CN109110320B

CN109110320B - Marine low temperature fluid reservoir structure

Info

Publication number: CN109110320B
Application number: CN201811255739.1A
Authority: CN
Inventors: 郑美娟; 蒋斐
Original assignee: Suzhou Shenghui Equipment Co ltd
Current assignee: Suzhou Shenghui Equipment Co ltd
Priority date: 2018-10-26
Filing date: 2018-10-26
Publication date: 2023-09-19
Anticipated expiration: 2038-10-26
Also published as: CN109110320A

Abstract

The invention provides a marine low-temperature liquid tank structure, which enables force generated by vibration and shaking on the water surface to be safely released inside a liquid tank. The vacuum pump comprises a cylinder body, wherein the cylinder body is of a horizontal arrangement structure, a plurality of vacuum rings are arranged on the inner wall of the cylinder body in the length direction, the vacuum rings are used for vacuumizing, spherical shell sealing heads are respectively arranged at two ends of the cylinder body in the length direction, a closed inner cavity is formed by assembling and combining the spherical shell sealing heads and the cylinder body, an air chamber inlet and a liquid collecting tank communicated with the inner cavity are arranged on the outer wall of the cylinder body, the outer wall of the air chamber is inserted into the air chamber inlet, the outlet of the air chamber is communicated with the inner cavity, the inlet of the air chamber is used for introducing a storage medium, the air chamber is arranged at the position of one end of the cylinder body in the length direction, two groups of oscillating plate assemblies are arranged at the same side of the air chamber at intervals in the length direction, and each group of oscillating plate assemblies respectively comprise an oscillating plate and a supporting ring.

Description

Marine low temperature fluid reservoir structure

Technical Field

The invention relates to the technical field of low-temperature liquid tanks, in particular to a marine low-temperature liquid tank structure.

Background

In the transportation process of the existing marine low-temperature liquid tank on the water surface, vibration and shaking can not be avoided, the inner cavity of the single tank body can not effectively relieve the internal vibration force, so that liquid in the liquid tank can vibrate greatly, and the storage safety is affected.

Disclosure of Invention

Aiming at the problems, the invention provides a marine low-temperature liquid tank structure, which ensures that the force generated by vibration and shaking on the water surface is safely released inside the liquid tank, and ensures the safe storage of the medium in the liquid tank.

The utility model provides a marine low temperature fluid reservoir structure which characterized in that: the device comprises a cylinder body, wherein the cylinder body is of a horizontal arrangement structure, a plurality of vacuum rings are arranged on the inner wall of the cylinder body in the length direction, the vacuum rings are used for vacuumizing, spherical shell sealing heads are respectively arranged at two ends of the cylinder body in the length direction, a closed inner cavity is formed by assembling and combining the two spherical shell sealing heads and the cylinder body, an air chamber inlet and a liquid collecting tank communicated with the inner cavity are arranged on the outer wall of the cylinder body, the outer wall of the air chamber is inserted into the air chamber inlet, the outlet of the air chamber is communicated with the inner cavity, the inlet of the air chamber is used for introducing a storage medium, the air chamber is arranged at one end of the cylinder body in the length direction, two groups of oscillating plate assemblies are arranged at the same side of the air chamber at intervals in the length direction, each group of oscillating plate assemblies respectively comprise an oscillating plate and a supporting ring, the supporting ring comprises an annular plate and a reinforcing ring, the outer wall of the reinforcing ring is welded and connected with the inner ring of the annular plate, the outer ring of the annular plate is welded and connected with the inner wall of the corresponding position of the cylinder, the two ends of the reinforcing ring in the thickness direction are respectively protruded outwards from the end faces of the corresponding position of the annular plate, the oscillator plate comprises a plate body, the top of the plate body is a horizontal plane, the bottom of the plate body is a horizontal plane, the two sides of the plate body are arc structures, the end faces of the plate body facing the air chamber direction are provided with a plurality of parallel horizontal separation plates, the vertical separation plates are arranged at the vertical positions in the width direction of the plate body, the plate body is horizontally and transversely provided with a plurality of through holes corresponding to the area between the adjacent horizontal separation plates, the vertical separation plates divide each group of transverse through holes into symmetrical structures, each through hole is provided with a vertical bar reinforcing rib on one side of the circular arc structure close to the outer side, the circular arc structures on two sides of the plate body are provided with coamings, the edges of the coamings are respectively provided with a plurality of fixing rings which are arranged in pairs along the length direction of the coamings, and the fixing rings encircle the annular plates at the corresponding positions.

