CN116022460B - Packaging barrel for chemicals - Google Patents

Abstract

The invention discloses a packaging barrel for chemicals, which belongs to the field of packaging containers and comprises a barrel body and a barrel cover, wherein a rectangular feeding port is arranged at the top end of the barrel body; the barrel cover is fixed in the transportation process, so that liquid can be prevented from being spilled; the heat dissipation mechanism comprises a mounting plate fixedly embedded on the barrel cover, a ball is movably embedded on the bottom wall of the mounting plate, and a heat conduction rod is vertically and fixedly arranged on the bottom wall of the ball; the heat conduction device has the advantages that under the action of the heat conduction rod and the ball, when the temperature of liquid in the barrel body is increased, under the action of temperature difference, the heat of the liquid can be transmitted to the outside through the heat conduction rod and the ball, so that the temperature in the barrel body is reduced, namely the vaporization amount of the liquid is reduced, and when the sealing ring is replaced, the air release time is shortened, the air release amount is reduced, and the effect of reducing the pollution degree to the environment is achieved.

Description

Packaging barrel for chemicals

Technical Field

The invention relates to the field of packaging containers, in particular to a packaging barrel for chemicals.

Background

The prior containers for packing and storing liquid comprise a hard package and a soft package; the hard package generally adopts bottles, cans, jars and the like; the soft package adopts plastic bags and the like, and because the liquid chemicals have the characteristics of high concentration, toxicity, corrosiveness and the like, the soft package plastic bags cannot meet the requirements of storing the liquid chemicals in the aspects of chemical resistance, drop resistance and the like, so that the liquid chemicals are always hard packaged by plastic barrels and the like, and meanwhile, a plurality of ring ribs are protruded on the barrel body to strengthen the strength of the barrel body for saving materials, reducing the cost and labor intensity of shipment.

According to chemical transportation standards, the vehicle is required to stably drive and safely drive in the chemical transportation process, emergency brake is required to be used as little as possible in the driving process so as to keep the stability of goods, liquid can expand in high-temperature seasons, the sealing ring is required to be slowly opened when the sealing ring is replaced, and the gas is discharged and then opened again, so that people are prevented from being injured by spraying the emergency liquid after the cover is opened.

In the transportation process, although sunlight can be prevented from directly irradiating the packaging barrel through covering the sunshade net, in the running process of the transportation vehicle, chemical in the packaging barrel can shake, especially when passing through a deceleration strip, the shaking amplitude of liquid medicine in the barrel can be increased, at the moment, liquid impacts the inner wall of the barrel and moves along the inner wall of the barrel, in the process, the temperature of the liquid in the barrel rises and is easy to vaporize, so that the air pressure in the barrel rises, and therefore, air needs to be discharged when a sealing ring is replaced, the environment is polluted easily in the air discharging process, and the slow air discharging needs to be longer time to influence the speed of replacing the sealing ring.

For this purpose, a packaging barrel for chemicals is proposed.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide a packaging barrel for chemicals, which can reduce the temperature of liquid in the barrel body.

In order to solve the problems, the invention adopts the following technical scheme.

A packaging barrel for chemicals, comprising:

the barrel comprises a barrel body and a barrel cover, wherein a rectangular feeding hole is formed in the top end of the barrel body, the barrel cover is detachably arranged on the top wall of the barrel body, and a T-shaped clamping rod is rotatably arranged on the top wall of the barrel body; the barrel cover is fixed in the transportation process, so that liquid can be prevented from being spilled;

the heat dissipation mechanism comprises a mounting plate fixedly embedded on the barrel cover, a ball is movably embedded on the bottom wall of the mounting plate, and a heat conduction rod is vertically and fixedly arranged on the bottom wall of the ball; the heat of the liquid in the barrel body is transferred to the outside through the heat conducting rod mounting plate, so that the temperature and vaporization quantity of the liquid in the barrel body are reduced;

the constant pressure mechanism comprises a cavity formed in the mounting plate, a one-way valve is embedded in the side wall of the cavity, a one-way pressure valve is embedded in the bottom wall of the cavity, a piston plate is slidably mounted in the cavity, a spring is arranged between the side wall of the piston plate and the side wall of the cavity, and a first driving mechanism matched with the piston plate is arranged on the barrel cover; in the uncapping process, the cavity is communicated with the barrel body through the one-way valve, and high-pressure gas enters the cavity at the moment, so that the time of exhausting and pressure relief is shortened;

