CN113978887A - Self-adaptation temperature prevent chemical products bucket that volatilizees - Google Patents

Abstract

The invention discloses a self-adaptive temperature anti-volatilization chemical storage barrel, which belongs to the technical field of chemical storage, when chemical liquid is filled into a tank body, the tank body can be filled with the chemical liquid, the filled tank body ensures that the chemical liquid has no evaporation space, the loss is reduced, the chemical liquid can be prevented from violently shaking in the tank body during transportation, the phenomenon that the tank body is toppled over is prevented, temperature sensing particles are softened while the chemical liquid is heated and expanded, the chemical liquid can extrude a lifting adjusting block to the inner side of an expansion reaction tank, at the moment, the space in the tank body is enlarged, the damage to the tank body caused by the chemical liquid heated and expanded can be prevented, when the temperature is lower, the lifting adjusting block automatically extends out from the expansion reaction tank and helps a cavity ball to rebound, space is reserved when the chemical liquid is expanded again, when the chemical liquid is contracted when meeting cold, a pressure supply piston can move downwards, at this moment, the space in the tank body becomes small, and the chemical liquid is prevented from causing damage to the tank body when contracting in a cold condition.

Description

Self-adaptation temperature prevent chemical products bucket that volatilizees

Technical Field

The invention relates to the technical field of chemical storage, in particular to a temperature-adaptive anti-volatilization chemical storage barrel.

Background

Chemical engineering is the abbreviation of "chemical process", "chemical industry", "chemical engineering", etc., and all techniques of changing the composition, structure or synthesizing new substances by chemical methods belong to chemical production techniques, i.e. chemical processes, and the obtained products are called chemicals or chemical products.

The chemicals include liquid such as petrol, kerosene, diesel oil, these liquid production back can be put in the storage bucket usually and preserve after finishing, perhaps transport, and chemical liquid is when adding in to the storage bucket, need reserve certain space in the bucket, prevents that chemical liquid from being heated the inflation or causing the damage to the staving when meeting cold contraction.

Reserve in the bucket and have the space and prevent chemical liquid expend with heat and contract with cold, also have certain drawback, if chemical liquid has the evaporation space, chemical liquid after the evaporation is difficult to collect the utilization, has caused the waste, and liquid in the bucket rocks easily during the transportation, has not only aggravated volatilizing of chemical liquid, and the storage bucket is still emptyd easily.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a self-adaptive temperature-based anti-volatilization chemical storage barrel, when chemical liquid is filled into a tank body, the tank body can be filled, the filled tank body not only ensures that the chemical liquid has no evaporation space and reduces loss, but also can avoid the chemical liquid from generating violent shaking in the tank body during transportation, so as to prevent the tank body from dumping, the temperature sensing particles soften while the chemical liquid is heated and expanded, the chemical liquid can extrude a lifting adjusting block to the inner side of an expansion reaction tank, at the moment, the space in the tank body is enlarged, so as to prevent the chemical liquid from being damaged by heating and expanding, and before filling, if the temperature is relatively high, the lifting adjusting block can be automatically contracted into the expansion reaction tank through the arrangement of elastic ropes, organic solution and other devices, so as to increase the filling volume, when the air temperature is lower, the lift regulating block independently stretches out and helps the cavity ball to kick-back from the expansion reaction tank again, has reserved the space for chemical liquid when expanding once more, and when chemical liquid meets the cold shrink, the confession pressure piston can move down again, and at this moment the internal space of jar diminishes, can prevent that chemical liquid from meeting the cold shrink and causing the damage to the jar body.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A temperature-adaptive anti-volatilization chemical storage barrel comprises a tank body, wherein a plurality of expansion reaction grooves are formed in the inner wall of the top end of the tank body, a plurality of contraction reaction tubes are fixedly connected to the top end of the tank body and penetrate through the top end of the tank body, the bottom ends of the contraction reaction tubes are communicated with the tank body, a lifting adjusting block is connected to the inner wall of each expansion reaction groove in a sliding mode, a cavity ball is fixedly connected to the top end of each expansion reaction groove, the bottom end of each cavity ball is attached to the top surface of each lifting adjusting block, a mounting tube is fixedly connected to the top end, close to each expansion reaction groove, of the tank body and each expansion reaction groove, a supporting block is fixedly connected to the inner wall of each mounting tube, a sliding groove is formed between the upper surface and the lower surface of each supporting block, a liquid carrying tube is fixedly connected to the inside of each supporting block, and is located on one side of the sliding groove, sliding connection has the sealing plug on the inner wall of year liquid pipe, the top fixedly connected with C word pole of sealing plug, the one end that C word pole is close to the sealing plug runs through the supporting shoe and carries liquid pipe and sliding connection with it, the one end that C word pole kept away from the sealing plug is located the inboard of spout and sliding connection with it, sliding connection has the connecting rod on the inner wall of spout, the top and the C word pole fixed connection of connecting rod, the bottom fixedly connected with initiative magnetic path of connecting rod, the passive magnetic path of fixedly connected with on the top surface of lift adjustment block, the initiative magnetic path is located passive magnetic path under, sliding connection has the pressure supply piston on the inner wall of shrink reaction tube.