It is further characterized by:

the two sides of the outer wall of the cylinder body, which are opposite to the vertical surface in the width direction, are respectively provided with a floating stopping device, and the floating stopping device is rigidly connected with the ship body;

the air chamber is arranged at the upper part of the cylinder, the liquid collecting tank is arranged at the right lower part of the air chamber, and the liquid collecting tank is provided with a pump base at the position of the inner cavity, so that the pump can be conveniently installed;

the top of the annular plate is provided with at least one top positioning and mounting jack, and the bottom of the annular plate is provided with at least one bottom positioning and mounting jack, so that the positioning and mounting jacks ensure accurate and reliable positioning of the annular plate and the inner wall of the cylinder;

the radial periphery of the reinforcing ring is connected with two sides of the annular plate in the thickness direction through a plurality of reinforcing ribs, and the reinforcing ribs specifically comprise a first reinforcing rib, a second reinforcing rib and a third reinforcing rib;

the first reinforcing ribs are arranged on two sides of the annular plate in the thickness direction of the corresponding position, the two ends of the first reinforcing ribs in the length direction are respectively welded with the inner wall of the cylinder body and the corresponding periphery of the reinforcing ring, the length coverage inner ends of the first reinforcing ribs are welded with the corresponding end faces of the annular plate, and the first reinforcing ribs are arranged in pairs;

the inner ends of the second reinforcing ribs in the length direction are welded with the corresponding outer circumferences of the reinforcing rings, the length coverage inner ends of the second reinforcing ribs are welded with the corresponding end faces of the annular plates, gaps are reserved between the outer ends of the length of the second reinforcing ribs and the inner walls of the cylinder, and the second reinforcing ribs are arranged in pairs;

the third reinforcing ribs comprise short reinforcing ribs and long reinforcing ribs which are arranged in pairs, the long reinforcing ribs are arranged on the thickness end face, facing the air chamber, of the annular plate, the short reinforcing ribs are arranged on the other end face, facing the thickness direction, of the annular plate, the corresponding outer periphery of the reinforcing ring is welded and connected to the inner end of the long reinforcing ribs in the length direction, the corresponding end face of the annular plate is welded and connected to the inner end of the long reinforcing ribs in a covering mode, a gap is reserved between the outer end of the length of the long reinforcing ribs and the inner wall of the cylinder body, the short reinforcing ribs are of a right-angle triangle structure, and two right-angle edges of the right-angle triangle structure are respectively welded and connected with the corresponding outer periphery of the reinforcing ring and the corresponding end face of the annular plate;

the two groups of third reinforcing ribs are respectively arranged at the outer sides of the areas covered by the top positioning and mounting jacks and the bottom positioning and mounting jacks, so that the overall strength of the whole structure is ensured;

the top of the plate body is provided with a top horizontal plate, the bottom of the plate body is provided with a bottom horizontal plate, a plurality of horizontal partition plates are uniformly arranged at intervals in a height area between the top horizontal plate and the bottom horizontal plate, and the pore sizes of all through holes are the same;

the two ends of the top horizontal plate, the bottom horizontal plate and the horizontal partition plate in the length direction are respectively thinned gradually to be flush with the outer end surface of the coaming;

the end surfaces of the top horizontal plate, the bottom horizontal plate and the horizontal separation plate, which face the non-thinning part of the air chamber, are respectively provided with a flat reinforcing rib.

After the invention is adopted, the supporting ring is arranged on the inner wall of the liquid tank, and then the oscillating plate clamps the supporting ring on the outer side through the fixing ring on the coaming, so that the oscillating plate is arranged in the liquid tank, when the oscillating sliding generates energy, the oscillating plate releases the energy through the through hole or the upper cavity of the top horizontal plate and the lower cavity of the bottom horizontal plate, so that the energy generated by the oscillating shaking is timely dissipated through the oscillating plate, and the safety and stability of the inside of the liquid tank are ensured; the device ensures that the force generated by vibration and shaking on the water surface is safely released inside the liquid tank, and ensures the safe storage of the medium in the liquid tank.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present invention;

FIG. 2 is a schematic view of the structure of section A-A of FIG. 1;

FIG. 3 is a schematic front view of the support ring of the present invention;

FIG. 4 is a schematic view of the B-B cross-section structure of FIG. 3;

FIG. 5 is a schematic view of the C-C section structure of FIG. 3;