the cooling mechanism comprises a mounting groove which is arranged on the top wall of the mounting plate, a radiating fin is hinged in the mounting groove, a magnetic sheet is fixedly embedded on the radiating fin, and a second driving mechanism matched with the radiating fin is arranged in the cavity; the cooling device is used for accelerating the air flow velocity on the surface of the mounting plate and improving the cooling effect.

Further, the first driving mechanism comprises a diversion trench arranged on the inner side wall of the barrel cover, an elastic membrane is fixedly arranged in the diversion trench, and the barrel cover is embedded with a communicating pipe with two ends respectively communicated with the diversion trench and the cavity.

Further, the second driving mechanism comprises a floating plate movably sleeved on the heat conducting rod, and a permanent magnet which is mutually exclusive with the magnetic sheet is embedded on the floating plate.

Further, the one-way valve is positioned between the inner top wall of the barrel cover and the diversion trench, and the distance between the diversion trench and the bottom wall of the barrel cover and the bottom wall of the mounting plate is 3CM.

Further, a buffer sleeve made of rubber is sleeved on the outer wall of the barrel body, and the difference between the inner radius and the outer radius of the buffer sleeve is 5 CM to 7CM.

Further, the buffer sleeve is uniformly provided with an air cavity, and the top wall of the air cavity is uniformly and fixedly provided with an air pipe with the top end parallel to the top wall of the barrel cover.

Further, an annular plate is vertically and fixedly arranged on the top wall of the mounting plate, and the side wall of the annular plate is an inclined plane.

Further, the diaphragm made of elastic materials is fixedly arranged in the air cavity, the exhaust valve is embedded on the diaphragm, the buffer sleeve is provided with a control mechanism for controlling the exhaust of the air cavity, and the bottom wall of the air cavity is embedded with an air inlet valve communicated with the outside.

Further, a chute with an arc bottom wall is arranged on the top wall of the air cavity, a partition board with an arc bottom wall is slidably arranged in the chute, and a through hole matched with the air pipe is arranged on the partition board.

Further, a clamping groove is formed in the outer wall of the barrel body, and the buffer sleeve is detachably sleeved in the clamping groove.

Compared with the prior art, the invention has the beneficial effects that:

(1) According to the scheme, under the action of the heat conducting rod and the ball, when the temperature of liquid in the barrel body rises, under the action of temperature difference, the heat of the liquid can be transferred to the outside through the heat conducting rod and the ball, so that the temperature in the barrel body is reduced, namely the vaporization amount of the liquid is reduced, and therefore when the sealing ring is replaced, the air release time is shortened, the air release amount is reduced, and the effect of reducing the pollution degree to the environment is achieved.

(2) According to the scheme, under the action of the elastic membrane, the piston plate and the spring, after the elastic membrane is separated from the barrel body, the space in the cavity, which is positioned on one side of the piston plate close to the one-way valve, is sucked from the closed space formed between the barrel body and the barrel cover through the one-way valve, so that vaporized chemicals in the barrel body can be absorbed into the cavity, the time of deflation and pressure relief is shortened, the content of chemicals discharged into the outside air is reduced, and the effect of protecting the environment is achieved.

(3) According to the scheme, under the action of the air cavity and the air pipe, air in the air cavity is exhausted through the air pipe, and the air exhausted by the air pipe impacts the surface of the mounting plate, so that the air flow rate on the surface of the mounting plate is increased, and the cooling effect on the mounting plate is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic view of a second perspective structure of the present invention;

FIG. 3 is an enlarged view of the invention at A in FIG. 1;

FIG. 4 is a sectional view of the tub and lid assembly of the present invention;

FIG. 5 is a combined view of the mounting plate, heat sink and magnetic sheet of the present invention;

FIG. 6 is a cross-sectional view of a buffer sleeve of the present invention;

fig. 7 is an enlarged view of the present invention at B in fig. 6.

