space head part (KGCH), containing the booster block and the spacecraft, the subsequent docking of the LV with the KGCH, the joint verification of the LV with the KGCH, transfer of the assembled and tested space rocket (ILV) to the transport and installation unit (TUA), and preparation of the rocket launch vehicle for departure to the launch complex ( SC), as well as in ensuring stabilization of the temperature and humidity parameters of the air in the installation and testing complex (MIC) and other structures of the TC, regardless of changing seasons and changing other external conditions by the heating, ventilation and Air conditioning units with the achievement of a stable temperature range in smokers from plus 18 ° C to plus 25 ° C at a relative humidity of 30 to 80% and the required purity of the supplied air (not worse parameters stipulated specifications TU P9) regardless of external conditions.

A feature of the assembly and test building (MIC) of the technical complex (TC) is that in one integrated structure of the MIC, the preparation sites for the LV, KGCH, KA, reception and pre-treatment halls of the LV components are combined, and it also provides for refueling of booster blocks (RB). This MIK layout scheme contributes to the adaptability of the ILV preparation process and reduces labor costs, eliminates the possibility of contact of LV components with the external environment, since all operations - from receiving incoming LV components to transferring the assembled ILV to the transport and installation unit (TU) for transportation to the launch complex (SC) are carried out in one volume of the MICC building.

The specified task and technical result, the solution and achievement of which the claimed technical solution is directed, is achieved by a combination of essential features set forth in the claims.

The specified technical result in the implementation of the invention is achieved by the fact that the technical complex of the cosmodrome for preparation for launch of the launch vehicle with the space head part containing the upper stage and the spacecraft, is characterized by the fact that it contains a set of ground processing equipment and test equipment of the upper stage technological equipment and test equipment for the space head part, set of mounting and docking equipment for the space head part and, a system for pneumatic testing of the space head part, a set of ground processing equipment and test equipment for the spacecraft, a system for pneumatic testing of the upper stage, a cargo model of the space head part, a set of slipways for the space head part, a stand for universal assembly of the space head part, a set of ground equipment for preparing and refueling the spacecraft , a set of refueling of high-pressure tanks of the upper stage, a system for providing compressed gases to the space head h STI, a system for the production and supply of compressed gases of the space head part, a set of facilities and accessories for the space head part, a set of load-carrying means for the space head part, a complex test bench for the upper stage, a gas supply system for the space head part, a liquid head thermostat system for the space head part, system technological fire extinguishing of the space head part, spacecraft head vapor content monitoring system parts, thermostatic control unit for the upper stage, the air system for maintaining the temperature conditions of the upper stage, oxygen control system for the space head part, the guaranteed power supply system for the space head part, a set of disassembling tools and the temperature control unit for the space head part.

An analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that, firstly, the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention and, secondly, the definition from the list of identified analogues of the prototype, as the closest in the totality of the characteristics of the analogue, allowed to identify the set of significant the relation to the technical result perceived by the applicant of the distinguishing features in the claimed object set forth in the claims.

Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

To verify the conformity of the claimed invention to the requirements of the inventive step, the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention, the results of which show that the claimed invention does not explicitly follow from the prior art, since the level the technique defined by the applicant has not revealed the effect provided for by the essential features of the claimed invention transformed REPRESENTATIONS to achieve a technical result, in particular not in the claimed invention provides for the following transformation:

- the addition of a known means by any known part, attached to it according to known rules, to achieve a technical result, in respect of which the influence of such additions is established;

- replacement of any part of a known product with another known part to achieve a technical result, in respect of which the effect of such a replacement is established;

- the exclusion of any part of the funds with the simultaneous exclusion of the function due to its presence and the achievement of the usual result for such exclusion;

- an increase in the number of elements of the same type to enhance the technical result due to the presence in the tool of just such elements;

- the implementation of a known tool or part of a known material to achieve a technical result due to the known properties of the material;

- the creation of a tool consisting of known parts, the choice of which and the relationship between them are based on known rules, and the technical result achieved in this case is due only to the known properties of the parts of this object and the relationships between them.

Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

The drawing shows a structural diagram of the technical complex (TC) of the cosmodrome for preparation for launch of the launch vehicle (LV) with a space warhead (KCH) containing an upper stage (RB) and a comic vehicle (SC).

TC systems and complexes are located in the assembly and testing building (MIC), the basis of which is the technological equipment of the technical complex of the launch vehicle (TC RN) of the space rocket complex (KRK).

The composition of the technological equipment of the KGCH TC includes the following positions on the attached diagram: 1 - set of ground processing equipment for the upper stage (2), 2 - set of ground processing equipment and test equipment for the space head part (KGCH), 3 - set of mounting and docking equipment 4 - KGCh pneumatic testing system, 5 - set of ground processing equipment and test equipment of the spacecraft (KA), 6 - booster pneumatic testing system (RB), 7 - KGCh cargo model, 8 - a set of KGCH slipways, 9 - a stand for universal assembly of KGCH; 10 - a set of ground-based equipment for the preparation and refueling of a spacecraft (SC), 11 - a set of refueling high pressure tanks RB, 12 - a system for providing compressed gases KGCh, 13 - a system for the production of compressed gases space head part, 14 - a set of service tools and auxiliary equipment KGCh, 15 - a set of load-lifting means KGCh, 16 - a bench for comprehensive testing RB, 17 - a system of technological gas supply KGCh, 18 - a system of liquid temperature control KG Ch, 19 - KGCH technological fire extinguishing system, 20 - KGCh space rocket fuel vapor control system (SRT), 21 - RB thermostatic control unit, 22 - RB air temperature control system, 23 - KGCh oxygen control system, 24 - guaranteed system power supply KGCh, 25 - mobile unit for thermostating KGCh.

There is also a set of disassembly tools (not shown in the diagram).

Information confirming the possibility of carrying out the invention to obtain the above technical result - with examples of specific performance, are as follows.

The above sets, systems, stands and assemblies that are part of the technological equipment of the technical complex (TOTK) of the space head of the TK RN contain components of equipment and technological systems to perform the following types of work to verify and prepare for the launch of the OGC with spacecraft and RB.

The sets of ground processing equipment and test equipment for the upper stage (RB) (item 1), space head part (KGC) (item 2) and spacecraft (KA) (item 5) are intended for testing, testing and testing of the KGCH and its components - RB and spacecraft in preparation for launch.

The preparation of the KSCH ILV and its components of the RB and spacecraft on the TSC KSCH provides for the following work:

- preparation of RB for equipment with a set of measuring equipment (item 1);

- preparation of the flaps of the head fairing KGCh (pos.2);

- spacecraft preparation and refueling (pos. 10);

- assembly KGCh (pos. 9).

In the preparation of RB perform:

- transportation of RB in a capping container to the pre-treatment hall at the railway transportation unit (item 21);

- cleaning the outer surfaces of the container with RB;

- transportation of the Republic of Belarus on the railway transportation unit (item 21) to the assembly room of the assembly and testing complex (MIC) of the KCH;

- conducting joint tests of RB with adjacent systems, including pneumatic testing (item 6) to check the tightness and functioning of the solenoid valves;

- conducting comprehensive tests of RB (pos.16);

- thermostating of the control system of the Republic of Belarus by the air thermostating system (pos. 22);

- transportation of RB for refueling high pressure tanks (BVD) RB (pos.11);

- filling of BVD (item 11) with components of rocket fuel and RB cylinders with helium;

- installation of a stiffening ring on RB for docking with KGCh.

In preparation for the phased installation of the head fairing (GO) cusp flaps, the pre-cleaning of the outer surfaces of the cusps using a set of service tools (key 14).

The installation of the GO flaps is carried out using a set of stocks (pos. 8).

When preparing a spacecraft (SC) for refueling, perform:

- transportation of the spacecraft to the pre-treatment hall;

- transportation of containers from the spacecraft to the unloading room;

- transportation of the spacecraft to the spacecraft training and refueling room;

- spacecraft refueling (pos. 10);

- transportation of the spacecraft to the place of assembly KGCH.

