RU2375664C1 - Destructible cover of starting pipe - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention can be implemented at developing of structures of destructible covers of staring pipes and protecting facilities of process vessels. A cover is made in form of a spherical segment (SS) secured on a bearing ring by means of a fit ring. The bearing ring has a flange arranged on a corresponding end of the starting pipe when the end is closed with the cover. The spherical segment is divided into shares. At the top of SS there is made an opening closed with a bush. The spherical segment has the central zone wherein planes of division of its conjugating shares are located in meridian planes, and also the segment has the circular zone adjoining the bearing ring wherein planes of division of conjugating shares are arranged inclined relative to corresponding meridian planes of division. Planes of division of adjacent shares on border of the said zones are located correspondingly in planes orthogonal to corresponding meridian planes of division. In plane in the circular zone each of one part of SS shares partially overlaps two shares of SS from the other part of shares of SS. Shares of SS of both parts are arranged next nearest. The bushing and shares of SS form a circular slit gap concentric to lengthwise axis of SS, meridian arranged slit gaps, slit gaps arranged slantwise to meridian planes and slit gaps orthogonal to corresponding meridian planes of division. Slit gaps are filled with material of strength lower, than material of SS shares and bushing forming integral part with material of SS shares.

EFFECT: invention facilitates preventing thrusting of SS shares of destructible cover at opening of SS, when flow section of cover is released.

3 dwg

Description

The invention relates to destructible caps for launch tubes. In addition, the invention can be used in valve manufacturing as a means of protection against destruction during emergency growth of internal pressure of process vessels, apparatuses and storage tanks operating under differential pressure.

A device for destructible rear cover of the launch tube according to the patent US 4186647 (F41F 3/04, 1980). The device comprises a convex cover made of monolithic heat-resistant material, on the inside of which are made concentrically arranged profiled weakening grooves (grooves) of various depths. The depth of the grooves ensures when the rocket is launched that the normally closed cover is gradually destroyed from its center to the periphery in response to an increase in pressure in the sub-rocket volume and the diameter of the gas jet of the rocket launch engine. The known device is intended for use in launchers having several launch tubes communicated by a common gas outlet channel, and provides isolation of the launch tube from the effects of gases generated during the launch of missiles located in adjacent launch tubes.

However, the known destructible cover does not imply the possibility of its use at high external pressure. This is due to the fact that the strength of the cover is provided only by the resistance level of the main body of the cover along lines with a minimum thickness along which stress concentration occurs, and not across the entire thickness of the cover profile.

Also known destructible cover, made in the form of a hermetically seated on the launch tube of the glass from an elastic material (RU 2147719 C1, F41F 3/042, 2000). Discontinuous fabric elements are placed along the diagonals of the bottom of the glass with the approach to the wall, which are made in the form of narrow ribbons molded into the glass material. In the known device, the destruction of the cover, which is essentially a diaphragm, is carried out by the head of the rocket.

However, the design of the known cover is not designed to operate at high overpressure, for example, in launch tubes used to launch rockets from under water.

A device for ed. SU 1213300 A1 (F16K 17/16, 1986). The known device contains a destructible cover (membrane) made in the form of a spherical segment with a support ring fixed in a holder, including two flanges. On the outer surface of the spherical segment, profiled weakening grooves are made, for example, wedge-shaped sections, which are flush-filled with solid material that can withstand compression forces when external loading occurs. In an embodiment, in the manufacture of such a cover, the body of the cover with weakening grooves is formed and polymerized initially from fiberglass, then the grooves are covered with a thin layer of separator (powder, lubricant), filled with the same substance as the main body and polymerized. The known device is used as a means of protection against destruction during an emergency increase in the internal pressure of tanks operating under differential pressure, for example, in the capacities of chemical plants in the event of a short-term excessive external pressure or evacuation of the protected tank. Under the action of overpressure, the solid material of the grooves of the grooves of the spherical segment takes on compressive forces and, together with the main material, provides a level of resistance determined by the entire thickness of the profile of the spherical segment. When the pressure inside the protected container rises above the calculated value, the lid undergoes outward deflection, while the filler, under extreme tensile forces, collapses, and the lid strength is ensured only by the resistance level of the main body of the lid along lines with a minimum thickness along which stress concentration occurs, and when ultimate strength of the base material, the lid is opened along these lines of weakening.