Further, the cavity ball is made for elastic material, the inside packing of cavity ball has the temperature sensing granule, the temperature sensing granule sets up to thermoplastic resin, under the internal circumstances that is filled with chemical liquid in jar, if temperature rising, then the internal pressure grow of jar, the temperature sensing granule softens because of the rising of temperature simultaneously, the internal pressure of jar after the temperature sensing granule softens can promote the lift adjustment piece rebound, reduce the internal pressure of jar, avoided chemical liquid to lead to the jar body to take place deformation because of the thermal expansion, if temperature step-down, then the temperature sensing granule sclerosis of cavity ball when resilience, can play the effect of support to the lift adjustment piece.

Furthermore, an elastic rope is fixedly connected on the inner wall of the mounting pipe, penetrates through the tank body and extends to the lower side of the tank body, the bottom end of the elastic rope is fixedly connected with the top surface of the lifting adjusting block, the elasticity of the elastic rope is larger than that of the cavity ball, when the chemical liquid is not filled in the tank body, if the weather is very hot, the chemical liquid is in an expansion state, most of the lifting adjusting blocks are positioned at the inner side of the expansion reaction tank under the action of the temperature sensing particles, if the expanded chemical liquid is filled into the inner side of the tank body at the moment, the plurality of lifting adjusting blocks can influence the actual volume of the tank body, and through the arrangement of the elastic ropes, under the condition of hot weather, the elastic rope can drive the lifting adjusting block to move upwards and extrude the cavity ball, at this time, the vast majority of the lifting adjusting block is positioned at the inner side of the expansion reaction tank, so that the volume of the tank body can be increased.

Furthermore, one surface of the driving magnetic block, which is close to the driven magnetic block, is set to be a north pole, one surface of the driven magnetic block, which is close to the driving magnetic block, is set to be a north pole, and when the connecting rod moves to the lowest side, the force of mutual repulsion between the driving magnetic block and the driven magnetic block is greater than the elastic force of the elastic rope.

Further, the interior of the liquid carrying pipe is filled with an organic solution, and the organic solution is positioned at the lower side of the sealing plug.

Further, a partition board is hinged to the inner side wall, close to the driving magnetic block, of the installation pipe, a torsion spring is installed at the hinged position of the partition board and the driving magnetic block, specifically, the torsion spring enables the partition board to generate clockwise rotating force, and when the organic solution expands, the partition board is located between the driving magnetic block and the driven magnetic block.