The reference numerals in the figures illustrate:

1. a tub body; 2. a barrel cover; 3. a clamping rod; 4. a mounting plate; 5. a ball; 6. a heat conduction rod; 7. a cavity; 8. a one-way valve; 9. a one-way pressure valve; 10. a piston plate; 11. a spring; 12. a heat sink; 13. a magnetic sheet; 14. a diversion trench; 15. an elastic film; 16. a communicating pipe; 17. a floating plate; 18. a permanent magnet; 19. a buffer sleeve; 20. an air cavity; 21. an air pipe; 22. an annular plate; 23. a diaphragm; 24. an exhaust valve; 25. an intake valve; 26. a partition board.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present invention are within the protection scope of the present invention.

Example 1:

referring to fig. 1 to 7, a packaging barrel for chemicals, comprising:

the barrel comprises a barrel body 1 and a barrel cover 2, wherein a rectangular feeding hole is formed in the top end of the barrel body 1, the barrel cover 2 is detachably arranged on the top wall of the barrel body 1, and a T-shaped clamping rod 3 is rotatably arranged on the top wall of the barrel body 1; the barrel cover 2 is fixed in the transportation process, so that liquid can be prevented from being spilled;

the heat dissipation mechanism comprises a mounting plate 4 fixedly embedded on the barrel cover 2, a ball 5 is movably embedded on the bottom wall of the mounting plate 4, and a heat conduction rod 6 is vertically and fixedly arranged on the bottom wall of the ball 5; the heat of the liquid in the barrel body 1 is transferred to the outside through the heat conducting rod 6 mounting plate 4, so that the temperature and vaporization quantity of the liquid in the barrel body 1 are reduced;

the constant pressure mechanism comprises a cavity 7 arranged on the mounting plate 4, a one-way valve 8 is embedded on the side wall of the cavity 7, a one-way pressure valve 9 is embedded on the bottom wall of the cavity 7, a piston plate 10 is slidably arranged in the cavity 7, a spring 11 is arranged between the side wall of the piston plate 10 and the side wall of the cavity 7, and a first driving mechanism matched with the piston plate 10 is arranged on the barrel cover 2; in the uncapping process, the cavity 7 is communicated with the barrel body 1 through the one-way valve 8, and high-pressure gas enters the cavity 7 at the moment, so that the air exhaust and pressure relief time is shortened;

the cooling mechanism comprises a mounting groove which is formed in the top wall of the mounting plate 4, a radiating fin 12 is hinged in the mounting groove, a magnetic sheet 13 is fixedly embedded on the radiating fin 12, and a second driving mechanism which is matched with the radiating fin 12 is arranged in the cavity 7; for accelerating the air flow rate on the surface of the mounting plate 4 and improving the cooling effect.

The first driving mechanism comprises a diversion trench 14 arranged on the inner side wall of the barrel cover 2, an elastic membrane 15 is fixedly arranged in the diversion trench 14, and a communicating pipe 16 with two ends respectively communicated with the diversion trench 14 and the cavity 7 is embedded on the barrel cover 2.

The second driving mechanism comprises a floating plate 17 movably sleeved on the heat conducting rod 6, and a permanent magnet 18 which is mutually exclusive with the magnetic sheet 13 is embedded on the floating plate 17.

The check valve 8 is positioned between the inner top wall of the barrel cover 2 and the diversion trench 14, and the distance between the diversion trench 14 and the bottom wall of the barrel cover 2 and the bottom wall of the mounting plate 4 is 3CM.

In the initial state, the spring 11 is in a normal state, and the elastic membrane 15 is in an expanded state; after the barrel body 1 is filled with chemical liquid, the barrel cover 2 is aligned with the feed inlet of the barrel body 1 and pushes the barrel cover 2 downwards, in the process, the elastic membrane 15 on the inner side wall of the barrel cover 2 is contacted with the outer wall of the barrel body 1, and the elastic membrane 15 is extruded, so that in the process of moving down the barrel cover 2, gas in a closed space formed by the elastic membrane 15 and the diversion trench 14 together flows into the cavity 7 along the communicating pipe 16, the pressure of the air pressure in the cavity 7 on the piston plate 10 is larger than the elastic force of the spring 11, the piston plate 10 moves to a position close to the check valve 8 in the cavity 7, then the barrel cover 2 is pushed downwards continuously, at the moment, the check valve 8 is gradually attached to the side wall of the barrel body 1, after the check valve 8 is blocked, the feed inlet can be completely blocked under the action of the inner side wall of the barrel cover 2 and the outer wall of the mounting plate 4, then the clamping rod 3 is rotated, the fixing of the barrel cover 2 can be completed by attaching the horizontal section of the clamping rod 3 to the top wall of the barrel cover 2, and then the sunshade net can be started to transport on a car.

