CN112066243A

CN112066243A - 45-foot tank container

Info

Publication number: CN112066243A
Application number: CN202010999778.3A
Authority: CN
Inventors: 王可; 范瑞祺; 路虎; 朱强
Original assignee: Zhangjiagang Furui Cryogenic Technology Co ltd
Current assignee: Zhangjiagang Furui Cryogenic Technology Co ltd
Priority date: 2020-09-22
Filing date: 2020-09-22
Publication date: 2020-12-11

Abstract

The invention discloses a 45-foot tank container, comprising: the jar body has welded braced frame respectively on the preceding of the jar body, back both ends, has welded the bottom saddle on jar body lower part, and braced frame's structure includes: outer end frame, interior end frame, tip saddle weld on the lower part of the jar body, and the structure of outer end frame includes: the upper outer corner piece and the lower outer corner piece are connected through an outer cross beam, the left outer corner piece and the right outer corner piece are connected through an outer upright post, and an outer supporting seat is welded on the lower outer cross beam; weld the connection drum of cover welding on the tip of jar body on the inboard of outer end frame, the structure of inner end frame includes: each inner corner piece is connected with the tank body through a transverse pipe and a vertical pipe, and inner supporting seats are welded on the two transverse pipes below the inner corner pieces; each of the front and rear aligned outer corner pieces and inner corner pieces are connected by a connecting pipe. As described aboveCan increase the total volume to 52m³Left and right, and can make structural strength accord with relevant standard requirement.

Description

45-foot tank container

Technical Field

The invention relates to the field of storage containers for low-temperature liquefied gas, in particular to a 45-foot tank container.

Background

With the rapid development of the LNG industry and the convenience of container transportation, the multi-type combined transportation of the railway and highway waterway has the advantages of reducing the transportation cost and stacking and saving the space. More and more users are using cryogenic liquid tank containers as the primary form of LNG transportation. At present, LNG tank containers in international markets mainly take 40 feet and 20 feet as main materials, and technical parameters such as frame structures of the tank containers, the internal volumes of storage tanks and the like are mature and consistent. Limited to a standard size of 40 feet, the full volume of 40 foot LNG tankers currently used by consumers on the market is mainly around 45 cubic meters. However, the overall volume of an alternative mobile transport facility tanker for LNG can be 50 to 60 cubic meters, so that less LNG can be transported in a 40 foot tank than a tanker, thereby increasing the cost of transportation to the customer.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: will provide a method capable of increasing the total volume to 52m³Left and right 45 foot tank containers.

In order to solve the problems, the technical scheme adopted by the invention is as follows: a 45 foot tank container comprising: horizontal jar body that is used for storing liquefied gas, its characterized in that: the welding has a braced frame who is used for supporting jar body tip respectively on the preceding, the back both ends of jar body, and the welding has the bottom saddle that is used for supporting jar body on jar body lower part between two braced frames, and two braced frame's structure all includes: an outer end frame, one lie in the inboard inner end frame of outer end frame, one lie in the inboard tip saddle of inner end frame, the tip saddle welds and supports the jar body on the lower part of the jar body, outer end frame and inner end frame all are squarely to align around outer end frame and the inner end frame and arrange, the structure of outer end frame includes: the four outer corner pieces are respectively positioned at the upper left part, the lower left part, the upper right part and the lower right part of the tank body, the two outer corner pieces at the upper part and the two outer corner pieces at the lower part are respectively connected with outer cross beams welded with the outer corner pieces through two ends, the two outer corner pieces at the left part and the two outer corner pieces at the right part are respectively connected with outer upright columns welded with the outer corner pieces through two ends, and outer supporting seats for supporting frames are welded at the lower parts of the outer cross beams at the lower part; the welding has a connection drum on the inboard of outer end frame, connects the drum suit on the tip of jar body and with jar body tip looks welding, and the structure of inner end frame includes: the tank comprises four inner corner pieces, four inner corner pieces and a plurality of vertical pipes, wherein the four inner corner pieces are respectively positioned at the upper left part, the lower left part, the upper right part and the lower right part of a tank body, each inner corner piece is connected with the tank body through a transverse pipe and a vertical pipe, one end of each transverse pipe is welded with the inner corner piece, the other end of each transverse pipe is arranged into an arc-shaped end which can be attached to the tank body and is welded with the tank body, two triangular plates which are arranged side by side in the front and back direction are arranged between each corresponding transverse pipe and the vertical pipe, two straight edges of each triangular plate are respectively welded with the corresponding transverse pipe and the corresponding vertical pipe, the rest edges are arranged into arc-shaped edges which can be attached to the tank body and are welded with the tank body, and inner supporting seats for supporting frames are welded on the lower parts of the two transverse pipes below; the outer corner piece and the inner corner piece are both corner pieces for the container; the front and back aligned outer corner piece and inner corner piece are connected with the connecting pipe through two ends respectively, and the left and right ends of the lower part of the end saddle are connected with the inner corner piece below the side through a long pipe with two ends respectively welded with the inner corner piece.

