BG830Y1 - Pressure vessel for compressed, liquefied and dissolved gas - Google Patents

Abstract

The pressure vessel, in particular for freon gas, is used in refrigerators and air conditioning equipment. It has improved geometry and is used for pressure in the range from 1 to 12 MN/m2, and for different freons and at the same time compact protection from a blow and its stability are improved. The vessel comprises a casing (1), including upper (2) and lower (3) body, interconnected by a seam welding (4), body (2) in its lower end (5) being two-way folded, formed of an internal (6) and external (7) arc-like part, having radii r and r1, and r is more or equal to r1. The upper (2) and lower (3) body comprise an upper (9) and lower (10) cylindrical part, at the ends of which are found upper (11) and lower (12) bottoms. Each of the contours of both bottoms has the form of part of a sphere of two upper (L) and two lower (T) external contours, which are identical with radius r2. Between contours (L and T) intermediate contours (M and N) with radius R are formed as part of an ellipse. The ratio between r2 and R is equal to 0.125 to 0.145, and the ratio between diameter D of the cylindrical parts (9, 10) and height H of the supporting casing (1) is equal to 0.713. In the upper bottom (11) admission valve (20) is mounted, and close to it, in a side through-hole (22), a protection stopper (23) is pressed. In the lower bottom (12) a stabilizing support is made in the form of three small legs, the centres of which lie in a circumference having diameter equal to 0.56 of the diameter of cylindrical parts (9, 10).

Description

A useful model relates to a compressed and liquefied gas container (bottle), in particular a Freon pressure vessel used in refrigerators and air-conditioning systems.

BACKGROUND OF THE INVENTION

A known container (container) for storing and transporting propane-butane gas is a closed volumetric body made up of a supporting body, constructed as a single cylindrical body, the ends of which have respectively upper and lower hemispherical bottoms (with arched outer contours). .

The upper bottom consists of a lower cervical portion and an upper cervical portion, which are connected by a weld seam, with a valve connected to the upper cervical portion by a connection. The thickness of the wall of the bottom bottom and the lower cervical part of the upper cavity is 10-15% greater than the thickness of the wall of the cylindrical body, and the upper cervical part and the valve connection are made as a whole. In the upper bottom there is a protective cover - a protective device, made with a handle in the upper bottom and a stabilizer support (1) in the lower bottom.

Also known in the art is a container for compressed, liquefied and soluble pressurized gas, including a support housing consisting of an upper and lower body, the adjacent edges of which are bent inwards (to the axis of the housing) and are connected to each other by welding. The upper and lower bodies are formed by upper and lower cylindrical parts and upper and lower bottoms formed in the opposite direction of the weld. The outer arcuate contours of the upper and lower bottoms are shaped as hemispherical. A concave socket is formed in the convex part of the upper bottom and a connecting plate is welded into it, for which a profile handle consisting of two trapezoidal profiles is fixed, its large bases are turned upwards, formed in one piece. A through hole is formed in the center of the connecting plate which is aligned with the central through hole formed in the upper bottom and there is a throughlet valve therein. In the upper bottom, a concave bed is formed partly below the connecting plate containing a lateral opening through which a safety plug is pressed. At the bottom bottom are formed three pieces of legs (stabilizing supports), protruding outwards, formed as a whole with the bottom bottom.

o The technical nature of the utility model

The compressed, liquefied and dissolved gas container includes a support housing consisting of an upper and lower body, the lower end of the upper 15 being bent and fixedly interconnected, the bodies being respectively formed by an upper cylindrical part and an upper bottom , and the lower cylindrical part and the bottom bottom, and the two bottoms are formed by arcuate contours, 20 in the most convex part of the upper bottom is formed by a concave socket, in which a connecting plate is fixed, in which a profile handle is installed, and in the connecting the strap is a shaped pass a piece containing a leakage valve, with a lateral opening through which a safety plug is pressed in the upper bottom, partly below the connecting plate, and a lower bottom whose wall thickness is greater than the wall thickness. these-

0 lindrical bodies, a stabilizing support is formed. According to the utility model, the bent portion of the lower end and the upper body is bent twice and is formed by an inner and outer arcuate part, respectively, of radius r and η, where 35 r> r _p and the upper end of the lower body is located in the area of arcuate parts. Each arcuate contour of the upper and lower bottoms is formed as part of a sphere respectively of two upper outer contours L and two lower outer 40 contours T, which are identical and are of radius r ₂ , and between the upper L and lower T arcuate contours are formed as parts of the ellipse respectively upper intermediate M and lower intermediate contour N with radius R.