Further, the partition board is made of magnetic shielding material, when chemical liquid is not filled in the tank body and the temperature is high, the elastic rope pulls the lifting adjusting block into the expansion reaction tank and flattens the cavity ball, if the chemical liquid is filled in the tank body and the temperature becomes low, the cavity ball cannot be recovered due to the fact that the elastic force of the cavity ball is smaller than that of the elastic rope, through the arrangement of the organic solution, when the temperature becomes low, the organic solution shrinks and pushes the sealing plug and drives the driving magnetic block to move downwards through the C-shaped rod and the connecting rod, the driving magnetic block pushes the partition board to be in a vertical state when moving downwards, at the moment, the partition board is not shielded, the driving magnetic block and the driven magnetic block are mutually exclusive, the mutual repulsive force between the driving magnetic block and the driven magnetic block is larger than that of the elastic rope, the lifting adjusting block can be pushed to move downwards, and the cavity ball is recovered to the original state, the lifting adjusting block is supported; when the temperature becomes high, the organic solution expands to push the sealing plug and drives the driving magnetic block to move upwards through the C-shaped rod and the connecting rod, the partition board is tightly attached to the lower side of the driving magnetic block under the action of the torsion spring, and the partition board is located between the driving magnetic block and the driven magnetic block to shield the mutual repulsion force between the driving magnetic block and the driven magnetic block, namely the organic solution cannot influence the normal contraction of the lifting adjusting block when the temperature becomes high.

Further, the thermal conductivity of the installation pipe and the supporting block is higher than that of the tank body, the organic solution can preferentially sense the change of temperature to adjust the force between the driving magnetic block and the driven magnetic block through the arrangement of the installation pipe and the supporting block, when the temperature is changed from low to high, if the thermal conductivity of the installation pipe and the supporting block is lower than that of the tank body, the temperature in the tank body can be preferentially increased, meanwhile, the organic solution is not contracted, the driving magnetic block and the driven magnetic block are in a mutual exclusion state, the upward movement of the lifting adjusting block can be influenced, when the thermal conductivity of the installation pipe and the supporting block is higher than that of the tank body, the organic solution preferentially expands, the partition plate is located between the driving magnetic block and the driven magnetic block, the upward movement of the lifting adjusting block cannot be influenced by the driving magnetic block and the driven magnetic block, when the temperature is changed from high to low, the organic solution preferentially contracts to enable the driving magnetic block and the driven magnetic block to be mutually exclusive, the lifting adjusting block is pushed to move downwards to help the cavity ball to recover.

Further, the atmospheric pressure of the upside that supplies to press the piston is less than the atmospheric pressure that supplies to press the piston downside, the one-way pneumatic valve of top fixedly connected with of shrink reaction tube, through the aforesaid setting, under initial condition, because the upside that the piston is located shrink reaction tube is supplied to the effect of atmospheric pressure, when temperature step-down, the internal chemical liquid shrink of jar, at this moment the internal pressure of jar is less than the pressure that supplies to press the piston upside, supply to press the piston to reduce the storage space of the jar body mutually when moving down, a plurality of confessions press the piston when the downstream, can avoid the industrial chemicals to cause the condition of jar body damage when the shrink.

Further, a plurality of heat conduction sticks of fixedly connected with between the upper and lower face of lift regulating block, the heat conduction stick runs through the lift regulating block, the top of heat conduction stick is located the upside of lift regulating block, the bottom of heat conduction stick is located the downside of lift regulating block, and through the setting of heat conduction stick, the heat conduction stick can be with the leading-in expansion reaction tank's of the temperature of the internal chemical industry liquid of jar inboard, makes the temperature change of the jar body chemical industry liquid of perception that the temperature sensing granule can be faster.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) according to the scheme, when chemical liquid is filled into the tank body, the tank body can be filled with the chemical liquid, the filled tank body not only enables the chemical liquid to have no evaporation space, the loss is reduced, but also can avoid the chemical liquid from violently shaking in the tank body during transportation, the phenomenon of toppling over of the tank body is prevented, the temperature sensing particles are softened while the chemical liquid is heated and expanded, the lifting adjusting block can be extruded to the inner side of the expansion reaction tank by the chemical liquid, at the moment, the space in the tank body is enlarged, the damage to the tank body caused by the thermal expansion of the chemical liquid can be prevented, and before filling, if the temperature is relatively high, the lifting adjusting block can be independently contracted into the expansion reaction tank through the arrangement of the elastic ropes, the organic solution and other devices, the filling volume is increased, and when the temperature is low, the lifting adjusting block independently extends out of the expansion reaction tank and helps the cavity ball rebound, the space has been reserved when expanding once more for chemical liquid, and when chemical liquid meets cold the shrink, the confession pressure piston can move down again, and at this moment the internal space of jar diminishes, can prevent that chemical liquid from meeting cold the shrink and causing the damage to the jar body.