Further, the foregoing 45 foot tank container, wherein: the outer cross beam, the outer upright post, the transverse pipe, the vertical pipe and the connecting pipe are all rectangular pipes.

Further, the foregoing 45 foot tank container, wherein: the bottom saddle is provided with three.

Further, the foregoing 45 foot tank container, wherein: two transverse pipes positioned below the inner end frame are connected.

Further, the foregoing 45 foot tank container, wherein: the gooseneck grooves are formed in the lower portions of the end saddles, the outer supporting seats and the inner supporting seats of the two supporting frames, and the three gooseneck grooves in each supporting frame are aligned front to back.

Further, the foregoing 45 foot tank container, wherein: a plurality of rings of T-shaped steel reinforcing rings arranged at intervals are welded on the inner side wall of the outer cylinder body of the tank body, and a web plate of each T-shaped steel reinforcing ring is welded with the inner side wall of the outer cylinder body.

Further, the foregoing 45 foot tank container, wherein: the outer end seal of the rear end of the external pipeline of the tank body is a shallow dish-shaped end seal.

Further, the foregoing 45 foot tank container, wherein: and the four corners of the outer end frame are respectively welded with an inclined strut, and two ends of the inclined strut are respectively welded with the outer cross beam and the outer upright post.

The invention has the advantages that: the structural design of the 45-foot tank container can increase the full volume to 52m³The transportation cost of the user is greatly reduced; on the other hand, the structural strength can meet the requirements of relevant standards.

Drawings

Fig. 1 is a schematic structural view of a 45 foot tank container according to the present invention.

Fig. 2 is a schematic view of a 45 foot tank container of the present invention with the tank body removed.

Detailed Description

The present invention will be described in further detail below with reference to specific embodiments and the attached drawings.

As shown in fig. 1 and 2, a 45-foot tank container includes: horizontal jar body 1 for storing liquefied gas, jar body 1 is exactly conventional vacuum cryrogenic container, and its structure includes: an interlayer between the inner cylinder and the outer cylinder is vacuumized, and liquefied gas is stored in the inner cylinder; the front end and the rear end of the tank body 1 are respectively welded with a support frame for supporting the end part of the tank body 1, and the lower part of the tank body 1 between the two support frames is welded with a bottom saddle 2 for supporting the tank body 1; the structure of both support frames comprises: an outer end frame 3, one lie in 3 inboard inner end frames 4 of outer end frame, one lie in 4 inboard tip saddles 5 of inner end frame, tip saddle 5 welds and supports jar body 1 on jar body 1's lower part, and outer end frame 3 and inner end frame 4 all are squarely to outer end frame 3 aligns around inner end frame 4 and arrange, and the structure of outer end frame 3 includes: four outer corner fittings 31 respectively positioned at the upper left, lower left, upper right and lower right of the tank body 1, wherein the two outer corner fittings 31 at the upper part and the two outer corner fittings 31 at the lower part are respectively connected with outer cross beams 32 with two ends welded with the outer cross beams, the two outer corner fittings 31 at the left and the two outer corner fittings 31 at the right are respectively connected with outer upright columns 33 with two ends welded with the outer cross beams, and outer supporting seats 34 for supporting frames are welded at the lower parts of the outer cross beams 32 at the lower part; the inner side of the outer end frame 3 is welded with a connecting cylinder 6, the connecting cylinder 6 is sleeved on the end part of the tank body 1 and is welded with the end part of the tank body 1, the structure of the connecting cylinder 6 can effectively disperse stress, the tank body 1 is stably connected with the frame, and the connecting cylinder is suitable for various working conditions and tests of a container; the structure of the inner end frame 4 includes: four inner corner pieces 41 respectively positioned at the upper left, lower left, upper right and lower right of the tank body 1, each inner corner piece 41 is connected with the tank body 1 through a transverse pipe 42 and a vertical pipe 43, one end of each transverse pipe 42 is welded with the inner corner piece 41, the other end is arranged into an arc-shaped end which can be jointed with the tank body 1 and is welded with the tank body 1, one end of each vertical pipe 43 is welded with the inner corner piece 41, the other end is arranged into an arc-shaped end which can be jointed with the tank body 1 and is welded with the tank body 1, two triangular plates 44 which are arranged side by side in a front-back direction at intervals are arranged between each corresponding transverse pipe 42 and vertical pipe 43, two straight edges of each triangular plate 44 are respectively welded with the corresponding transverse pipe 42 and vertical pipe 43, the rest edges are arc-shaped edges which can be jointed with the tank body 1 and are welded with the tank body 1, inner support seats 45 for supporting the frame are welded on the lower parts of the two lower transverse pipes 42; the outer corner fitting 31 and the inner corner fitting 41 are both corner fittings for containers; each of the front and rear aligned outer corner fitting 31 and inner corner fitting 41 is connected to their welded connecting pipes 7 through a connecting pipe having both ends, and the left and right ends of the lower portion of the end saddle 5 are connected to the inner corner fitting 41 below the side thereof through a long pipe 8 having both ends welded thereto.