When the liquid in the barrel body 1 shakes due to the fact that the liquid is transported through a bumpy road section, the temperature of the liquid in the barrel body 1 rises under the action of friction force, at the moment, the liquid with higher temperature in the barrel body 1 can transfer heat to the mounting plate 4 made of heat conducting materials through the heat conducting rod 6 and the ball 5 under the action of heat exchange, and then the liquid is transferred to air with lower external temperature through the mounting plate 4, so that the temperature of the liquid in the barrel body 1 is reduced, namely the vaporization quantity of the liquid is reduced, and the effect of reducing the air pressure in the barrel body 1 is achieved.

Because the ball 5 is movably embedded on the bottom wall of the mounting plate 4, when the liquid level impacts the heat conducting rod 6 to drive the heat conducting rod 6 to shake, the heat conducting rod 6 can maintain shaking for a period of time under the action of inertia, and the contact probability of the heat conducting rod 6 and high-temperature liquid is increased and the cooling effect on the liquid in the barrel body 1 is improved in the shaking process of the heat conducting rod 6; and in the liquid level shaking process, the floating plate 17 moves up and down along the heat conducting rod 6, in the floating process of the floating plate 17, the distance between the permanent magnet 18 and the magnetic sheet 13 is reduced, at the moment, under the action of repulsive force, the magnetic sheet 13 drives the radiating fin 12 to rotate around the hinge point, and in the rotating process of the radiating fin 12, the radiating fin 12 drives air near the top wall of the mounting plate 4 to flow, namely, the air flow rate around the mounting plate 4 is increased, so that the radiating efficiency of the mounting plate 4 is improved.

When the destination is reached and the sealing ring between the bucket cover 2 and the feeding port of the bucket body 1 needs to be opened and replaced, the clamping rod 3 is rotated firstly, the horizontal section of the clamping rod 3 is separated from contact with the bucket cover 2, then the bucket cover 2 is pulled upwards slowly, at this time, the bucket cover 2 moves upwards along the outer wall of the bucket body 1, in the process, the feeding port is firstly separated from contact with the inner wall of the bucket body 1, then the elastic membrane 15 is gradually separated from contact with the outer wall of the bucket body 1, after the elastic membrane 15 is separated from contact with the bucket body 1, the spring 11 is restored and pulls the piston plate 10 to move, at this time, the cavity 7 is in a negative pressure state, so that the space, which is positioned on one side of the piston plate 10 and is close to the one-way valve 8, in the cavity 7 is sucked from the closed space formed between the bucket body 1 and the bucket cover 2 through the one-way valve 8, at this time, vaporized chemicals in the bucket body 1 can be absorbed into the cavity 7, the time of deflation is shortened, and the content of chemicals discharged into the outside air is reduced, and the effect of protecting the environment is achieved.

As shown in fig. 1, 2 and 6, a rubber buffer sleeve 19 is sleeved on the outer wall of the barrel body 1, and the difference between the inner radius and the outer radius of the buffer sleeve 19 is 5 CM to 7CM.

An air cavity 20 is uniformly formed in the buffer sleeve 19, and an air pipe 21 with the top end parallel to the top wall of the barrel cover 2 is uniformly and fixedly arranged on the top wall of the air cavity 20.

An annular plate 22 is vertically and fixedly arranged on the top wall of the mounting plate 4, and the side wall of the annular plate 22 is an inclined plane.

