CN213542053U

CN213542053U - Oxygen storage spherical tank

Info

Publication number: CN213542053U
Application number: CN202022697057.5U
Authority: CN
Inventors: 汪玲; 孙宏宇
Original assignee: Shenzhen Metal Structure Thermal Power Equipment Co ltd
Current assignee: Shenzhen Metal Structure Thermal Power Equipment Co ltd
Priority date: 2020-11-20
Filing date: 2020-11-20
Publication date: 2021-06-25
Anticipated expiration: 2030-11-20

Abstract

The utility model relates to the technical field of mechanical equipment, in particular to an oxygen storage spherical tank which improves the stability of the equipment; the safety of the equipment is improved; the gas-liquid separator comprises a first storage, wherein a cavity is arranged in the first storage, a first gas pipe extends into the cavity in the first storage, the first gas pipe is communicated with the cavity in the first storage, and a first switch is arranged on the first gas pipe; the second storage is arranged outside the first storage through the support, a cavity is formed in the second storage, and the third air pipe extends into the cavity in the second storage; the shock absorption device comprises a plurality of buffers, a plurality of buffer rods, an auxiliary plate, a protective cover, a connecting plate and a contact plate, and the buffers are uniformly distributed on the outer wall of the second storage.

Description

Oxygen storage spherical tank

Technical Field

The utility model relates to a mechanical equipment's technical field especially relates to an oxygen storage spherical tank.

Background

An oxygen storage spherical tank is an auxiliary device for storing oxygen, and is widely used in the field of mechanical equipment; the existing oxygen storage spherical tank comprises a first storage, a cavity is arranged in the first storage, a first air pipe extends into the inner cavity of the first storage, the first air pipe is communicated with the inner cavity of the first storage, a first switch is arranged on the first air pipe, a second air pipe extends into the inner cavity of the first storage, the second air pipe is communicated with the inner cavity of the first storage, and a second switch is arranged on the second air pipe; when the existing oxygen storage spherical tank is used, firstly, the gas pipe is communicated with the first gas pipe, then the first switch is opened, the gas pipe inputs oxygen to the first storage device, the first switch is closed after the input is finished, the gas pipe is picked up, when the oxygen storage spherical tank needs to be used, the second gas pipe is communicated with the gas pipe when the oxygen storage spherical tank is used, and then the second switch is opened to release the oxygen in the first storage device for use; when the existing oxygen storage spherical tank is used, when the first storage is subjected to external force in the use process, once the first storage is damaged, oxygen can leak from the damaged part, and fire can be increased when fire occurs, so that the safety of equipment is reduced; and the first storage is easy to damage due to the bumping of the vehicle in the transportation process, so that the stability of the equipment is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a device which improves the stability of the device; the oxygen storage spherical tank improves the safety of the equipment.

The utility model discloses an oxygen storage spherical tank, including first accumulator, the inside of first accumulator is provided with the die cavity, and first trachea stretches into the inside die cavity of first accumulator, and first trachea communicates with the inside die cavity of first accumulator, installs first switch on the first trachea, and the second trachea stretches into the inside die cavity of first accumulator, and the second trachea communicates with the inside die cavity of first accumulator, installs the second switch on the second trachea; the second storage is arranged outside the first storage through the support, a cavity is formed in the second storage, the third air pipe extends into the inner cavity of the second storage, the third air pipe is communicated with the inner cavity of the second storage, the fourth air pipe extends into the inner cavity of the second storage, the fourth air pipe is communicated with the inner cavity of the second storage, and the third air pipe and the fourth air pipe are respectively provided with the third switch and the fourth switch; still include damping device, damping device installs around the second accumulator, damping device include a plurality of buffers, a plurality of buffer pole, the accessory plate, the safety cover, connecting plate and contact plate, a plurality of buffers are even arranges on the outer wall of second accumulator, the buffer pole is all installed to the upper end of every buffer, the lower extreme at the accessory plate is all installed to a plurality of buffer poles, the safety cover is installed on the lateral wall of second accumulator, the safety cover is located the outside of a plurality of buffers, be provided with the opening on the safety cover, the connecting plate passes the opening on the safety cover and installs the upper end at the accessory plate, the lower extreme at the contact plate is installed to the connecting plate simultaneously.

The utility model discloses an oxygen storage spherical tank still includes first check valve, second check valve, third check valve and fourth check valve, and first check valve, second check valve, third check valve and fourth check valve are installed respectively in first trachea, second trachea, third trachea and fourth tracheal inside, and first check valve, second check valve, third check valve and fourth check valve are the same structure, the structure include the baffle, the baffle mounting is in first tracheal inside, is provided with trapezoidal opening on the baffle, the dog is located the trapezoidal opening part of baffle, first spring and second spring are installed respectively at the both ends of dog, first spring is connected with first curb plate, the second spring is connected with the second curb plate.