(2) The cavity ball is made for elastic material, the inside packing of cavity ball has the temperature sensing granule, the temperature sensing granule sets up to thermoplastic resin, under the circumstances that the internal intussuseption of jar is filled with chemical industry liquid, if temperature rising, then the internal pressure grow of jar, simultaneously the temperature sensing granule softens because of the rising of temperature, the internal pressure of jar after the temperature sensing granule softens can promote the lift adjustment piece rebound, reduce the internal pressure of jar, chemical industry liquid leads to the jar body to take place deformation because of the thermal expansion, if temperature step-down, then the temperature sensing granule sclerosis when the resilience of cavity ball, can play the effect of support to the lift adjustment piece.

(3) Fixedly connected with elasticity rope on the inner wall of installation pipe, the elasticity rope runs through the jar body and extends to the downside of the jar body, the bottom of elasticity rope and the top surface fixed connection of lift adjustment piece, the elasticity of elasticity rope is greater than the elasticity of cavity ball, when the internal condition of chemical liquid that does not fill of jar, if weather is very hot, chemical liquid is the inflation state, and the effect through the temperature sensing granule, the overwhelming majority of lift adjustment piece is located the inboard of inflation reaction tank, if the inboard of the jar body is poured into with expanded chemical liquid this moment, then the actual volume of the jar body can be influenced to a plurality of lift adjustment pieces, setting through the elasticity rope, under the very hot condition of weather, the elasticity rope can drive lift adjustment piece and move on and extrude the cavity ball, at this moment the overwhelming majority of lift adjustment piece is located the inboard of inflation reaction tank, can increase the volume of the jar body.

(4) The face of the driving magnetic block close to the driven magnetic block is set to be a north pole, the face of the driven magnetic block close to the driving magnetic block is set to be a north pole, and when the connecting rod moves to the lowest side, the force of mutual repulsion between the driving magnetic block and the driven magnetic block is larger than the elastic force of the elastic rope.

(5) The installation pipe is hinged to the inner side wall close to the driving magnetic block, a torsional spring is installed at the hinged position of the partition board and the driving magnetic block, specifically, the torsional spring enables the partition board to generate clockwise rotating force, and when the organic solution expands, the partition board is located between the driving magnetic block and the driven magnetic block.

(6) The clapboard is made of magnetic shielding material, when chemical liquid is not filled in the tank body and the temperature is high, the elastic rope pulls the lifting adjusting block into the expansion reaction tank and flattens the cavity ball, if chemical liquid is filled into the tank body and the temperature becomes low, because the elasticity of the cavity ball is less than that of the elastic rope, the cavity ball can not be recovered, when the temperature is low, the organic solution shrinks to push the sealing plug and drive the driving magnetic block to move downwards through the C-shaped rod and the connecting rod, the driving magnetic block pushes the partition plate to be in a vertical state when moving downwards, and the partition plate is not shielded, the driving magnetic block and the driven magnetic block are mutually exclusive, the mutual repulsion force between the driving magnetic block and the driven magnetic block is larger than the elastic force of the elastic rope, the lifting adjusting block can be pushed to move downwards, so that the cavity ball is restored to the original state, and the lifting adjusting block is supported; when the temperature becomes high, the organic solution expands to push the sealing plug and drives the driving magnetic block to move upwards through the C-shaped rod and the connecting rod, the partition board is tightly attached to the lower side of the driving magnetic block under the action of the torsion spring, and the partition board is located between the driving magnetic block and the driven magnetic block to shield the mutual repulsion force between the driving magnetic block and the driven magnetic block, namely the organic solution cannot influence the normal contraction of the lifting adjusting block when the temperature becomes high.

