CN211686611U

CN211686611U - Anhydrous ammonia holding vessel that can improve transportation stability ability

Info

Publication number: CN211686611U
Application number: CN201922355611.9U
Authority: CN
Inventors: 李勇; 吴晓云; 林蕴琪; 黄湘华
Original assignee: Zhanjiang Kehua Meters Power Co ltd
Current assignee: Zhanjiang Kehua Meters Power Co ltd
Priority date: 2019-12-25
Filing date: 2019-12-25
Publication date: 2020-10-16
Anticipated expiration: 2029-12-25

Abstract

The utility model discloses an anhydrous ammonia holding vessel that can improve transportation stability ability, including holding vessel body, jar mouth and footing, the upper end middle part fixed mounting of holding vessel body has a jar mouth, and the lower extreme avris integration of holding vessel body installs the footing, the lower extreme internally mounted of footing has the fixed column, the lower extreme outside welded mounting of footing has the fixed axle, and installs the connecting rod on the fixed axle, the lower extreme of connecting rod is installed on the connecting axle, the inside at the installation piece is connected to the slider, the upper end welded mounting of slider has the movable block, and the outside of movable block installs the sloping block, the outer end welded mounting of sloping block has movable supporting legs. This can improve anhydrous ammonia holding vessel of transportation stability ability can improve the stability of anhydrous ammonia holding vessel when the transportation, can play good shock attenuation effect when the transportation, avoids making anhydrous ammonia take place acutely to rock in the inside emergence of holding vessel because of jolting on the way.

Description

Anhydrous ammonia holding vessel that can improve transportation stability ability

Technical Field

The utility model relates to an anhydrous ammonia technical field specifically is an anhydrous ammonia holding vessel that can improve transportation stability ability.

Background

Anhydrous ammonia, which is a colorless liquid with pungent odor, is also called liquid ammonia, and is mainly used for manufacturing explosives and various chemical fibers and plastics in industry, and can be stored in a pressure-resistant steel cylinder or a steel tank when being stored.

However, the existing storage tanks have the following problems:

1. the stability of the storage tank is inconvenient to improve when the existing storage tank is transported, so that the safety of the storage tank during transportation is greatly reduced;

2. the existing storage tank does not have good stable damping performance, so that the anhydrous ammonia is easy to shake violently in the storage tank due to the jolt of the road during transportation.

Aiming at the problems, the novel storage tank is designed on the basis of the original storage tank.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can improve anhydrous ammonia holding vessel of transportation stability ability to propose the stability of current holding vessel when transporting not convenient for improve the storage jar in solving above-mentioned background art, thereby very big reduction the security of holding vessel when the transportation, itself does not possess good stable damping performance, thereby lead to easily when the transportation make anhydrous ammonia the problem that acutely rocks appear in the inside appearance of holding vessel because of jolting on the way.

In order to achieve the above object, the utility model provides a following technical scheme: an anhydrous ammonia storage tank capable of improving transportation stability comprises a storage tank body, a tank opening and a bottom foot, wherein the tank opening is fixedly mounted in the middle of the upper end of the storage tank body, the bottom foot is integrally mounted on the side of the lower end of the storage tank body, a fixed column is mounted in the lower end of the bottom foot and is welded and mounted in a supporting block, the bottom foot and the supporting block are connected with each other through a buffer spring, a fixed shaft is welded and mounted on the outer side of the lower end of the bottom foot, a connecting rod is mounted on the fixed shaft, the lower end of the connecting rod is mounted on a connecting shaft, the connecting shaft is fixedly mounted on a sliding block, the sliding block is connected in a mounting block, the sliding block and the mounting block are connected with each other through an adjusting spring, a moving block is welded and mounted at the upper end of the sliding block, the inner ends of the movable supporting legs are connected with the supporting blocks through return springs, and the lower ends of the movable supporting legs are provided with anti-slip pads.

Preferably, the outer wall of the fixing column is attached to the inner wall of the bottom foot, and a sliding structure is formed between the fixing column and the bottom foot.

Preferably, the lower ends of the supporting block and the movable supporting leg are both provided with anti-slip pads, a sliding structure is formed between the movable supporting leg and the supporting block, and the movable supporting leg is symmetrically arranged about the vertical central axis of the supporting block.

Preferably, a rotating structure is formed between the fixed shaft and the connecting shaft and between the fixed shaft and the connecting rod, and the connecting shaft and the sliding block are of a welding integrated structure.

Preferably, the outer wall of the sliding block is attached to the inner wall of the mounting block, and a sliding structure is formed between the sliding block and the mounting block.