The utility model discloses an oxygen storage spherical tank still includes base and a plurality of gasket, and the pedestal mounting is at the lower extreme of second accumulator, and the lower extreme at the base is installed to a plurality of gaskets.

The utility model discloses an oxygen storage spherical tank, the gasket adopts rubber materials.

The utility model discloses an oxygen storage spherical tank, still include first pressure detector, the connecting piece, first screen, second pressure detector and second screen, first pressure detector installs on the die cavity inner wall of first accumulator, the connecting piece passes first accumulator and second accumulator, first screen is installed at the outer wall of second accumulator, first pressure detector passes through the connecting piece with first screen and connects, second pressure detector installs on the inner wall of second accumulator, the second screen is installed on the outer wall of second accumulator, second pressure detector and second screen are connected.

The utility model discloses an oxygen storage spherical tank, each position installation of device is seal installation.

Compared with the prior art, the beneficial effects of the utility model are that: the third switch is opened, inert gas is input into the inner cavity of the second storage through the third gas pipe, when fire occurs and the inner walls of the first storage and the second storage are damaged, the inert gas and oxygen are released simultaneously, the inert gas organizes the combustion supporting effect of the oxygen, so that the effect of reducing the fire is achieved, the first storage is protected by the second storage, and the stability of the equipment is improved; first accumulator is at the in-process of transportation, when receiving the extrusion of external force, and the contact plate removes, and the removal of contact plate drives the removal of accessory plate through the connecting plate, and the removal of accessory plate drives the removal of buffer in the buffer beam, thereby the cooperation through buffer and buffer beam carries out the low efficiency of certain degree with the extrusion of external force and reaches absorbing effect, has improved the stability and the security of equipment.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a partially enlarged schematic view of the check valve;

FIG. 3 is an enlarged schematic view of the connection of the first pressure detector and the second pressure detector with the first reservoir, the second reservoir, etc.;

reference numerals: 1. a first reservoir; 2. a first air pipe; 3. a first switch; 4. a second air pipe; 5. a second switch; 6. a second reservoir; 7. a support; 8. a third air pipe; 9. a third switch; 10. a fourth gas pipe; 11. a fourth switch; 12. a buffer; 13. a buffer rod; 14. an auxiliary plate; 15. a protective cover; 16. a connecting plate; 17. a contact plate; 18. a first check valve; 19. a second one-way valve; 20. a third check valve; 21. a fourth check valve; 22. a baffle plate; 23. a stopper; 24. a first spring; 25. a second spring; 26. a first side plate; 27. a second side plate; 28. a base; 29. a gasket; 30. a first pressure detector; 31. a connecting member; 32. a first screen; 33. a second pressure detector; 34. a second screen.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1 to 3, the oxygen storage spherical tank of the present invention comprises a first storage 1, a cavity is disposed inside the first storage 1, a first air tube 2 extends into the internal cavity of the first storage 1, the first air tube 2 is communicated with the internal cavity of the first storage 1, a first switch 3 is mounted on the first air tube 2, a second air tube 4 extends into the internal cavity of the first storage 1, the second air tube 4 is communicated with the internal cavity of the first storage 1, and a second switch 5 is mounted on the second air tube 4; the device is characterized by further comprising a second storage 6, a support 7, a third air pipe 8, a third switch 9, a fourth air pipe 10 and a fourth switch 11, wherein the second storage 6 is arranged outside the first storage 1 through the support 7 in an installing mode, a cavity is formed in the second storage 6, the third air pipe 8 extends into the cavity in the second storage 6, the third air pipe 8 is communicated with the cavity in the second storage 6, the fourth air pipe 10 extends into the cavity in the second storage 6, the fourth air pipe 10 is communicated with the cavity in the second storage 6, and the third switch 9 and the fourth switch 11 are respectively installed on the third air pipe 8 and the fourth air pipe 10; the shock absorption device is arranged around the second storage 6 and comprises a plurality of buffers 12, a plurality of buffer rods 13, an auxiliary plate 14, a protective cover 15, a connecting plate 16 and a contact plate 17, wherein the buffers 12 are uniformly distributed on the outer wall of the second storage 6, the buffer rods 13 are arranged at the upper end of each buffer 12, the buffer rods 13 are arranged at the lower end of the auxiliary plate 14, the protective cover 15 is arranged on the side wall of the second storage 6, the protective cover 15 is positioned outside the buffers 12, an opening is formed in the protective cover 15, the connecting plate 16 penetrates through the opening in the protective cover 15 and is arranged at the upper end of the auxiliary plate 14, and the connecting plate 16 is arranged at the lower end of the contact plate 17; the third switch 9 is opened, inert gas is input into the inner cavity of the second storage 6 from the third gas pipe 8, when fire occurs and the inner walls of the first storage 1 and the second storage 6 are damaged, the inert gas and oxygen are released simultaneously, the inert gas organizes the combustion-supporting effect of the oxygen, so that the effect of reducing the fire is achieved, the first storage 1 is protected by the second storage 6, and the stability of the equipment is improved; when the first storage 1 is extruded by external force in the transportation process, the contact plate 17 moves to drive the auxiliary plate 14 to move through the connecting plate 16, the auxiliary plate 14 moves to drive the buffer 12 to move in the buffer rod 13, and the extrusion of the external force is performed to a certain extent through the cooperation of the buffer 12 and the buffer rod 13, so that the shock absorption effect is achieved, and the stability and the safety of the equipment are improved.