(7) The heat conductivity of the installation pipe and the supporting block is higher than that of the tank body, the installation pipe and the supporting block are arranged, so that the organic solution can preferentially sense the change of temperature to adjust the force between the driving magnetic block and the driven magnetic block, when the temperature is changed from low to high, if the heat conductivity of the installation pipe and the supporting block is lower than that of the tank body, the temperature in the tank body can be preferentially raised, meanwhile, the organic solution is not contracted, the driving magnetic block and the driven magnetic block are in a mutual exclusion state, the upward movement of the lifting adjusting block can be influenced, when the heat conductivity of the installation pipe and the supporting block is higher than that of the tank body, the organic solution preferentially expands, the partition plate is positioned between the driving magnetic block and the driven magnetic block, the upward movement of the lifting adjusting block cannot be influenced by the driving magnetic block and the driven magnetic block, when the temperature is changed from high to low, the organic solution preferentially contracts to enable the driving magnetic block and the driven magnetic block to be mutually exclusive, the lifting adjusting block is pushed to move downwards to help the cavity ball to recover.

(8) The atmospheric pressure of the upside that supplies to press the piston is less than the atmospheric pressure that supplies to press the piston downside, the one-way pneumatic valve of top fixedly connected with of shrink reaction tube, through the aforesaid setting, under initial condition, because the upside that the piston is located shrink reaction tube is supplied to the effect of atmospheric pressure, when temperature step-down, the internal chemical industry liquid shrinkage of jar, at this moment, the internal pressure of jar is less than the pressure that supplies to press the piston upside, supply to press the piston to reduce the storage space of the jar body mutually when moving down, a plurality of confessions press the piston when the downstream, can avoid industrial chemicals to cause the condition of jar body damage when the shrink.

(9) A plurality of heat conduction sticks of fixedly connected with between the upper and lower face of lift regulating block, the heat conduction stick runs through the lift regulating block, and the top of heat conduction stick is located the upside of lift regulating block, and the bottom of heat conduction stick is located the downside of lift regulating block, and through the setting of heat conduction stick, the heat conduction stick can be with the leading-in inflation reaction tank's of the temperature of the internal chemical industry liquid of jar inboard, makes the temperature variation of the jar body chemical industry liquid of perception that the temperature sensing granule can be faster.

Drawings

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

FIG. 2 is a schematic sectional view in elevation of the expansion reaction tank and the installation pipe of the present invention at a low temperature;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic diagram of the front sectional view of the shrinkable reaction tube according to the present invention at a high gas temperature;

FIG. 5 is a schematic sectional view in elevation of the expansion reaction tank and the installation pipe of the present invention at a higher air temperature;

FIG. 6 is a schematic view of the front cross-sectional structure of the shrinkable reaction tube of the present invention at a low gas temperature.

The reference numbers in the figures illustrate:

1. a tank body; 2. an expansion reaction tank; 3. contracting the reaction tube; 4. a lifting adjusting block; 5. installing a pipe; 6. a cavity ball; 7. temperature sensing particles; 8. a heat conducting rod; 9. an elastic cord; 10. a passive magnetic block; 11. a partition plate; 12. a chute; 13. a driving magnetic block; 14. a support block; 15. a liquid carrying tube; 16. a connecting rod; 17. a one-way air valve; 18. a C-shaped rod; 19. a sealing plug; 20. a pressure supply piston.