FIG. 6 is a schematic view of the structure of section D-D of FIG. 3;

FIG. 7 is a schematic perspective view of the oscillator plate of the present invention;

the names corresponding to the serial numbers in the figures are as follows:

barrel 1, vacuum ring 2, spherical shell closure 3, inner cavity 4, air chamber inlet 5, sump 6, air chamber 7, oscillation plate assembly 8, oscillation plate 9, body 91, horizontal partition plate 92, vertical partition plate 93, through hole 94, vertical bar stiffener 95, coaming 96, fixing ring 97, top horizontal plate 98, bottom horizontal plate 99, flat plate stiffener 910, support ring 10, annular plate 101, stiffener ring 102, top positioning and mounting jack 103, bottom positioning and mounting jack 104, first stiffener 105, second stiffener 106, third stiffener 107, short stiffener 1071, long stiffener 1072, anti-floating device 11, pump base 12.

Detailed Description

A marine low-temperature liquid tank structure is shown in fig. 1-7: the device comprises a cylinder body 1, wherein the cylinder body 1 is of a horizontal arrangement structure, a plurality of vacuum rings 2 are arranged on the inner wall of the cylinder body 1 in the length direction, the vacuum rings 2 are used for vacuumizing, spherical shell sealing heads 3 are respectively arranged at two ends of the cylinder body 1 in the length direction, a closed inner cavity 4 is formed by assembling and combining the two spherical shell sealing heads 3 and the cylinder body 1, an air chamber inlet 5 and a liquid collecting tank 6 communicated with the inner cavity 4 are arranged on the outer wall of the cylinder body 1, the outer wall of an air chamber 7 is inserted into the air chamber inlet 5, the outlet of the air chamber 7 is communicated with the inner cavity 4, the inlet of the air chamber 7 is used for introducing a storage medium, the air chamber 7 is arranged at one end of the cylinder body 1 in the length direction, two groups of oscillating plate assemblies 8 are arranged at intervals relative to the same side of the air chamber in the length direction of the inner wall of the cylinder body 7, each group of oscillating plate assemblies 8 respectively comprise an oscillating plate 9 and a supporting ring 10, the supporting ring 10 comprises an annular plate 101 and a reinforcing ring 102, the outer wall of the reinforcing ring 102 is welded with the inner ring of the annular plate 101, the outer ring of the annular plate 101 is welded with the inner wall of the corresponding position of the cylinder 1, the two ends of the thickness direction of the reinforcing ring 102 are respectively protruded outside the end faces of the corresponding position of the annular plate 101, the oscillator plate 9 comprises a plate body 91, the top of the plate body 91 is a horizontal plane, the bottom of the plate body 91 is a horizontal plane, the two sides of the plate body 91 are arc structures, the end face of the plate body 91 facing the air chamber 7 direction is provided with a plurality of parallel arranged horizontal separation plates 92, the vertical separation plates 93 are arranged at the middle vertical position of the width direction of the plate body 91, the plate body 91 is horizontally provided with a plurality of through holes 94 corresponding to the area between the adjacent horizontal separation plates 92, the vertical separation plates 93 divide each group of transverse through holes into symmetrical arrangement structures, one side of the arc structures, which is close to the outer side of each through hole 94, is provided with a vertical bar reinforcing rib 95, the circular arc structure of the both sides of board body 91 is provided with bounding wall 96, and the edge of bounding wall 96 is provided with a plurality of fixed rings 97 of constituteing the arrangement respectively along its length direction, and fixed ring 97 embraces the annular plate 101 of holding the corresponding position, and fixed ring 97 is difficult for droing to reinforcing ring 102 assurance.

The two sides of the outer wall of the cylinder body 1, which are opposite to the vertical surface in the width direction, are respectively provided with a floating stopping device 11, and the cylinder body 1 is rigidly connected with the ship body through the floating stopping device 11;

the air chamber 7 is arranged at the upper part of the cylinder body 1, the liquid collecting tank 6 is arranged at the position right below the air chamber 7, and the position of the liquid collecting tank 6, which is positioned in the inner cavity, is provided with the pump base 12, so that the pump can be conveniently installed;

the top of the annular plate 101 is provided with at least one top positioning and mounting jack 103, and the bottom of the annular plate 101 is provided with at least one bottom positioning and mounting jack 104, so that the positioning and mounting jacks ensure accurate and reliable positioning of the annular plate 101 and the inner wall of the cylinder 1;