5 The two ends of the intermediate contours M and N are seamlessly joined to the inner edges of the outer contours L and T, forming an arcuate contour for the upper and lower bottoms respectively. The stabilizing support is located in the district-

0 nozzle K having a diameter equal to 0.56 to 0.58 of the diameter of the lower body, and the ratio between the diameter D of the upper body and the height H of the supporting body is equal to 0.64 to 0.79, having a through-valve is fitted with a safety valve. The profile handle in the area of the large base of the crossed pyramid is shaped like an oval ring.

The technical nature is further clarified by another embodiment in which the fixed connection between the upper and lower bodies is made by a bold weld which is filled with an oval cross-section.

In a further embodiment, the supporting housing is extended by placing an intermediate cylindrical body between the upper and lower bodies, the length of which is at least equal to the length of the upper cylindrical portion.

In another embodiment, the ratio between the radius r ₂ of the outer contours L and T formed as part of a sphere and the radius R of the intermediate contours M and N formed as part of an ellipse at the upper and lower bottoms is 0.125 to 0.145, and the thickness of the wall in the range of the lower bottom is 1.05 to 1.08 times greater than the thickness of the wall of the lower cylindrical part.

In another embodiment, the relief valve with the relief valve is provided with one or two charging terminals.

In a further embodiment, the thickness of the wall of the upper bottom, in the range of the recessed socket, is 0.81 to 0.92 of the thickness of the wall of the rest of the upper bottom.

In another embodiment, the stabilizing support is made up of 3 feet, which are formed at the bottom, whose centers lie in circle K.

In a non-lasting embodiment, the stabilizing support is designed as a support ring having a thickness equal to 1.12 to 1.45 of the thickness of the lower body.

The advantages of the utility model are that the cylinder can be used at higher pressure, which can be adjusted from 1 to 12 MN / m ² , due to the improved geometry of the two bottoms and the thickened and improved welding connection between the two cylinders. bodies. It can be used for different freons.

The risk of cracking the bottle as a whole is avoided, since, if bursting at a higher pressure than specified, it is carried out in the area of the recessed bed and the stopper where the wall thickness is the smallest (optimized). They are protected against impact by the check valve and the safety valve due to the improved geometry of the profile handle, while improving the stability of the bottle as the stabilizing support is provided with advanced geometric parameters.

Description of the attached figures

Figure 1 is a longitudinal section with a partial view of the vessel;

2 is a view of A in FIG. 1 on a larger scale.

Examples of implementation of the utility model

The freon vessel according to the utility model is a closed bulk body composed of a support body 1, which consists of an upper body 2 and a lower body 3 connected together by a weld 4, the upper body 2 at its lower end 5 being double-folded, formed by an inner arcuate portion 6 of radius r and an outer arcuate portion 7 of radius r _p such that r> r _p and the upper end 8 of the lower body 3 is located in the area of the arcuate portions 6 and 7. The upper 2 and lower 3 bodies are formed respectively by upper cylindrical portion 9 and lower cylindrical portion 10, except the linders 9 and 10, the upper 2 and the lower body 3 contain respectively a top bottom 11 and a bottom bottom 12 formed in the opposite direction of the weld 4.

Each of the contours of the upper 11 and the lower 12 bottoms is formed as part of a sphere of two upper outer contours L and two lower outer contours T, respectively, which are also identical with radius r _g between the upper two contours L and between the lower two contours T is formed as part of the ellipse respectively, the upper intermediate contour M and the lower intermediate contour N, also formed identically with radius R. The two ends of contours M and N connect seamlessly to the corresponding edges of contours L and T, forming the general contour of the upper 11 and bottom 12 bottoms. The ratio between the radius r ₂ of the outer contours L and T and the radius R of the hemispherical contours M and N is equal to 0.139, and the central angle alpha formed against the arc, i. the outer contour of L and T is equal to 45 °. The ratio between the diameter D of the cylindrical parts 9 and 10 and the height H of the bearing housing 1 is equal to 0.713, and the thickness of the wall of the bottom bottom 12 is 1.07 times greater than the thickness of the wall of the cylindrical parts 9 and 10.

In the upper bottom 11, a concave socket 13 is formed on its outermost outer surface, in which a connecting plate 14 is welded, for which a profile handle (handle) is welded, it is shaped as a skeleton of a truncated pyramid 15 formed only by edges consisting of two trapezoidal profiles 16 of round steel rod, with their large base facing upwards, in the circumference of which an oval ring 17 is formed.

In the center of the connecting plate 14, a through hole 18 is formed which is aligned with the central through hole 19 formed in the upper bottom 11, both openings 18 and 19 concentrically tightly enclosing the lower end of the bypass valve 20, provided with a safety valve. A concave bed 21 is formed in the upper bottom 11 partially below the connecting plate 14, and 0.83 of the thickness of the rest of the wall of the upper bottom 11. is formed in the recessed wall thickness of the upper bottom 11 in the circumference of the bed 21. bed 21 is formed by a lateral through hole 22 in which a safety plug 23 is pressed.