When assembling KGCh carry out the following work:

- overload of the Republic of Belarus for the stand of universal assembly KGCH (pos. 9);

- carrying out checks of the assembly of the spacecraft (item 5);

- docking of the spacecraft assembly with the RB (items 1, 4, 5);

- conducting joint inspections of the assembly of KA + RB; (items 1 and 5);

- docking GO to RB using the slipway (pos. 8);

- installation of connecting elements from the MCO kit (item 3);

- conducting joint inspections of KGCH (pos. 2, 4, 20);

- overload KGCH on the unit docking KGCH (pos.15);

- preparation of KGCH for transportation to the hall of the MIK TC RN.

Compressed gas production system (pos. 13), compressed gas supply system (pos. 12), process gas supply system (pos. 17), liquid temperature control system (pos. 18), mobile thermostatic control unit (pos. 25), process fire extinguishing system (pos.19) and the guaranteed power supply system (pos.24) of technological equipment - are the same for the whole shopping and recreation complex of the KRK.

The universal assembly of the KGCH (pos. 9) is intended for the assembly and testing of the KGCH in horizontal and vertical positions, tilting the RB from a vertical position to a horizontal and vice versa, and their maintenance during the indicated operations.

The stand provides the ability to perform the following operations in the MIC:

- installation (removal) of RB with a stiffening ring using a set of GSS (pos.15) and a crane MIK;

- docking (undocking) of the Republic of Belarus to the stand using the MCO kit (item 3);

- docking (undocking) KGCH to the stand using the MCO kit (item 5);

- assembly (disassembly) of the head fairing (GO) and its docking (undocking) to the Republic of Belarus with the help of the slipway (pos. 8 in the diagram) and the MCO kit (pos. 3);

- docking (undocking) of the spacecraft to the Republic of Belarus.

A set of slipways (pos. 8) is intended for the assembly of GO KGCH for ILV.

The building berths, similar in design, are intended for assembling GO RBs of various modifications. The design of the slipways provides their bringing under the KGCH and docking (undocking) GO to the Republic of Belarus.

The stocks include a farm, a corset, service platforms, a ladder, a bandage. The stocks are installed on base trolleys with roller bearings, in addition, there are supports for storage on the stocks on the basis of the MIC.

In the upper part of the farm, supports are mounted for installing platforms on them, designed for access for maintenance personnel to the installation sites and connecting the GO flaps. The farm has brackets designed to install the slipway during operation on the flanges of the pivots of the base trolleys.

The comprehensive test bench KI (pos. 16) of the upper stage of the RB is designed to carry out system checks and electrical tests. The KI RB stand consists of a base, a service farm, a mast, a drive, a set of fastening accessories - air ducts and cables of the NKS and a set of lighting facilities.

The base is intended for placement and circular movement of service farms. The base is a frame mounted on racks that are height-adjustable with screws.

To the eyes of the base frame are attached stairs designed to enter the base.

On the base there is a ring for installing RB.

On the stand there are boards for fixing the electrical connectors of the terrestrial cable network. To provide access to the boards, there are platforms located under the base of the stand.

Service farms are intended for circular maintenance of the Republic of Belarus. Service farms are moved on supports along the channel channel of the base using a manual drive. Each service farm has a pull-out platform that moves along the guide rails of the farm using a pull-out mechanism.

The mast is designed for laying and securing the ducts of the temperature control system and cables of the NKS. The mast consists of a truss and an arrow.

There are lodgements for placing air ducts on the truss and boom. Air ducts are fastened to lodges with belts with fastenings. NKS cables are fastened in strips with gaskets.

A set of lighting tools is designed to illuminate the stand. The components of the lighting kit are located near places requiring lighting.

The KMSO installation and docking equipment set (pos. 3) is designed to perform the placement, moving, docking (assembly, disassembly) of the KGCH components during operations for the preparation and assembly of the KGCh rocket launcher. The KMSO includes supports, lodgements, a set of connecting elements, base trolleys.

The KGZS load gripping set (pos. 15) is designed for lifting, tilting, loading, unloading, reloading and other loading and unloading operations with the components of the Republic of Belarus, KGCh, their removable equipment, as well as with technological equipment.