Detailed Description

The technical solution 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 obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-6, a self-adaptive temperature-based anti-volatilization chemical storage barrel comprises a tank body 1, wherein a plurality of expansion reaction tanks 2 are arranged on the inner wall of the top end of the tank body 1, a plurality of contraction reaction tubes 3 are fixedly connected to the top end of the tank body 1, the contraction reaction tubes 3 penetrate through the top end of the tank body 1, the bottom ends of the contraction reaction tubes 3 are communicated with the tank body 1, lifting adjusting blocks 4 are slidably connected to the inner wall of the expansion reaction tanks 2, the expansion reaction tanks 2 and the lifting adjusting blocks 4 are in a sealed state, cavity balls 6 are fixedly connected to the top ends of the expansion reaction tanks 2, the bottom ends of the cavity balls 6 are attached to the top surfaces of the lifting adjusting blocks 4, the cavity balls 6 are made of an elastic material, temperature sensing particles 7 are filled in the cavity balls 6, a plurality of heat conducting rods 8 are fixedly connected between the upper surface and the lower surface of the lifting adjusting blocks 4, the heat conducting rods 8 penetrate through the lifting adjusting blocks 4, and the top ends of the heat conducting rods 8 are positioned at the upper sides of the lifting adjusting blocks 4, the bottom end of the heat conducting rod 8 is positioned at the lower side of the lifting adjusting block 4, through the arrangement of the heat conducting rod 8, the heat conducting rod 8 can guide the temperature of the chemical liquid in the tank body 1 into the inner side of the expansion reaction tank 2, so that the temperature sensing particles 7 can quickly sense the temperature change of the chemical liquid in the tank body 1, the temperature sensing particles 7 are made of thermoplastic resin, when the chemical liquid is filled in the tank body 1, if the temperature rises, the pressure in the tank body 1 is increased, meanwhile, the temperature sensing particles 7 soften due to the rise of the temperature, the pressure in the tank body 1 after the temperature sensing particles 7 soften can push the lifting adjusting block 4 to move upwards, the pressure in the tank body 1 is reduced, the deformation of the tank body 1 caused by the thermal expansion of the chemical liquid is avoided, if the temperature becomes low, the temperature sensing particles 7 harden while rebounding the cavity ball 6, can play a supporting role for the lifting adjusting block 4, the top end of the tank body 1 close to the expansion reaction tank 2 is fixedly connected with the installation pipe 5, the installation pipe 5 is communicated with the expansion reaction tank 2, a partition plate 11 is hinged on the inner side wall of the installation pipe 5 close to the driving magnetic block 13, a torsion spring is installed at the hinged position of the partition plate 11 and the driving magnetic block 13, specifically, the torsion spring can enable the partition plate 11 to generate clockwise rotation force, when the organic solution expands, the partition plate 11 is located between the driving magnetic block 13 and the driven magnetic block 10, a supporting block 14 is fixedly connected on the inner wall of the installation pipe 5, a chute 12 is formed between the upper surface and the lower surface of the supporting block 14, a liquid carrying pipe 15 is fixedly connected inside the supporting block 14, the liquid carrying pipe 15 is located on one side of the chute 12, a sealing plug 19 is connected on the inner wall of the liquid carrying pipe 15 in a sliding mode, the organic solution is filled inside the liquid carrying pipe 15, the organic solution is located on the lower side of the sealing plug 19, a C-shaped rod 18 is fixedly connected at the top end of the sealing plug 19, one end of the C-shaped rod 18 close to the sealing plug 19 penetrates through the supporting block 14 and is connected with the liquid carrying pipe 15 in a sliding mode, one end, far away from the sealing plug 19, of the C-shaped rod 18 is located on the inner side of the sliding groove 12 and is in sliding connection with the sliding groove, the inner wall of the sliding groove 12 is connected with a connecting rod 16 in a sliding mode, the top end of the connecting rod 16 is fixedly connected with the C-shaped rod 18, the bottom end of the connecting rod 16 is fixedly connected with a driving magnetic block 13, the top surface of the lifting adjusting block 4 is fixedly connected with a driven magnetic block 10, the driving magnetic block 13 is located on the right lower side of the driven magnetic block 10, and the inner wall of the shrinkage reaction tube 3 is connected with a pressure supply piston 20 in a sliding mode.