The biggest difficulty of the 45-foot tank container is also the biggest difference from the 40-foot tank container in the design of the frame, and according to the relevant standard requirements, the 45-foot tank container is provided with four inner corner fittings at two ends of the length of 40 feet. In order to arrange the inner corner fittings, the inner end frames like the outer end frames need to be arranged, so that the stability of the integral structure of the frame and the safety when the inner corner fittings are used for hoisting can be ensured. However, unlike the outer end frame, in order to ensure the maximum volume of the tank body, the inner end frame cannot be made into a complete four-side frame structure, and each side of the inner end frame must be disconnected from the middle and then directly welded and fixed with the outer cylinder body. However, stress concentration at the welding position is caused, and local overlarge stress is easily caused to deform the outer cylinder body and even tear the outer cylinder body. On the basis, the triangular plate is added, so that concentrated stress is dispersed, and the structural strength of the outer cylinder is ensured.

In the present embodiment, the outer cross beam 32, the outer upright post 33, the transverse tube 42, the vertical tube 43, and the connecting tube 7 are all rectangular tubes. The two lower transverse tubes 42 in the inner end frame 4 are connected, so that the support strength can be increased after the arrangement.

A gooseneck groove 81 is arranged on the lower parts of the end saddle 5, the outer supporting seat 34 and the inner supporting seat 45 of the two supporting frames, and three gooseneck grooves 81 on each supporting frame are mutually aligned in the front-back direction. The gooseneck tunnel 81 is provided to accommodate different container flatbeds in different countries throughout the world.

A plurality of rings of T-shaped steel reinforcing rings arranged at intervals are welded on the inner side wall of the outer barrel of the tank body 1, and a web plate of each T-shaped steel reinforcing ring is welded with the inner side wall of the outer barrel. The diameter of the inner cylinder is increased in order to enlarge the volume of the tank container, but the diameter of the outer cylinder cannot be increased by the same proportion due to the limitation of the standard external dimension width of the container, so that the interlayer space is further reduced. Meanwhile, the inner cylinder body adopts a cold tensile strain strengthening structure, and the interlayer needs to reserve enough allowance for the strengthened inner cylinder body. The angle steel reinforcing ring structure of the original outer cylinder body can not meet the requirements. The T-shaped steel is adopted as the reinforcing ring structure of the outer cylinder body, and the reinforcing rings with different thicknesses are adopted through stress analysis and calculation of the inertia moment of the T-shaped steel, so that the strength of the outer cylinder body can be guaranteed while the height is reduced.

The outer end seal of the rear end of the external pipeline of the tank body 1 is a shallow dish-shaped end seal. In order to ensure the volume, the length of the inner cylinder body is also lengthened to the limit, and the interlayer distance between the front seal head and the rear seal head is also greatly reduced compared with the conventional case. But in order to guarantee the pipeline arrangement of the back head intermediate layer, the outer head of the jar body adopts shallow dish head, for standard 1: the butterfly-shaped end socket of 10, shallow dish-shaped end socket can increase the interbedded space of end socket, provides help for the arrangement of intermediate layer pipeline.