Preferably, the inner side of the moving block and the outer side of the oblique block are attached to each other, the moving block and the oblique block are both arranged to be in a right-angled triangle structure, and the attaching surfaces of the moving block and the oblique block are arranged to be in a hypotenuse structure.

Compared with the prior art, the beneficial effects of the utility model are that: the anhydrous ammonia storage tank capable of improving the transportation stability can improve the stability of the anhydrous ammonia storage tank during transportation, can play a good damping effect during transportation, and avoids the phenomenon that the anhydrous ammonia is violently shaken in the storage tank due to jolting in the way;

1. the anti-slip mat is arranged, so that the friction force between the supporting block and the transportation plane can be increased under the action of the anti-slip mat at the lower end of the supporting block when the storage tank body is transported, the movable supporting legs can slide in the supporting block due to the movement of the inclined block, and when the movable supporting legs are contacted with the transportation plane, the contact area between the storage tank body and the transportation plane is indirectly increased, and the stability of the storage tank body during transportation is improved;

2. be provided with buffer spring, when producing vibrations in the transportation, the fixed column can play certain cushioning effect under buffer spring's effect at the inside motion of footing, can make the slider slide in the inside of installation piece under the effect of connecting rod simultaneously, and the motion of slider can play further cushioning effect under regulating spring's effect.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the bottom foot and the supporting block of the present invention;

FIG. 3 is a schematic top view of the slider and the mounting block of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

In the figure: 1. a storage tank body; 2. a tank opening; 3. footing; 4. fixing a column; 5. a support block; 6. a buffer spring; 7. a fixed shaft; 8. a connecting rod; 9. a connecting shaft; 10. a slider; 11. mounting blocks; 12. adjusting the spring; 13. a moving block; 14. a sloping block; 15. a return spring; 16. movable supporting legs; 17. a non-slip mat.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an anhydrous ammonia storage tank capable of improving transportation stability comprises a storage tank body 1, a tank opening 2, a bottom foot 3, a fixing column 4, a supporting block 5, a buffer spring 6, a fixing shaft 7, a connecting rod 8, a connecting shaft 9, a sliding block 10, an installation block 11, an adjusting spring 12, a moving block 13, an inclined block 14, a reset spring 15, a movable supporting leg 16 and a non-slip mat 17, wherein the tank opening 2 is fixedly installed in the middle of the upper end of the storage tank body 1, the bottom foot 3 is integrally installed on the side of the lower end of the storage tank body 1, the fixing column 4 is installed inside the lower end of the bottom foot 3, the fixing column 4 is installed inside the supporting block 5 in a welded mode, the bottom foot 3 is connected with the supporting block 5 through the buffer spring 6, the fixing shaft 7 is installed on the outer side of the lower end of the bottom foot 3 in a welded mode, the connecting rod 8 is, the slider 10 is connected in the inside of installation piece 11, and passes through adjusting spring 12 interconnect between slider 10 and the installation piece 11, and the upper end welded mounting of slider 10 has movable block 13, and the outside of movable block 13 installs sloping block 14, and the outer end welded mounting of sloping block 14 has movable supporting legs 16, and passes through reset spring 15 interconnect between the inner of movable supporting legs 16 and the supporting shoe 5 to the slipmat 17 is installed to the lower extreme of movable supporting legs 16.

The outer wall of fixed column 4 and the inner wall of footing 3 laminate each other, and constitute sliding structure between fixed column 4 and the footing 3, fixed column 4 can play certain cushioning effect under buffer spring 6's effect in the inside slip of footing 3.

Non-slip mat 17 is all installed to the lower extreme of supporting shoe 5 and movable supporting legs 16, and constitutes sliding structure between movable supporting legs 16 and the supporting shoe 5 to movable supporting legs 16 sets up about the vertical axis symmetry of supporting shoe 5, when movable supporting legs 16 slides in supporting shoe 5 inside and ground contact, can thereby indirect increase the area of contact between holding vessel body 1 and the ground, the purpose of stability when realizing improving holding vessel body 1 and transporting.

The fixed shaft 7 and the connecting shaft 9 and the connecting rod 8 form a rotating structure, the connecting shaft 9 and the sliding block 10 form a welding integrated structure, the outer wall of the sliding block 10 is attached to the inner wall of the mounting block 11, the sliding structure is formed between the sliding block 10 and the mounting block 11, and the sliding block 10 can slide inside the mounting block 11 through the rotation of the connecting rod 8 on the fixed shaft 7 and the connecting shaft 9.

The inner side of the moving block 13 and the outer side of the oblique block 14 are attached to each other, the moving block 13 and the oblique block 14 are both arranged to be in a right-angled triangle structure, the attaching surfaces of the moving block 13 and the oblique block 14 are arranged to be in a hypotenuse structure, and the moving block 13 can move under the action of the hypotenuse to enable the oblique block 14 to move synchronously.