The utility model discloses an oxygen storage spherical tank, still include first check valve 18, second check valve 19, third check valve 20 and fourth check valve 21, first check valve 18, second check valve 19, third check valve 20 and fourth check valve 21 are installed respectively in the inside of first trachea 2, second trachea 4, third trachea 8 and fourth trachea 10, first check valve 18, second check valve 19, third check valve 20 and fourth check valve 21 are the same structure, the structure include baffle 22, baffle 22 installs in the inside of first trachea 2, be provided with trapezoidal opening on baffle 22, dog 23 is located baffle 22's trapezoidal opening part, first spring 24 and second spring 25 are installed respectively at the both ends of dog 23, first spring 24 is connected with first curb plate 26, second spring 25 is connected with second curb plate 27; the first check valve 18, the second check valve 19, the third check valve 20 and the fourth check valve 21 enable the effects of the first air pipe 2, the second air pipe 4, the third air pipe 8 and the fourth air pipe 10 to be specific, so that the mixing of air caused by mixing of air ports in use is prevented, and the stability of the equipment is improved.

The utility model discloses an oxygen storage spherical tank, which also comprises a base 28 and a plurality of gaskets 29, wherein the base 28 is arranged at the lower end of the second storage 6, and the gaskets 29 are arranged at the lower end of the base 28; the second storage 6 can be damped by the gasket 29, so that the stability and safety of the device are improved.

In the oxygen storage spherical tank of the utility model, the gasket 29 is made of rubber material; the gasket 29 is made of rubber material, so that vibration can be greatly reduced due to good elasticity of the gasket, friction force between the gasket and the ground is increased, the second storage 6 is not easy to slide, and stability and safety of the device are improved.

The utility model discloses an oxygen storage spherical tank, still include first pressure detector 30, connecting piece 31, first screen 32, second pressure detector 33 and second screen 34, first pressure detector 30 is installed on the die cavity inner wall of first accumulator 1, connecting piece 31 passes first accumulator 1 and second accumulator 6, first screen 32 is installed at the outer wall of second accumulator 6, first pressure detector 30 and first screen 32 pass through connecting piece 31 to be connected, second pressure detector 33 is installed on the inner wall of second accumulator 6, second screen 34 is installed on the outer wall of second accumulator 6, second pressure detector 33 and second screen 34 are connected; the gas pressure in the first and second reservoirs 1 and 6 can be monitored by the first and second pressure detectors 30 and 33 and displayed in the first and

second screens

32 and 34, so that dangerous events caused by over-high pressure during inflation can be prevented, and the stability of the device can be improved.

The oxygen storage spherical tank of the utility model is hermetically mounted at each part of the device; the installation of each part of the device is sealed installation, so that the good air tightness of the equipment is ensured, the harm caused by the leakage of gas is reduced, and the safety of the equipment is improved.

The utility model relates to an oxygen storage spherical tank, when it works, firstly open first switch 3 and third switch 9, respectively fill oxygen and inert gas into the internal cavity of first accumulator 1 and second accumulator 6 from first trachea 2 and third trachea 8, simultaneously monitor the internal pressure through first pressure detector 30 and second pressure detector 33, later in the process of transporting second accumulator 6 to the assigned position, when receiving the extrusion of external force, contact plate 17 moves, the movement of contact plate 17 drives the movement of auxiliary plate 14 through connecting plate 16, the movement of auxiliary plate 14 drives the movement of buffer 12 in buffer rod 13, the extrusion of external force is performed with a certain degree of inefficiency through the cooperation of buffer 12 and buffer rod 13 to reach the shock absorption effect, then second trachea 4 is connected on the pipeline to be used when in use, the second switch 5 is opened to release oxygen.