And the four corners of the outer end frame 3 are respectively welded with an inclined strut 82, and two ends of the inclined strut 82 are respectively welded with the outer cross beam 32 and the outer upright post 33.

Claims

1. A 45 foot tank container comprising: horizontal jar body that is used for storing liquefied gas, its characterized in that: the welding has a braced frame who is used for supporting jar body tip respectively on the preceding, the back both ends of jar body, and the welding has the bottom saddle that is used for supporting jar body on jar body lower part between two braced frames, and two braced frame's structure all includes: an outer end frame, one lie in the inboard inner end frame of outer end frame, one lie in the inboard tip saddle of inner end frame, the tip saddle welds and supports the jar body on the lower part of the jar body, outer end frame and inner end frame all are squarely to align around outer end frame and the inner end frame and arrange, the structure of outer end frame includes: the four outer corner pieces are respectively positioned at the upper left part, the lower left part, the upper right part and the lower right part of the tank body, the two outer corner pieces at the upper part and the two outer corner pieces at the lower part are respectively connected with outer cross beams welded with the outer corner pieces through two ends, the two outer corner pieces at the left part and the two outer corner pieces at the right part are respectively connected with outer upright columns welded with the outer corner pieces through two ends, and outer supporting seats for supporting frames are welded at the lower parts of the outer cross beams at the lower part; the welding has a connection drum on the inboard of outer end frame, connects the drum suit on the tip of jar body and with jar body tip looks welding, and the structure of inner end frame includes: the tank comprises four inner corner pieces, four inner corner pieces and a plurality of vertical pipes, wherein the four inner corner pieces are respectively positioned at the upper left part, the lower left part, the upper right part and the lower right part of a tank body, each inner corner piece is connected with the tank body through a transverse pipe and a vertical pipe, one end of each transverse pipe is welded with the inner corner piece, the other end of each transverse pipe is arranged into an arc-shaped end which can be attached to the tank body and is welded with the tank body, two triangular plates which are arranged side by side in the front and back direction are arranged between each corresponding transverse pipe and the vertical pipe, two straight edges of each triangular plate are respectively welded with the corresponding transverse pipe and the corresponding vertical pipe, the rest edges are arranged into arc-shaped edges which can be attached to the tank body and are welded with the tank body, and inner supporting seats for supporting frames are welded on the lower parts of the two transverse pipes below; the outer corner piece and the inner corner piece are both corner pieces for the container; the front and back aligned outer corner piece and inner corner piece are connected with the connecting pipe through two ends respectively, and the left and right ends of the lower part of the end saddle are connected with the inner corner piece below the side through a long pipe with two ends respectively welded with the inner corner piece.

2. A 45 foot tank container as claimed in claim 1, wherein: the outer cross beam, the outer upright post, the transverse pipe, the vertical pipe and the connecting pipe are all rectangular pipes.

3. A 45 foot tank container as claimed in claim 1 or 2, wherein: the bottom saddle is provided with three.

4. A 45 foot tank container as claimed in claim 1 or 2, wherein: two transverse pipes positioned below the inner end frame are connected.

5. A 45 foot tank container as claimed in claim 1 or 2, wherein: the gooseneck grooves are formed in the lower portions of the end saddles, the outer supporting seats and the inner supporting seats of the two supporting frames, and the three gooseneck grooves in each supporting frame are aligned front to back.

6. A 45 foot tank container as claimed in claim 1 or 2, wherein: a plurality of rings of T-shaped steel reinforcing rings arranged at intervals are welded on the inner side wall of the outer cylinder body of the tank body, and a web plate of each T-shaped steel reinforcing ring is welded with the inner side wall of the outer cylinder body.

7. A 45 foot tank container as claimed in claim 1 or 2, wherein: the outer end seal of the rear end of the external pipeline of the tank body is a shallow dish-shaped end seal.

8. A 45 foot tank container as claimed in claim 1 or 2, wherein: and the four corners of the outer end frame are respectively welded with an inclined strut, and two ends of the inclined strut are respectively welded with the outer cross beam and the outer upright post.