The working principle is as follows: when the anhydrous ammonia storage tank capable of improving the transportation stability is used, firstly, as shown in fig. 1-4, when the storage tank body 1 is transported to generate vibration, as shown in fig. 1 and 2, the bottom foot 3 slides on the outer wall of the fixed column 4, the sliding of the bottom foot 3 on the fixed column 4 can play a primary damping role under the action of the buffer spring 6, as shown in fig. 2-4, the bottom foot 3 can rotate on the fixed shaft 7 and the connecting shaft 9 when moving, so that the movement of the bottom foot 3 can enable the sliding block 10 to slide in the mounting block 11 under the action of the connecting rod 8, the movement of the sliding block 10 can play a secondary damping role under the action of the adjusting spring 12, and further, the problem that the anhydrous ammonia violently jolts in the storage tank body 1 due to the fact that the anhydrous ammonia is in the way is avoided;

as shown in fig. 1 and 2, when the sliding block 10 slides inside the mounting block 11, the moving block 13 can perform synchronous motion, the motion of the moving block 13 can make the sloping block 14 move downwards under the action of the sloping edge, the downward motion of the sloping block 14 can drive the movable supporting foot 16 to perform synchronous motion, at this time, after the movable supporting foot 16 moves downwards, a certain damping effect can be achieved under the action of the return spring 15, meanwhile, when the movable supporting legs 16 move to be contacted with the transportation plane, the contact area between the storage tank body 1 and the transportation plane is indirectly increased, thereby improving the stability of the storage tank body 1 during transportation, simultaneously, the lower ends of the movable supporting feet 16 and the supporting blocks 5 are both provided with anti-skid pads 17, the friction of contact with the transport plane can be increased by the non-slip mat 17, which is not described in detail in this description, and is known to the person skilled in the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a can improve anhydrous ammonia holding vessel of transportation stability ability, includes holding vessel body (1), jar mouth (2) and footing (3), its characterized in that: the storage tank is characterized in that a tank opening (2) is fixedly arranged in the middle of the upper end of a storage tank body (1), a footing (3) is integrally arranged on the side of the lower end of the storage tank body (1), a fixed column (4) is arranged inside the lower end of the footing (3), the fixed column (4) is welded and arranged inside a supporting block (5), the footing (3) and the supporting block (5) are connected with each other through a buffer spring (6), a fixed shaft (7) is welded and arranged on the outer side of the lower end of the footing (3), a connecting rod (8) is arranged on the fixed shaft (7), the lower end of the connecting rod (8) is arranged on a connecting shaft (9), the connecting shaft (9) is fixedly arranged on a sliding block (10), the sliding block (10) is connected inside a mounting block (11), the sliding block (10) and the mounting block (11) are connected with each other through an adjusting spring (12), and a moving block, and the outer side of the moving block (13) is provided with an inclined block (14), the outer end of the inclined block (14) is welded with a movable supporting leg (16), the inner end of the movable supporting leg (16) is connected with the supporting block (5) through a return spring (15), and the lower end of the movable supporting leg (16) is provided with an anti-skid pad (17).

2. The anhydrous ammonia storage tank capable of improving transportation stability according to claim 1, wherein: the outer wall of the fixing column (4) is attached to the inner wall of the bottom foot (3), and a sliding structure is formed between the fixing column (4) and the bottom foot (3).

3. The anhydrous ammonia storage tank capable of improving transportation stability according to claim 1, wherein: the lower ends of the supporting blocks (5) and the movable supporting legs (16) are respectively provided with an anti-skid pad (17), a sliding structure is formed between the movable supporting legs (16) and the supporting blocks (5), and the movable supporting legs (16) are symmetrically arranged about the vertical central axis of the supporting blocks (5).

4. The anhydrous ammonia storage tank capable of improving transportation stability according to claim 1, wherein: and a rotating structure is formed between the fixed shaft (7) and the connecting shaft (9) and the connecting rod (8), and the connecting shaft (9) and the sliding block (10) are in a welding integrated structure.

5. The anhydrous ammonia storage tank capable of improving transportation stability according to claim 1, wherein: the outer wall of the sliding block (10) is attached to the inner wall of the mounting block (11), and a sliding structure is formed between the sliding block (10) and the mounting block (11).

6. The anhydrous ammonia storage tank capable of improving transportation stability according to claim 1, wherein: the inner side of the moving block (13) is attached to the outer side of the inclined block (14), the moving block (13) and the inclined block (14) are both of a right-angled triangle structure, and the attaching surfaces of the moving block (13) and the inclined block (14) are of a hypotenuse structure.