The set of GZS includes traverses of various modifications, rigging and turning devices, sets of tilters, suspensions, slings, adapters, spare parts.

A set of auxiliary equipment - KVO and a set of service tools - KSO (combined with pos. 14 together) combined with it in the diagram are intended for installation (removal) and storage (removal) of removable and completing equipment of KGCh, its components and technological equipment, as well as providing access for maintenance personnel to supporting places, rigging points, hatches and service areas of RB, GO and KGCH, their components during assembly and testing of KGCH.

The KVO includes tilters; stiffening rings; set of coasters; devices for moving vehicles; shelving; service platforms and other auxiliary elements.

The composition of the CSR includes a service unit, service platforms KGCh, RB, leaflets GO.

The cargo model (pos. 7) provides for work during testing of the tilting unit of the stand of the universal assembly of KGCH. A cargo model is a farm consisting of a base and a stand on which a basket is mounted. The fastening and assembly of the cargo model on the tilting unit of the universal assembly stand of the KGCH is carried out by standard fastening elements.

To ensure the necessary load during testing, loads are placed in the basket of the cargo model with a suspension.

The pneumatic testing system of RB (pos.6) and KGCh (pos.4) is designed to provide compressed-gas pneumatic vacuum checks during the preparation of RB KVTK and KGCh.

The pneumatic testing system (SPI) provides:

- reception of compressed gases from STG TK (pos.17) KRK;

- monitoring the conditionality of compressed gases in terms of moisture, oil and solids;

- the issuance of gases for sampling for physical and chemical analysis in the laboratory of the cosmodrome;

- the issuance of compressed gases to consumers with the necessary parameters;

- reception of drained gases from consumers and their delivery to drainage lines STG TK KRK;

- cleaning of the emitted gases from mechanical impurities with a degree of purification of not more than 20 microns;

- manual control of shutoff valves;

- protection of the issuing lines against excess pressure;

- protection of system equipment from static electricity.

The structure of SPI includes:

- pneumatic controllers, which provide reception, reduction, delivery, drainage, control of pressures of received and issued gases, as well as consumer protection against overpressure;

- pressure test blocks;

- gas control kit;

- a set of metal hoses and adapters, which ensures the docking of the dispensing panels STG TK KRK with pneumatic panels SPI and KGCh; the connection of the outgoing fittings of the pneumatic panels with the corresponding fittings of consumers and the connection of the drainage fittings of the pneumatic panels of the system with drainage lines;

- a set of instruments of the exchange fund.

The air system for ensuring the temperature regime of the Republic of Belarus (ВСОТР - item 22 in the diagram) is intended for the preparation and supply of air to the Republic of Belarus with the required parameters during electrical checks and tests at the workplace of the preparation of the Republic of Belarus.

The VCOTR RB system provides RB temperature control with air with corresponding air output parameters for flow rate, temperature, accuracy of temperature measurement, relative air humidity in a certain temperature range, compartment hydraulic resistance and clean air supply.

The structure of the VSOTR system includes: two air preparation units (BPV) - the main and reserve. Each unit is carried out taking into account its operation, both permanently installed and mobile.

The air preparation unit includes a fan; refrigeration unit; air cooler; electric heater; Filters air supply lines; adapters.

The air from the premises of the shopping center KGCh is sucked in by a fan through a coarse filter, cleaned of mechanical impurities and sent to the air cooler. Prepared for thermostatting, the air enters the finishing electric heater, with the help of which the air is heated and the required accuracy of maintaining the temperature. Further, air through the fine filter enters the consumer.

The control system for the vapor content of SRT - space rocket fuel (pos. 20) is designed for automatic continuous cyclic remote control of impurities of the vapors of the product "G" - hydrazine, monomethylhydrazine (MMH), asymmetric dimethylhydrazine (UDMH) and the vapor of the product "O" - nitrogen tetraoxide or atina (AT) in the air of control zones (during the assembly of KGCH, during the preparation and refueling of RB and spacecraft) TK KGCh KRK.