Through adopting the technical scheme, when the transportation vehicle shakes greatly through the bumping section to cause the liquid in the barrel body 1, the barrel body 1 is slightly inclined under the action of the liquid impact force, so that the buffer sleeve 19 on the side wall of the barrel body 1 is extruded, the adjacent two barrel bodies 1 can be prevented from contacting and rubbing mutually under the action of the buffer sleeve 19, the effect of protecting the barrel bodies 1 is achieved, meanwhile, the gas in the air cavity 20 is discharged through the air pipe 21, and the gas discharged by the air pipe 21 impacts the surface of the mounting plate 4, so that the air flow rate on the surface of the mounting plate 4 is increased, the cooling effect of the mounting plate 4 is further improved, and the effect of improving the cooling effect of the inside of the barrel body 1 is achieved; and under the effect of annular plate 22, can prevent the gas that the trachea 21 of symmetric distribution in staving 1 both sides blown out from each other to strike, the gas that discharges in the trachea 21 flows along the lateral wall of annular plate 22 this moment to can in time shift the gas that accomplishes the heat absorption, play the effect that ensures that the temperature of mounting panel 4 can in time reduce.

As shown in fig. 6, a diaphragm 23 made of elastic material is fixedly installed in the air cavity 20, an exhaust valve 24 is embedded on the diaphragm 23, a control mechanism for controlling the air cavity 20 to exhaust is arranged on the buffer sleeve 19, and an air inlet valve 25 communicated with the outside is embedded on the bottom wall of the air cavity 20.

A chute with an arc bottom wall is arranged on the top wall of the air cavity 20, a baffle plate 26 with an arc bottom wall is slidably arranged in the chute, and a through hole matched with the air pipe 21 is arranged on the baffle plate 26.

By adopting the technical scheme, when the barrel body 1 is inclined or when liquid in the barrel body 1 impacts the inner wall of the barrel body 1, the partition plate 26 moves along the bottom wall of the chute under the action of impact force or inertia, and at the moment, the through hole on the partition plate 26 is misplaced with the bottom end of the air pipe 21, so that the air pipe 21 cannot be communicated with the air cavity 20; at the same time, the gas in the space below the diaphragm 23 in the gas chamber 20 passes through the gas discharge valve 24 to enter the space above the diaphragm 23 in the gas chamber 20, at which time the diaphragm 23 is deformed and the space is in a high pressure state; when the tub 1 is again in the vertical state, the diaphragm 26 is gradually reset, and the through-hole communicates with the air pipe 21, so that the high pressure gas in the space above the diaphragm 23 within the air chamber 20 is discharged through the exhaust pipe 21.

Because the floating plate 17 moves up and down when the barrel body 1 is inclined, the permanent magnet 18 on the floating plate 17 drives the radiating fin 12 to rotate through the magnetic sheet 13 to radiate heat to the mounting plate 4, so in the process, air blowing of the air pipe 21 is not needed to cool the mounting plate 4, when the barrel body 1 keeps stable and the impact force of liquid in the barrel body 1 to the barrel body 1 is smaller, high-pressure air in the space above the diaphragm 23 in the air cavity 20 is discharged and blown to the surface of the mounting plate 4, the time of fast flowing of air on the surface of the mounting plate 4 is prolonged, and the radiating effect of the mounting plate 4 is further improved.

When the cushion cover 19 is not pressed any more, the air chamber 20 is sucked from the outside through the air inlet valve 25, thereby serving as a preparation for re-exhaustion.

As shown in fig. 6, a clamping groove is formed on the outer wall of the barrel body 1, and a buffer sleeve 19 is detachably sleeved in the clamping groove.

By adopting the technical scheme, the buffer sleeve 19 has elasticity, so that the inner diameter of the buffer sleeve 19 can be enlarged by stretching the buffer sleeve 19 in the installation process, so that the buffer sleeve 19 is sleeved outside the clamping groove, and then stretching is stopped, and at the moment, the buffer sleeve 19 is restored and clamped in the clamping groove; since the buffer sleeve 19 is frequently squeezed during use and the buffer sleeve 19 is corroded due to the fact that liquid is easy to splash on the surface of the buffer sleeve 19 during pouring of the liquid, the buffer sleeve 19 can be quickly replaced without replacing the barrel body 1 when the buffer sleeve 19 is damaged by enabling the buffer sleeve 19 to be detachable, and the maintenance cost is reduced.