Referring to fig. 2 and 5, an elastic rope 9 is fixedly connected to an inner wall of the installation pipe 5, the elastic rope 9 penetrates through the tank body 1 and extends to a lower side of the tank body 1, a bottom end of the elastic rope 9 is fixedly connected to a top surface of the lifting adjusting block 4, an elastic force of the elastic rope 9 is greater than an elastic force of the cavity ball 6, when the tank body 1 is not filled with chemical liquid, if the chemical liquid is in an expansion state due to hot weather, most of the lifting adjusting block 4 is located inside the expansion reaction tank 2 under the action of the temperature sensing particles 7, if the expanded chemical liquid is filled inside the tank body 1, the plurality of lifting adjusting blocks 4 affect an actual volume of the tank body 1, and due to the arrangement of the elastic rope 9, the elastic rope 9 can drive the lifting adjusting block 4 to move upwards and press the cavity ball 6 under the hot weather, most of the lifting adjusting block 4 is located inside the expansion reaction tank 2, the volume of the tank body 1 can be increased.

Referring to fig. 2-3 and 5, one surface of the driving magnetic block 13 close to the driven magnetic block 10 is set to be a north pole, one surface of the driven magnetic block 10 close to the driving magnetic block 13 is set to be a north pole, when the connecting rod 16 moves to the lowest side, the repulsive force between the driving magnetic block 13 and the driven magnetic block 10 is larger than the elastic force of the elastic rope 9, the partition plate 11 is made of a magnetic shielding material, when the tank 1 is not filled with chemical liquid and the temperature is high, the elastic rope 9 pulls the lift adjusting block 4 into the expansion reaction tank 2 and crushes the cavity ball 6, if the tank 1 is filled with chemical liquid and the temperature becomes low, the cavity ball 6 cannot be recovered because the elastic force of the cavity ball 6 is smaller than the elastic force of the elastic rope 9, and through the setting of the organic solution, the organic solution shrinks to push the sealing plug 19 and drives the driving magnetic block 13 to move downwards through the C-shaped rod 18 and the connecting rod 16, when the driving magnetic block 13 moves downwards, the partition plate 11 is pushed to be in a vertical state, at the moment, the partition plate 11 is not shielded, the driving magnetic block 13 and the driven magnetic block 10 are mutually exclusive, the mutual repulsive force between the driving magnetic block 13 and the driven magnetic block 10 is larger than the elastic force of the elastic rope 9, the lifting adjusting block 4 can be pushed to move downwards, the cavity ball 6 is restored to the original state, and the lifting adjusting block 4 is supported; when the temperature becomes high, the organic solution expands to push the sealing plug 19 and drives the driving magnetic block 13 to move upwards through the C-shaped rod 18 and the connecting rod 16, the partition plate 11 is tightly attached to the lower side of the driving magnetic block 13 under the action of the torsion spring, and at the moment, the partition plate 11 is positioned between the driving magnetic block 13 and the driven magnetic block 10, so that the mutually exclusive force between the driving magnetic block 13 and the driven magnetic block 10 can be shielded, namely, the organic solution cannot influence the normal contraction of the lifting adjusting block 4 when the temperature becomes high.

