RU41744U1 - LAUNCHING STRUCTURE OF THE STARTING UNIT - Google Patents

Abstract

1. The silo of the launcher installation, containing the shaft of the shaft, a protective device, a shock absorber and a head with equipment, while the shock-absorbing device is designed to secure the rocket in the shaft of the shaft, the shaft of the shaft is vertically buried in the ground, the lower base of the protective device is fixed to the upper base of the shaft of the shaft and the upper base of the protective device coincides in level with the soil surface, characterized in that the shaft of the shaft is made in the form of a truncated cone, the upper base of which has The present smaller diameter is input to the shaft and the bottom base having the larger diameter shaft is a base, the head having the equipment connected to the shaft and is located inside the shaft at its bottom poverhnosti.2. The silo of a launcher according to claim 1, characterized in that the shaft of the mine is divided into first, second, third, fourth tubings, while the lower surfaces of the first three tubings are connected to the upper surfaces of the corresponding tubings having a unit number greater by means of a threaded connection .3. Mine construction launcher according to claim 1, characterized in that the head with the equipment is placed inside the fourth tubing.

Description

The alleged invention relates to the field of underground building structures and can be used as a mine structure launcher designed to launch missiles for various purposes.

Known mine construction launcher containing a barrel, a tip and a protective cover, while in the shaft shaft is a rocket, technological equipment is installed in the head, and a protective cover protects the rocket and technological equipment from the effects of climatic factors and the damaging factors of a nuclear explosion [1].

The closest in technical essence to the claimed invention is a mine structure of the Minetman-3 rocket launcher containing a mine shaft, a rocket, a shock absorber, a shaft head with equipment and a protective device, while the barrel is vertically buried in the ground, the rocket is fixed in the shaft of the mine using a cushioning device, the shaft head with the equipment is placed in the upper part of the shaft of the shaft, and the upper surface of the specified head with the equipment coincides in level with the soil surface and protective device [2]. This mine structure

provides rocket launch, protection from climatic factors, however, with significant amplitudes of the shock wave, the mine structure assumes a position in which rocket launch is impossible. In addition, the placement of the head with the equipment in the upper part of the shaft of the mine, as the most vulnerable part of the launcher, leads to the failure of technological equipment and technical systems even with insignificant amplitudes of forces created by the shock wave.

The objective of the invention is the creation of a mine structure of high stability.

This goal is achieved by the fact that in the mine structure of the launcher containing the shaft of the shaft, a protective device, a shock-absorbing device and a head with equipment, the shock-absorbing device is designed to fix the rocket in the shaft of the shaft, the shaft of the shaft is vertically buried in the ground, the lower base of the protective device is fixed on the upper base of the shaft of the shaft, and the upper base of the protective device coincides in level with the surface of the soil, the shaft of the shaft is made in the form of a truncated cone, the upper base which, having a smaller diameter is input to the shaft and the bottom base having the larger diameter is the base shaft, wherein the head part with the equipment connected to the barrel disposed within the shaft and the shaft of the barrel at its lower surface. In addition, the shaft of the mine is divided into first, second, third and fourth tubings, while the lower surfaces of the first three tubings are connected to the upper

surfaces of the corresponding tubing, having a unit number higher, using a threaded connection. In addition, the head with the equipment is located inside the fourth tubing.

The execution of the shaft of the shaft in the form of a truncated cone allows you to reduce the diameter of the shaft of the shaft at the site of the transverse shear force under the action of the shock wave and thereby increase the stability of the shaft structure by reducing the load, depending on the diameter of the shaft. The presence of thread at the junction of the tubing of the mine shaft simplifies the assembly of the shaft of the mine during the installation of the mine structure and ensures rigidity of the shaft structure.

The presence on the bottom surface of the fourth tubing of the head of the mine structure can improve the layout of the shaft of the shaft and reduce the impact of the damaging factors of a nuclear explosion on the equipment.

In addition, the totality of these signs helps to reduce the center of mass point of the mine structure, which further provides an increase in its stability.

As will be shown below in the description of the mine device, all structural elements used in it are standard elements of underground building structures, therefore, the proposal meets the requirements of industrial applicability. The invention is illustrated in the drawing.

Figure 1 of the drawing shows the appearance of the proposed mine shaft. Figure 2 of the drawing shows the appearance of the mine structure assembly.

The shaft of the shaft 1 is a truncated cone (figure 1) and contains the first tubing 1-1, the second tubing 1-2, the third tubing 1-3, the fourth tubing 1-4, the upper base 1-5 and the lower base 1-6. The joints of the tubing are threaded, which allows tubing 1-1 to be screwed into tubing 1-2, tubing 1-2 to tubing 1-3 and tubing 1-3 to be screwed into tubing 1-4. The masses of tubing 1-1, 1-2, and 1-3 are the same according to the conditions of installation of the shaft of mine 1. These tubings can be made of reinforced concrete or metal, and their geometric dimensions are selected from the conditions of ease of installation of the mine structure. The diameter of tubing 1-1 at the site of the greatest transverse shear force can be selected from condition (1).

where Q _p.p. - transverse shear force;

- maximum load on the shaft of the shaft from a compression wave;

H is the height of the shaft;

D is the diameter of the shaft.

The shaft structure (Fig. 2) comprises a shaft of a shaft 1, a rocket 2, a protective device 3, a shock-absorbing device 4 and a head 5, while the shaft of a shaft 1 is buried in the ground (not shown), the rocket 2 is attached to the walls (not shown) of the shaft of the shaft 1 using depreciation

devices 4. On the lower base of the fourth tubing 1-4 placed the tip 5 of the shaft device. The lower base of the protective device 3 is placed on the upper base of the shaft of the shaft 1, while the protective device 3 can be made according to the standard design, which are used in such mine structures. The cushioning device 4 can also be performed according to standard schemes and designs.

Mine construction launcher works as follows. Upon receipt of a command to launch a rocket, the heading equipment 5, consisting of units, instruments and devices of technical systems and technological equipment, begins to carry out preparatory operations related to the readiness of the rocket and the launcher for launch, while the necessary checks are carried out and the degree of readiness for launch of all is determined electrical and mechanical devices. When the indicated equipment is completely ready, a signal is issued to launch the systems participating in the launch, the mechanisms for launching the rocket 2 from the shaft of the mine 1 are activated with the preliminary disconnection of the shock-absorbing device 4. Usually, the rocket is ejected from the mine using powder pressure accumulators, which are launched when the start signal appears. The rocket 2 thrown from the shaft of mine shaft 1 flies to the target with the help of a control system, the engines of which start after departure, - the start, which is usually called the mortar launch of the rocket.

Claims (3)

1. The silo of the launcher installation, containing the shaft of the shaft, a protective device, a shock absorber and a head with equipment, while the shock-absorbing device is designed to secure the rocket in the shaft of the shaft, the shaft of the shaft is vertically buried in the ground, the lower base of the protective device is fixed to the upper base of the shaft of the shaft and the upper base of the protective device coincides in level with the soil surface, characterized in that the shaft of the shaft is made in the form of a truncated cone, the upper base of which has The present smaller diameter is input to the shaft and the bottom base having the larger diameter shaft is a base, the head having the equipment connected to the shaft and is located inside the shaft at its bottom surface. 2. The silo of the launcher according to claim 1, characterized in that the shaft of the mine is divided into first, second, third, fourth tubings, while the lower surfaces of the first three tubings are connected to the upper surfaces of the corresponding tubings, having a unit number larger, using threaded connection. 3. The mine structure of the launcher according to claim 1, characterized in that the head with the equipment is placed inside the fourth tubing.