A disadvantage of the known device is that when the lid is destroyed, its rupture essentially occurs, in which the passage section of the lid is not released.

Also known device destructible cover of the launch tube according to the patent US 4301708 (F41F 3/04, 1981). The known device comprises a cover made of a polymeric material made in the form of a spherical segment with a support ring, through which the cover is attached to the support ring of the launch tube. The spherical segment rests on meridionally located arched ribs made of fragile glass. The ribs are fastened together at the top of the spherical segment at a point located on the longitudinal axis of the launch tube. On the outer surface of the spherical segment, a linear (cord) charge is established, which has an S-shaped plan. A linear charge crosses the spherical segment and covers it in a circle. At least one detonator is provided to undermine the linear charge. The detonator fires at the moment the rocket starts to move at launch. As a result of undermining the linear charge, the lid made of a polymer material breaks or collapses and arched ribs made of fragile glass are destroyed. In this way, interference is prevented for the rocket to exit the launch tube. The known device provides the ability to create a cover having sufficient strength, which can withstand pressure drops when starting from under water.

However, the known device does not provide sufficient safety during operation of the cover, which is associated with the use of a linear charge with a detonator. At the same time, the need for a special explosive device complicates the design and, in addition, requires a control system for this device.

Known destructible cover of the launch tube according to patent RU 2218539 C1 (F41F 3/077, F16K 17/16, 2003). Known destructible cover is made in the form of a spherical segment with a support ring fixed in a holder, including support and pressure rings. On the inner surface of the spherical segment, weakening grooves are made, forming a system of interconnected grooves, including annular grooves located concentrically to the longitudinal axis of the spherical segment, and meridionally located grooves spaced from said axis. One of the annular grooves is made in diameter corresponding to a given diameter of the bore of the cover after the destruction of the latter. Due to this, when the support ring of the spherical segment is fixed in the cage, an annular zone of reduced strength is created, which ensures local destruction of the spherical segment in diameter corresponding to a given diameter of the passage section of the lid, and destruction of the spherical segment. Thus, the pressure ring is also a localizing pad. The weakening grooves are filled with solid material, while the weakening grooves are coated with a release material that separates the material filling the grooves from the material of the spherical segment. The spherical segment with the support ring is made of a polymer composite material, for example spheroplastics. As the material filling the grooves, the destructible cover contains a material identical to the material from which the spherical segment with the support ring is made. Destructible cover is provided with fabric elements that are located on the peripheral part of the inner surface of the spherical segment in the zones between the attenuating grooves. As fabric elements, the lid contains fiberglass elements impregnated with a binder of said composite material. Known destructible cover, withstanding the effects of excess external pressure, when exposed to excessive internal pressure breaks up into fragments of a given size, completely opening the passage section of a given diameter.

A disadvantage of the known device is that the destruction of the spherical segment occurs when the internal pressure is not small enough, which is due, in particular, to the use of spheroplastic as a material for a spherical segment with a support ring. Along with this, the known device involves the manufacture of the lid immediately integral, which is quite complicated.

Closest to the combination of essential features with the claimed invention is the destructible cover of the launch tube according to the patent US 6311604 B1 (F41F 3/04, 2001). Known destructible cover is made in the form of a spherical segment with a support ring (housing), introduced by friction into the corresponding end of the launch tube (transport-launch container). The cover has a flange mounted on the corresponding end of the launch tube when closing the last cover. The lid along the meridionally located planes is divided into many equal shares (individual segments). Separate fractions can be made both by cutting the whole cap of the launch tube along the meridionally located planes, and by casting them in the form of separate segments. A through hole is made at the apex of the spherical segment of the lid, which is closed by a sleeve that fits tightly in said hole and holds said portions (individual segments). Moreover, in an embodiment, said portions are held together by a tape wound on a support ring (housing) of the lid. When installing the cover in the launch tube, the cylindrical part of the support ring is inserted to the edge of the tape. At this point, the tape is removed, the cover is inserted into the launch tube to the flange and held in place by friction. In addition, soft individual segments (lobes) are pressed against each other, forming tight joints. At the time of launch, the rocket moves the lid and discards its segments (lobes) in radial directions under the action of excessive pressure acting on the concave inner surface of the lid. The start tube cover is made of a lightweight waterproof material such as polyurethane foam. The outer surface of the lid has a coating that protects against icing and / or electromagnetic radiation. In addition, the said coating facilitates the ejection of the cover and its separation into segments at startup.