the radial periphery of the reinforcing ring 102 is connected and arranged by a plurality of reinforcing ribs corresponding to the two sides of the annular plate 101 in the thickness direction, and the reinforcing ribs specifically comprise a first reinforcing rib 105, a second reinforcing rib 106 and a third reinforcing rib 107;

the first reinforcing ribs 105 are arranged on two sides of the annular plate in the thickness direction of the corresponding position, the two ends of the first reinforcing ribs 105 in the length direction are respectively welded with the inner wall of the cylinder body 1 and the corresponding periphery of the reinforcing ring 102, the length of the first reinforcing ribs 105 covers the corresponding end face of the inner end welded connection annular plate 101, and the first reinforcing ribs 105 are arranged in pairs;

the inner ends of the second reinforcing ribs 106 in the length direction are welded with the corresponding outer circumferences of the reinforcing rings 102, the lengths of the second reinforcing ribs 106 cover the corresponding end faces of the inner end welded with the annular plates 101, gaps are reserved between the outer ends of the lengths of the second reinforcing ribs 106 and the inner walls of the cylinder, and the second reinforcing ribs 106 are arranged in pairs;

the third reinforcing rib 107 comprises a short reinforcing rib 1071 and a long reinforcing rib 1072 which are arranged in pairs, the thickness end face of the annular plate 101 facing the air chamber is provided with the long reinforcing rib 1072, the other end face of the annular plate 101 in the thickness direction is provided with the short reinforcing rib 1071, the inner end of the long reinforcing rib 1072 in the length direction is welded with the corresponding periphery of the reinforcing ring 102, the length of the long reinforcing rib 1072 covers the inner end and is welded with the corresponding end face of the annular plate 101, a gap is reserved between the outer end of the length of the long reinforcing rib 1072 and the inner wall of the cylinder body 1, the short reinforcing rib 1071 is of a right-angle triangle structure, and two right-angle sides of the right-angle triangle structure are respectively welded with the corresponding periphery of the reinforcing ring 102 and the corresponding end face of the annular plate 101;

two groups of third reinforcing ribs 107 are respectively arranged on the outer sides of the areas covered by the top positioning and mounting jacks 103 and the bottom positioning and mounting jacks 104, so that the overall strength of the whole structure is ensured;

the top of the plate body 91 is provided with a top horizontal plate 98, the bottom of the plate body 91 is provided with a bottom horizontal plate 99, a plurality of horizontal partition plates 92 are uniformly and alternately arranged in a height area between the top horizontal plate 98 and the bottom horizontal plate 99, and the pore sizes of all through holes 94 are the same;

the top horizontal plate 98, the bottom horizontal plate 99 and the two ends of the horizontal partition plate 92 in the length direction are respectively thinned gradually to be flush with the outer end surface of the coaming;

the top horizontal plate 98, the bottom horizontal plate 99, and the end surfaces of the horizontal partition plate 92 facing the non-thinned portion of the air chamber are respectively provided with flat reinforcing ribs 910.

The inner wall of the cylinder body is provided with a supporting ring, and then the oscillating plate clamps the supporting ring on the outer side through a fixing encircling way on the coaming, so that the oscillating plate is arranged in the cylinder body, when the oscillating sliding generates energy, the oscillating plate releases the energy through a through hole or a cavity on the upper part of the top horizontal plate and a cavity on the lower part of the bottom horizontal plate, so that the energy generated by the oscillating shaking is timely dissipated through the oscillating plate, and the safety and stability in the cylinder body are ensured; the device ensures that the force generated by vibration and shaking on the water surface is safely released inside the liquid tank, and ensures the safe storage of the medium in the liquid tank.

The foregoing describes the embodiments of the present invention in detail, but the description is only a preferred embodiment of the invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications made in accordance with the scope of the present invention shall fall within the scope of the present patent.