The installation mode, the connection mode or the arrangement mode of the oxygen storage spherical tank of the utility model are common mechanical modes, and the installation mode, the connection mode or the arrangement mode can be implemented as long as the beneficial effects can be achieved; the utility model discloses a first switch 3, second switch 5, third switch 9, fourth switch 11, first pressure detector 30, first screen 32, second pressure detector 33, second screen 34 of oxygen storage spherical tank are purchase on the market, and this industry technical staff only need install and operate according to its subsidiary instructions can.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. An oxygen storage spherical tank comprises a first storage device (1), wherein a cavity is formed in the first storage device (1), a first air pipe (2) extends into the cavity in the first storage device (1), the first air pipe (2) is communicated with the cavity in the first storage device (1), a first switch (3) is installed on the first air pipe (2), a second air pipe (4) extends into the cavity in the first storage device (1), the second air pipe (4) is communicated with the cavity in the first storage device (1), and a second switch (5) is installed on the second air pipe (4); the device is characterized by further comprising a second storage (6), a support (7), a third air pipe (8), a third switch (9), a fourth air pipe (10) and a fourth switch (11), wherein the second storage (6) is arranged outside the first storage (1) through the support (7), a cavity is formed in the second storage (6), the third air pipe (8) extends into the inner cavity of the second storage (6), the third air pipe (8) is communicated with the inner cavity of the second storage (6), the fourth air pipe (10) extends into the inner cavity of the second storage (6), the fourth air pipe (10) is communicated with the inner cavity of the second storage (6), and the third air pipe (8) and the fourth air pipe (10) are respectively provided with the third switch (9) and the fourth switch (11); also comprises a damping device which is arranged around the second storage device (6) and comprises a plurality of buffers (12), a plurality of buffer rods (13) and an auxiliary plate (14), protective cover (15), connecting plate (16) and contact plate (17), a plurality of buffers (12) are evenly arranged on the outer wall of second accumulator (6), buffer rod (13) are all installed to the upper end of every buffer (12), the lower extreme at accessory plate (14) is all installed to a plurality of buffer rods (13), protective cover (15) are installed on the lateral wall of second accumulator (6), protective cover (15) are located the outside of a plurality of buffers (12), be provided with the opening on protective cover (15), connecting plate (16) pass the opening on protective cover (15) and install the upper end at accessory plate (14), the lower extreme at contact plate (17) is installed in connecting plate (16) simultaneously.

2. The oxygen storage spherical tank as claimed in claim 1, further comprising a first check valve (18), a second check valve (19), a third check valve (20) and a fourth check valve (21), wherein the first check valve (18), the second check valve (19), the third check valve (20) and the fourth check valve (21) are respectively installed inside the first air pipe (2), the second air pipe (4), the third air pipe (8) and the fourth air pipe (10), the first check valve (18), the second check valve (19), the third check valve (20) and the fourth check valve (21) are all the same structure, the structure comprises a baffle (22), the baffle (22) is installed inside the first air pipe (2), a trapezoidal opening is formed in the baffle (22), the baffle (23) is located at the trapezoidal opening of the baffle (22), a first spring (24) and a second spring (25) are respectively installed at two ends of the baffle (23), the first spring (24) is connected to the first side plate (26), and the second spring (25) is connected to the second side plate (27).

3. An oxygen storage balloon as claimed in claim 1, further comprising a base (28) and a plurality of spacers (29), the base (28) being mounted on the lower end of the second reservoir (6) and the plurality of spacers (29) being mounted on the lower end of the base (28).

4. An oxygen storage balloon as claimed in claim 3, characterised in that the gasket (29) is of rubber material.

5. An oxygen storage spherical tank as claimed in claim 1, further comprising a first pressure detector (30), a connecting member (31), a first screen (32), a second pressure detector (33) and a second screen (34), wherein the first pressure detector (30) is installed on the inner wall of the cavity of the first reservoir (1), the connecting member (31) passes through the first reservoir (1) and the second reservoir (6), the first screen (32) is installed on the outer wall of the second reservoir (6), the first pressure detector (30) and the first screen (32) are connected through the connecting member (31), the second pressure detector (33) is installed on the inner wall of the second reservoir (6), the second screen (34) is installed on the outer wall of the second reservoir (6), and the second pressure detector (33) and the second screen (34) are connected.

6. An oxygen storage balloon as claimed in claim 5 wherein the device is sealed at each location.