The using method comprises the following steps: after the barrel body 1 is filled with the chemical liquid, the barrel cover 2 is aligned with the feed inlet of the barrel body 1 and pushes the barrel cover 2 downwards, in the process, the elastic membrane 15 on the inner side wall of the barrel cover 2 is contacted with the outer wall of the barrel body 1, and the elastic membrane 15 is extruded, so that the piston plate 10 moves to a position close to the one-way valve 8 in the cavity 7, then the barrel cover 2 is pushed downwards continuously, the clamping rod 3 is rotated, and the fixing of the barrel cover 2 can be completed by enabling the horizontal section of the clamping rod 3 to be attached to the top wall of the barrel cover 2.

Under the effect of heat exchange, the liquid with higher temperature of the barrel body 1 can transfer heat to the mounting plate 4 made of heat conducting materials through the heat conducting rod 6 and the ball 5, and then is transferred to air with lower external temperature through the mounting plate 4.

Under the action of inertia, the heat conducting rod 6 is kept swaying for a period of time, and in the swaying process of the heat conducting rod 6, the contact probability of the heat conducting rod 6 and high-temperature liquid is increased, and the cooling effect on the liquid in the barrel body 1 is improved; and in the liquid level shaking process, the floating plate 17 moves up and down along the heat conducting rod 6, in the floating process of the floating plate 17, the distance between the permanent magnet 18 and the magnetic sheet 13 is reduced, at the moment, under the action of repulsive force, the magnetic sheet 13 drives the radiating fin 12 to rotate around the hinge point, and in the rotating process of the radiating fin 12, the radiating fin 12 drives air near the top wall of the mounting plate 4 to flow, namely, the air flow rate around the mounting plate 4 is increased, so that the radiating efficiency of the mounting plate 4 is improved.

When the bucket cover 2 reaches a destination and needs to be opened to replace a sealing ring between the bucket cover 2 and a feed port of the bucket body 1, the clamping rod 3 is rotated firstly to enable a horizontal section of the clamping rod 3 to be separated from contact with the bucket cover 2, then the bucket cover 2 is pulled upwards slowly, at the moment, the bucket cover 2 moves upwards along the outer wall of the bucket body 1, a space in the cavity 7, which is positioned on one side of the piston plate 10 close to the one-way valve 8, is sucked from a closed space formed between the bucket body 1 and the bucket cover 2 through the one-way valve 8, at the moment, chemical substances vaporized in the bucket body 1 can be absorbed into the cavity 7, the time of deflation and decompression is shortened, meanwhile, the content of the chemical substances discharged into the outside air is reduced, when a transportation vehicle passes through a bump section to cause liquid in the bucket body 1 to shake greatly, the bucket body 1 is slightly inclined under the action of liquid impact force, therefore, the buffer sleeve 19 on the side wall of the bucket body 1 is extruded, the contact between two adjacent bucket bodies 1 can be prevented under the action of the buffer sleeve 19, the effect of protecting the bucket body 1 is achieved, at the same time, gas in the cavity 20 is discharged through the air pipe 21, and the gas in the air cavity 21 can be discharged through the air pipe 21, the chemical substances vaporized in the air cavity 4 is discharged from the air, and the air flow velocity is increased, and the cooling effect is improved, namely, the cooling effect of the surface 4 is improved, and the cooling effect is achieved, and the mounting plate is the cooling effect is 4; and the gas blown out by the gas pipes 21 which are symmetrically distributed at both sides of the tub 1 can be prevented from striking each other by the annular plate 22, and at this time, the gas discharged from the gas pipes 21 flows along the side walls of the annular plate 22.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (10)