System category - information-measuring, stationary. Operating mode - continuous cyclic, automatic.

Structurally, the system consists of individual blocks:

- gas analyzers of oxygen SFG-M.01;

- control units, power and alarm (BPS-1);

- BC switching blocks;

- devices of light and sound signaling (US-1);

- PC complete with monitor, keyboard and manipulator;

- remote signaling remote control (PDS);

- uninterruptible power supply (UPS)

The principle of operation of the monitoring system is based on photometric observation of a change in the optical property (transmittance) of the working section of a tape sensitive element (LEC), impregnated with a special composition that provides a color chemical reaction with a determined component of MCT.

The oxygen content control system (pos. 23) is designed for automatic continuous remote monitoring of the oxygen volume fraction in the air of workplace control zones (RM) for the preparation of RB, pneumatic tests of CVTK, refueling of RB, preparation and refueling of the spacecraft TC KGCH KRK.

Technical characteristics of the system - information-measuring, stationary; continuous operation, automatic; analyzed medium - air medium with a high content of nitrogen, helium; controlled gas is oxygen.

Structurally, the system consists of individual blocks:

- oxygen sensors (DC) located at the control points and designed to measure the content of the volume fraction of oxygen in the air of the controlled zones.

- communication and control units (BSU);

- expansion and communication units (BRS) with explosion-proof design;

- PC complete with monitor, keyboard and mouse manipulator;

- remote alarm panel (PVA);

- light signaling devices (BSS) located in controlled areas and above the entrances to controlled rooms;

- sound alarm devices (BSS) located inside the controlled areas and premises.

The measuring element of the oxygen content control system is a DC sensor with a thermomagnetic primary converter. The sensor action is based on the use of paramagnetic oxygen properties and their dependence on temperature. In the presence of paramagnetic gas (oxygen) in the medium, a temperature gradient and a magnetic field gradient, a thermomagnetic convention arises.

DK carries out continuous measurement of the volume fraction of oxygen at each control point, converting the current value of the volume fraction of oxygen in the analyzed gas medium into a unified current signal. DK are located in control points, have explosion-proof execution. The DC is turned on with the BRS by applying a supply voltage to it.

Information about the oxygen content is transmitted to one of the BRS channels in the form of a unified current signal, is converted into a code message of the RS485 interface, and is also used to control the signaling units of the BSU and BSS of this channel.

The transportation unit (pos. 21) is designed to transport the Republic of Belarus along the railway lines. Transportation of the RB on the unit is ensured by a locomotive along the 1520 mm track at a speed of 10 km / h with a minimum radius of the curve of 200 m. The RB is transported through the MIK assembly hall using a manual drive of the unit. Loading and unloading RB is carried out by means not included in the unit.

The unit consists of the following main parts:

- a frame equipped with automatic coupler and brake equipment;

- running trolleys;

- stands for RB;

- a set of supports and lodgement for RB KVTK;

- stairs and platforms to provide access to the attachment points;

- manual drive unit movement;

- racks under thermostatic hoses.

The unit frame is a welded structure of longitudinal and transverse beams. The unit is equipped with running trolleys. The automatic coupler equipment of the unit consists of serial elements used on the railway transport of Russian Railways. The brake equipment of the unit includes an automatic pneumatic brake and a manual parking brake.

The stand is designed for laying and securing the capping container with RB. The support is made of channels and sheet metal and is bolted to the unit frame. In the center of the stand there is a stationary pipe for connecting the pressure hose of the thermostatic unit.

A service farm is provided for servicing filling and drainage hatches, necks and thermostatic hatch of the Republic of Belarus. For laying thermostatic hoses, supports are provided.

When laying on the RB KVTK unit, the stand and service farm are removed from the unit.

The support and the lodgement are intended for laying and securing RB KVTK. The support consists of a stand and a head. The support is a shaped welded construction made of shaped and sheet metal, on the upper platform of which a head is installed, which consists of a body and a cover and contains a spherical bearing surface for laying the ball joint, which keeps the RB from longitudinal, lateral and vertical movements.