However, the known destructible cover is not designed for operation when exposed to high external pressure, and the area of its use is limited to launchers of aviation and ground-based.

The problem solved by the invention is the creation of a sealed cover of the launch tube, providing strength and tightness when exposed to high external pressure and, at the same time, collapsing with a slight excess pressure in the axillary volume and providing the possibility of complete release of the passage section of the cover, as well as providing expansion areas of use of the cover.

This problem is solved in that the collapsible launch tube cover, made in the form of a spherical segment with a support ring, having a flange mounted on the corresponding end of the launch tube when closing the last lid, the spherical segment is divided into parts, and a through hole is made at its apex, which closed by a sleeve, while the spherical segment has a zone in which the interface plane of adjacent shares of the spherical segment are located in the meridional planes, according to the invention includes individual ferichesky segment and the support ring flange, and further comprises a tightening ring with a spherical segment which is mounted on a support ring flange. The spherical segment has an annular zone adjacent to the support ring, in which the separation planes of adjacent shares of the spherical segment are inclined with respect to the corresponding meridional separation planes. The dividing planes of adjacent lobes at the boundary of said zones are respectively located in planes orthogonal to the corresponding meridional dividing planes. Moreover, in the plan (i.e., in a plan view) in the said annular zone, each of one part of the shares of the spherical segment partially overlaps two parts of the spherical segment from the other part of the shares of the spherical segment. The shares of the spherical segment of both parts are located through one. The sleeve and lobes of the spherical segment are formed with the formation of an annular gap gap located concentrically to the longitudinal axis of the spherical segment, meridionally located gap gaps, gap gaps located obliquely to the meridional planes, and gap gaps located orthogonally to the corresponding meridional separation planes. Mentioned slotted gaps are filled with material of lower strength than that of the material of the shares of the spherical segment and the sleeve, forming a single whole with the material of the latter.

The technical result of the use of the invention is that it prevents the spread of shares (individual segments) of the spherical segment of the collapsible lid when “opening” the spherical segment in the process of releasing the passage section of the lid when launching the rocket. Along with this, it is possible to expand the scope of use of the cover.

Figure 1 schematically shows the proposed destructible cover mounted on the launch tube, General view, a longitudinal section; figure 2 is the same, plan view; figure 3 is a spherical segment destructible cover of the launch tube, a General side view.

In an embodiment of the invention, the inventive collapsible cover is used as a front cover, for example, a container for storing and launching a rocket. Destructible cover is made in the form of a spherical segment 1, which is mounted on the support ring 2 using the clamping ring 3. The support ring 2 has a flange "a" mounted on the corresponding end of the launch tube 4 when closing the last cover.

Spherical segment 1 is divided into shares (individual segments) 5 and 6, which are located through one. The spherical segment is made of composite material. In an embodiment of the invention, for example, fiberglass is used as a composite material for a spherical segment. Fractions 5 and 6 can be made in the form of separate parts (segments), from which a single spherical segment 1 is made. A through hole is made at the top of the spherical segment, which is closed by sleeve 7. The spherical segment has a central zone in which the interface planes of adjacent fractions 5 and 6 spherical segments are located in the meridional planes, and also has an annular zone adjacent to the support ring 2, in which the separation planes of adjacent shares 5 and 6 of the spherical segment are inclined (for example, at an angle of 30 °) of respect to the corresponding meridional plane section. The dividing planes of adjacent lobes 5 and 6 of the spherical segment at the boundary of said central and annular zones are respectively located in planes orthogonal to the corresponding meridional dividing planes. In plan (i.e., in a plan view) in said annular zone, each of the lobes 5 of the spherical segment 1 partially overlaps two adjacent lobes 6 of the spherical segment 1.