In the lower bottom 12 are formed 3 legs 24, projecting outwards in a hemispherical shape or a truncated cone, with their large base facing up, arranged symmetrically with the vertical axis 25 of the supporting housing 1.

The centers of the legs lie in a circle whose diameter is equal to 0.56 of the diameter of the upper 9 and lower 10 cylindrical parts. The carrier legs 24 are formed as a whole with the lower bottom 12 of the carrier housing 1.

Using the utility model

The bottle is made and filled as follows.

After welding the upper 2 and lower 3 bodies and drilling the through hole 22 and the central hole 19 into the through hole 22, a safety valve 23 is mounted.

In the area of the central opening 19 on the most convex part of the upper bottom 11 is welded the connecting plate 14, which is inclined in the direction of the safety plug 23. The handle 14 is then welded to the plate 14 and the throughlet valve 20 is mounted on the outer surface of the nozzle 26 of the valve 20, which is threaded, hopes a hose not shown in the drawing, through which the freon is pressed, before closing the safety plug 23 and opening the bypass valve 20. The filling with the freon continues until the required quantity is filled. MENT gas, preferably 13.5 1, and obtaining the determined pressure in the cylinder, which varies from 1 to 12 MN / m ^2. At 40 ° it reaches 28-30 MN / m ² , after which the valve faucet is closed and the bottle is ready for storage and transportation. When the bottle is reusable, the bypass valve 20 is replaced by another that is reusable.

Claims (8)

1. A compressed, liquefied and dissolved gas receptacle comprising a support housing consisting of an upper and lower body, the lower end of the upper body being bent and the two bodies being fixedly connected to each other and formed respectively by an upper cylindrical portion, and the upper bottom and the lower cylindrical part and the bottom bottom, and the two bottoms are formed by arcuate outer contours; a hole is formed in the connecting plate a day opening containing a bypass valve, with a lateral opening through which a safety valve is pressed into the upper bottom, partly below the connecting plate, and a bottom wall whose thickness of the wall is greater than the thickness of the wall of the cylindrical parts, a stabilizing support is formed, characterized in that the bent part of the lower end (5) and of the upper body (2) is bent bilaterally and is formed by an inner (6) and an outer (7) arcuate part, respectively with radius r and r _p where r> r _p and the upper end of the lower body (3) is located in the area of the arcuate portions (6 and 7), each arcuate outer contour of the upper (11) and lower bottom (12) being respectively formed by two upper outer contours L and two lower outer contours T, which are identical and filled with radius r ₂ and between upper L and lower T arcuate contours respectively upper upper intermediate M and lower intermediate N contour with radius R, the two ends of the intermediate contours M and N seamlessly joining the inner edges of outer contours L and T, forming an arcuate outer contour, respectively for the upper (11) and lower bottom (12), and the stabilizing support (24) is arranged in a circle K having a diameter equal to 0.56 of the diameter of the lower body (3), with the ratio between the diameter D of the cylindrical parts (9 and 10) and the height (H) of the bearing housing (1 ) is from 0.64 to 0.79 and the discharge valve (20) is provided with a safety valve, the profile handle (15) including an oval ring (17). A vessel according to claim 1, characterized in that the fixed connection between the upper (2) and the lower body (3) is made by a welding seam (4), which is filled with an oval cross-section. A vessel according to claim 1, characterized in that an intermediate cylindrical body whose length is at least equal to the length of the upper cylindrical portion (9) is placed between the upper (2) and the lower body (3). A vessel according to claim 1, characterized in that the ratio between the radius r ₂ of the outer contours L and T, formed as part of a sphere, and the radius R, of the intermediate contours M and N formed as part of the ellipse, of the above ( I) and the bottom bottom (12) is from 0.125 to 0.145, and the wall thickness in the range of the bottom bottom (12) is 1.05 to 1.08 times greater than the wall thickness of the lower cylindrical part (10) . Container according to claim 1, characterized in that the relief valve (20) with the safety valve is provided with one or two charging terminals. 6. A container according to claims 1 and 4, characterized in that the thickness of the protective wall of the upper bottom (11) within the range of the concave socket (13) is from 0.81 to 0.92 of the thickness of the wall of the rest of the upper bottom (11). 7. A container according to claim 1, characterized in that the stabilizing support (24) is made up of 3 or 4 feet, which are formed in the lower bottom (12), whose centers lie in circumference K. A container according to claim 1, characterized in that the stabilizing support (24) is formed as a support ring having a thickness equal to 1.12 to 1.45 of the thickness of the lower body (3).