The lodgement is made movable and is a welded construction of sheet metal. The lodgement is equipped with ties for fastening the RB, holding the RB from lateral and vertical movements.

Platforms, ladders and fences are designed to provide access for service personnel to fastening nodes with RB and fastening nodes of thermostatic hoses.

Set of disassembling means - DAC (not shown in the diagram) is intended for work with collapsible shelters and equipment for transporting ILV components.

DAC includes suspensions, extension slings and a damper, which are designed to dismantle roofs, fencing sheets, supports, racks, segments, compensating supports and other equipment of transportation means, as well as two types of service platforms designed for access for operating personnel to work areas .

Service areas are welded tubular structures consisting of a ladder, a support frame, a folding guard and two wheels. At the top of the stairs are equipped with horizontal work platforms.

A set of equipment to ensure the preparation and refueling of the spacecraft (pos. 10) is designed to ensure that all necessary work on the preparation and refueling of the spacecraft is performed in accordance with the requirements of the customer.

The kit includes:

- a system for providing technological compressed gases (item 12);

- a system for the production and supply of compressed gases for the needs of the consumer (item 13)

- respiratory air supply system (pos.23);

- a system of local suction and neutralization of vapors, SRT straits, collection of industrial effluents of fuel and oxidizer, equipment neutralization (item 20);

- emergency ventilation with means to neutralize ventilation emissions;

- system for the preparation and supply of distilled water;

- a system for monitoring and controlling technological systems.

A system for providing technological compressed gases (pos. 12) for receiving compressed gases (air and nitrogen) from a gas supply system, their reduction and delivery:

a) air:

- into the compressed gas supply system for consumer needs;

- into the equipment neutralization system;

- in the system of reception and neutralization of vapors;

- to the collection system of industrial stocks;

- into the system for the preparation and supply of distilled water.

b) nitrogen:

- into the compressed gas supply system for consumer needs;

- into the equipment neutralization system;

- into the system of reception and neutralization of vapors “G”.

The compressed gas production and supply system for consumer needs (item 13) is designed to receive compressed gases (air and nitrogen) from the process compressed gas supply system, reduction and delivery to the consumer.

Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention:

- a tool embodying the claimed invention in its implementation, is intended for use in industry, namely, in rocket and space technology and the technology of preparation of the launch vehicle (LV) and space head part (KCH) for launch: delivery, assembly, testing on a technical complex (TK) of the spaceport for launching the launch vehicle and putting the OGC into orbit and can be used to prepare for the launch of environmentally friendly light, medium and heavy carrier rockets with space warheads, at technical complexes spaceports-singular;

- for the claimed invention in the form as described in the independent claim, the possibility of its implementation using the means and methods described above or known prior to the priority date is confirmed;

- a tool embodying the claimed invention in its implementation, is able to ensure the achievement of perceived by the applicant technical result.

Therefore, the claimed invention meets the requirement of patent law "industrial applicability".

Claims (1)

The technical complex of the cosmodrome for the preparation for launch of a launch vehicle with a space head part containing an upper stage and a spacecraft, characterized in that it contains a set of ground processing equipment and test equipment for the upper stage, a set of ground technological equipment and test equipment for the space head, assembly kit -docking equipment of the space head part, a pneumatic test system of the space head part, a set of ground-based technology of spacecraft’s equipment and test equipment, a booster’s pneumatic test system, a space head’s cargo model, a set of space-head slipways, a universal head-space assembly stand, a set of ground-based equipment for preparing and refueling a spacecraft, a high-pressure booster station’s refueling kit, a system providing compressed gases to the space head, a system for the production and supply of compressed gases to the space head, space support and auxiliary equipment support kit, space head load handling kit, integrated booster test bench, space head technological gas supply system, space head liquid temperature control system, space head technological fire extinguishing system, space rocket vapor control system space head fuel, thermostat unit for the upper stage, air a stuffy system for ensuring the temperature regime of the upper stage, an oxygen content monitoring system for the space head part, a guaranteed power supply system for the space head part, a set of disassembling tools and a thermostatic control unit for the space head part.