The sleeve 7 and the lobes 5 and 6 of the spherical segment 1 are formed with the formation of an annular slit gap "b" located concentrically to the longitudinal axis 8 of the spherical segment 1, meridionally located slit gaps "c", slit gaps "d" located obliquely to the meridional planes, and slit the gaps "e" located orthogonally corresponding to the meridional separation planes. The gap gaps "b", "c", "d" and "e" are filled with composite material of lower strength than that of the material parts 5 and 6 of the spherical segment 1 and sleeve 7, forming a single whole with the material of the shares of the spherical segment and the sleeve.

The spherical segment 1 is mounted on the support ring 2 by means of a sealing seal 9 made of an elastic material. For securing the support ring, threaded elements 10 and 11 are provided. In this case, the threaded elements 11 simultaneously serve to fix the destructible cover on the sealed container housing for storing and launching the rocket, i.e. - at the end of the launch tube 4. The tightness of the container body is ensured, in particular, by a seal 12 installed in the annular grooves made on the support ring 2.

Destructive cover of the launch tube works as follows.

During transportation and long-term storage, the collapsible lid assembly with the container body can be periodically subjected to external mechanical stress and the influence of excessive environmental pressure. The spherical segment 1 reacts to these effects of compression type as a monolithic structure, which together with the support and pressure rings 2 and 3, threaded elements 10 and 11 and the sealing seal 9 ensures the integrity and tightness of the cover within the specified limits of external influences. The clamping ring 3 holds the spherical segment 1 during overloads that occur during transportation and impacts that occur during operation.

When the rocket is launched, the products of fuel combustion enter the axillary volume. Under the influence of gas pressure on the inner surface of the spherical segment 1, a revealing effect is performed. When excess pressure is reached above the calculated value, the spherical segment is destroyed. Moreover, thanks to the system of gap gaps filled with material of lower strength than the material of the lobes 5 and 6 and the sleeve 7, the spherical segment breaks up into individual segments (lobes) 5 and 6 and the sleeve 7. Under the influence of pressure, the shares of the spherical segment 1 move almost simultaneously each is almost equally rotated around the corresponding section of the clamping ring 3, which partially overlaps the end parts of the shares of the spherical segment. Moreover, due to the fact that in the annular zone adjacent to the support ring 2, the gap gaps "d" between adjacent lobes of the spherical segment are located at an angle (obliquely) to the gap gaps "c", the adjacent shares of the spherical segment when they are simultaneously rotated during the process " opening ”of the spherical segment diverge freely without pressure, completely freeing the passage section of the lid.

Thus, due to the particular design of the collapsible launch tube cover, the invention provides the possibility of creating a hermetic collapsible cover that provides strength and tightness when exposed to high external pressure and, at the same time, collapses with a slight excess pressure in the axillary volume, which prevents spherical segment lobes from being spaced when the lid breaks down, and - at the same time, the passage section of the lid is completely released, as well as it expands field of use.

Claims (1)

Destructible cap of the launch tube, made in the form of a spherical segment with a support ring, having a flange mounted on the corresponding end of the launch tube when closing the last cap, and the spherical segment is divided into parts, and at its top there is a through hole that is closed by a sleeve, while the spherical the segment has a zone in which the separation planes of adjacent shares of the spherical segment are located in the meridional planes, characterized in that it includes a separate spherical segment and a supporting the ring with a flange and further comprises a clamping ring, with which the spherical segment is mounted on the support ring with the flange, while the spherical segment has an annular region adjacent to the support ring, in which the interface plane of the adjacent shares of the spherical segment are inclined with respect to the corresponding meridional planes section, and the interface plane of adjacent lobes at the border of the said zones are respectively located in planes orthogonal to the corresponding meridional planes times affairs, while in the plan in the said annular zone each of one part of the shares of the spherical segment partially overlaps two shares of the spherical segment from the other part of the shares of the spherical segment, and the shares of the spherical segment of both parts are located through one, while the sleeve and the shares of the spherical segment are formed annular slotted gap located concentrically to the longitudinal axis of the spherical segment, meridionally located slotted gaps, slotted gaps located obliquely with the meridional plane speeds, and gap gaps located orthogonally corresponding to the meridional separation planes, and said gap gaps are filled with material of lower strength than the material of the shares of the spherical segment and the sleeve, forming a single whole with the material of the latter.

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