Claims

1. The utility model provides a marine low temperature fluid reservoir structure which characterized in that: the device comprises a cylinder body, wherein the cylinder body is of a horizontal arrangement structure, a plurality of vacuum rings are arranged on the inner wall of the cylinder body in the length direction, the vacuum rings are used for vacuumizing, spherical shell sealing heads are respectively arranged at two ends of the cylinder body in the length direction, a closed inner cavity is formed by assembling and combining the two spherical shell sealing heads and the cylinder body, an air chamber inlet and a liquid collecting tank communicated with the inner cavity are arranged on the outer wall of the cylinder body, the outer wall of the air chamber is inserted into the air chamber inlet, the outlet of the air chamber is communicated with the inner cavity, the inlet of the air chamber is used for introducing a storage medium, the air chamber is arranged at one end of the cylinder body in the length direction, two groups of oscillating plate assemblies are arranged at the same side of the air chamber at intervals in the length direction, each group of oscillating plate assemblies respectively comprise an oscillating plate and a supporting ring, the supporting ring comprises an annular plate and a reinforcing ring, the outer wall of the reinforcing ring is welded and connected with the inner ring of the annular plate, the outer ring of the annular plate is welded and connected with the inner wall of the corresponding position of the cylinder, the two ends of the reinforcing ring in the thickness direction are respectively protruded outwards from the end faces of the corresponding position of the annular plate, the oscillator plate comprises a plate body, the top of the plate body is a horizontal plane, the bottom of the plate body is a horizontal plane, the two sides of the plate body are arc structures, the end faces of the plate body facing the air chamber direction are provided with a plurality of parallel horizontal separation plates, the vertical separation plates are arranged at the vertical positions in the width direction of the plate body, the plate body is horizontally and transversely provided with a plurality of through holes corresponding to the area between the adjacent horizontal separation plates, the vertical separation plates divide each group of transverse through holes into symmetrical structures, each through hole is provided with a vertical bar reinforcing rib on one side of the circular arc structure close to the outer side, the circular arc structures on two sides of the plate body are provided with coamings, the edges of the coamings are respectively provided with a plurality of fixing rings which are arranged in pairs along the length direction of the coamings, and the fixing rings encircle the annular plates at the corresponding positions.

2. A marine cryogenic liquid tank structure as defined in claim 1, wherein: the outer wall of the cylinder body is respectively provided with a floating stopping device relative to two sides of a vertical surface in the width direction.

3. A marine cryogenic liquid tank structure as defined in claim 1, wherein: the air chamber is arranged at the upper position of the cylinder body, the liquid collecting groove is arranged at the position right below the air chamber, and the liquid collecting groove is provided with a pump base at the position of the inner cavity.

4. A marine cryogenic liquid tank structure as defined in claim 1, wherein: the top of annular board is provided with at least one top location installation jack, the bottom of annular board is provided with at least one bottom location installation jack.

5. A marine cryogenic liquid tank structure as defined in claim 1, wherein: the radial periphery of strengthening ring corresponds the thickness direction both sides of annular plate are connected through a plurality of strengthening ribs respectively and are set up, the strengthening rib specifically includes first strengthening rib, second strengthening rib, third strengthening rib.

6. A marine cryogenic liquid tank structure as defined in claim 5, wherein: the third strengthening rib is including setting up short strengthening rib, the long strengthening rib in pairs, the thickness terminal surface of annular slab towards the air chamber is provided with long strengthening rib, the other terminal surface of the thickness direction of annular slab is provided with short strengthening rib, the corresponding periphery of long strengthening rib's length direction inner welded connection strengthening ring, the length of long strengthening rib covers inner welded connection the corresponding terminal surface of annular slab, the outer end of the length of long strengthening rib with leave the clearance between the barrel inner wall, short strengthening rib is right triangle-shaped structure, right triangle-shaped structure's both right angle limit welded connection respectively the corresponding periphery of strengthening ring the corresponding terminal surface of annular slab.

7. A marine cryogenic liquid tank structure as defined in claim 6, wherein: the two groups of third reinforcing ribs are respectively arranged at the outer sides of the areas covered by the top positioning and mounting jacks and the bottom positioning and mounting jacks.

8. A marine cryogenic liquid tank structure as defined in claim 1, wherein: the top of board body is provided with the top horizontal plate, the bottom of board body is provided with the bottom horizontal plate, even interval arrangement has a plurality of in the altitude area between top horizontal plate, the bottom horizontal plate the horizontal division board, the aperture size of all through-holes is the same.

9. A marine cryogenic liquid tank structure as defined in claim 8, wherein: the two ends of the top horizontal plate, the bottom horizontal plate and the horizontal partition plate in the length direction are respectively thinned gradually to be flush with the outer end face of the coaming.

10. A marine cryogenic liquid tank structure as claimed in claim 9, wherein: the end surfaces of the top horizontal plate, the bottom horizontal plate and the horizontal separation plate, which face the non-thinning part of the air chamber, are respectively provided with a flat reinforcing rib.