1. A packaging barrel for chemicals, characterized in that: comprising the following steps:

the novel barrel comprises a barrel body (1) and a barrel cover (2), wherein a rectangular feeding hole is formed in the top end of the barrel body (1), the barrel cover (2) is detachably arranged on the top wall of the barrel body (1), and a T-shaped clamping rod (3) is rotatably arranged on the top wall of the barrel body (1); the barrel cover (2) is fixed in the transportation process, so that liquid can be prevented from being spilled;

the cooling mechanism comprises a mounting plate (4) fixedly embedded on the barrel cover (2), a ball (5) is movably embedded on the bottom wall of the mounting plate (4), and a heat conducting rod (6) is vertically and fixedly arranged on the bottom wall of the ball (5); the heat of the liquid in the barrel body (1) is transferred to the outside through the heat conducting rod (6) mounting plate (4), so that the temperature and vaporization amount of the liquid in the barrel body (1) are reduced;

the constant pressure mechanism comprises a cavity (7) formed in the mounting plate (4), a one-way valve (8) is embedded in the side wall of the cavity (7), a one-way pressure valve (9) is embedded in the bottom wall of the cavity (7), a piston plate (10) is slidably mounted in the cavity (7), a spring (11) is arranged between the side wall of the piston plate (10) and the side wall of the cavity (7), and a first driving mechanism matched with the piston plate (10) is arranged on the barrel cover (2); in the uncapping process, the cavity (7) is communicated with the barrel body (1) through the one-way valve (8), and high-pressure gas enters the cavity (7) at the moment, so that the air exhaust and pressure relief time is shortened;

the cooling mechanism comprises a mounting groove formed in the top wall of the mounting plate (4), a radiating fin (12) is hinged in the mounting groove, a magnetic sheet (13) is fixedly embedded on the radiating fin (12), and a second driving mechanism matched with the radiating fin (12) is arranged in the cavity (7); is used for accelerating the air flow rate on the surface of the mounting plate (4) and improving the cooling effect.

2. A packaging barrel for chemicals as claimed in claim 1, wherein: the first driving mechanism comprises a diversion trench (14) arranged on the inner side wall of the barrel cover (2), an elastic membrane (15) is fixedly arranged in the diversion trench (14), and the barrel cover (2) is embedded with a communicating pipe (16) with two ends respectively communicated with the diversion trench (14) and the cavity (7).

3. A packaging barrel for chemicals as claimed in claim 2, wherein: the second driving mechanism comprises a floating plate (17) movably sleeved on the heat conducting rod (6), and a permanent magnet (18) which is mutually exclusive with the magnetic sheet (13) is embedded on the floating plate (17).

4. A packaging barrel for chemicals as claimed in claim 3, wherein: the one-way valve (8) is positioned between the inner top wall of the barrel cover (2) and the diversion trench (14), and the distance between the diversion trench (14) and the bottom wall of the barrel cover (2) and the bottom wall of the mounting plate (4) is 3CM.

5. A packaging barrel for chemicals as claimed in claim 4, wherein: the outer wall of the barrel body (1) is sleeved with a buffer sleeve (19) made of rubber, and the difference between the inner radius and the outer radius of the buffer sleeve (19) is 5 CM to 7CM.

6. A packaging barrel for chemicals as claimed in claim 5, wherein: the buffer sleeve (19) is uniformly provided with an air cavity (20), and the top wall of the air cavity (20) is uniformly and fixedly provided with an air pipe (21) with the top end parallel to the top wall of the barrel cover (2).

7. A packaging barrel for chemicals as claimed in claim 6, wherein: an annular plate (22) is vertically and fixedly arranged on the top wall of the mounting plate (4), and the side wall of the annular plate (22) is an inclined plane.

8. A packaging barrel for chemicals as claimed in claim 7, wherein: the air cavity (20) is internally and fixedly provided with a diaphragm (23) made of elastic materials, the diaphragm (23) is embedded with an exhaust valve (24), the buffer sleeve (19) is provided with a control mechanism for controlling the exhaust of the air cavity (20), and the bottom wall of the air cavity (20) is embedded with an air inlet valve (25) communicated with the outside.

9. A packaging barrel for chemicals as claimed in claim 8, wherein: a chute with an arc bottom wall is formed in the top wall of the air cavity (20), a partition plate (26) with an arc bottom wall is slidably installed in the chute, and a through hole matched with the air pipe (21) is formed in the partition plate (26).

10. A packaging barrel for chemicals as claimed in claim 8, wherein: the outer wall of the barrel body (1) is provided with a clamping groove, and the buffer sleeve (19) is detachably sleeved in the clamping groove.

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