Referring to fig. 2-3 and 5, the thermal conductivity of the mounting pipe 5 and the supporting block 14 is stronger than that of the tank 1, the organic solution can preferentially sense the change of temperature to adjust the force between the driving magnetic block 13 and the driven magnetic block 10 by arranging the mounting pipe 5 and the supporting block 14, when the temperature is changed from low to high, if the thermal conductivity of the mounting pipe 5 and the supporting block 14 is lower than that of the tank 1, the temperature in the tank 1 will preferentially rise, and the organic solution is not yet contracted, at this time, the driving magnetic block 13 and the driven magnetic block 10 are in a mutually exclusive state, which will affect the upward movement of the lifting adjusting block 4, and when the thermal conductivity of the mounting pipe 5 and the supporting block 14 is stronger than that of the tank 1, the organic solution will preferentially expand, at this time, the partition plate 11 is located between the driving magnetic block 13 and the driven magnetic block 10, the driving magnetic block 13 and the driven magnetic block 10 will not affect the upward movement of the lifting adjusting block 4, similarly, when the temperature is changed from high to low, the organic solution is preferentially contracted to enable the driving magnetic block 13 and the driven magnetic block 10 to be mutually exclusive, so that the lifting adjusting block 4 is pushed to move downwards to help the cavity ball 6 to recover.

Referring to fig. 4 and 6, the air pressure on the upper side of the pressure supply piston 20 is smaller than the air pressure on the lower side of the pressure supply piston 20, and the top end of the shrinkage reaction tube 3 is fixedly connected with the one-way air valve 17, through the above arrangement, in the initial state, because the pressure supply piston 20 is located on the upper side of the shrinkage reaction tube 3 under the action of the air pressure, when the air temperature becomes low, the chemical liquid in the tank body 1 shrinks, and at this time, the pressure in the tank body 1 is smaller than the pressure on the upper side of the pressure supply piston 20, the storage space of the tank body 1 is reduced when the pressure supply piston 20 moves downwards, and when the plurality of pressure supply pistons 20 move downwards, the situation that the chemical raw materials are damaged when shrinking the tank body 1 can be avoided.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (10)

1. The utility model provides a self-adaptation temperature's volatilization prevention chemicals storage bucket, includes jar body (1), its characterized in that: the tank is characterized in that a plurality of expansion reaction tanks (2) are arranged on the inner wall of the top end of the tank body (1), a plurality of contraction reaction pipes (3) are fixedly connected to the top end of the tank body (1), the contraction reaction pipes (3) penetrate through the top end of the tank body (1), the bottom ends of the contraction reaction pipes (3) are communicated with the tank body (1), lifting adjusting blocks (4) are connected to the inner wall of the expansion reaction tanks (2) in a sliding mode, cavity balls (6) are fixedly connected to the top ends of the expansion reaction tanks (2), the bottom ends of the cavity balls (6) are attached to the top surfaces of the lifting adjusting blocks (4), mounting pipes (5) are fixedly connected to the top ends of the tank body (1) close to the expansion reaction tanks (2), the mounting pipes (5) are communicated with the expansion reaction tanks (2), supporting blocks (14) are fixedly connected to the inner wall of the mounting pipes (5), and sliding grooves (12) are arranged between the upper surface and the lower surface of the supporting blocks (14), the inside fixed connection of supporting shoe (14) has liquid carrying pipe (15), liquid carrying pipe (15) is located one side of spout (12), sliding connection has sealing plug (19) on the inner wall of liquid carrying pipe (15), the top fixed connection of sealing plug (19) has C word pole (18), the one end that C word pole (18) is close to sealing plug (19) runs through supporting shoe (14) and liquid carrying pipe (15) and sliding connection with it, the one end that C word pole (18) keep away from sealing plug (19) is located the inboard of spout (12) and sliding connection with it, sliding connection has connecting rod (16) on the inner wall of spout (12), the top and the C word pole (18) fixed connection of connecting rod (16), the bottom fixed connection of connecting rod (16) has initiative magnetic path (13), fixed connection has passive magnetic path (10) on the top surface of lift adjustment block (4), the driving magnetic block (13) is positioned right under the driven magnetic block (10), and the inner wall of the contraction reaction tube (3) is connected with a pressure supply piston (20) in a sliding manner.

2. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: the temperature sensing ball is characterized in that the cavity ball (6) is made of an elastic material, temperature sensing particles (7) are filled in the cavity ball (6), and the temperature sensing particles (7) are made of thermoplastic resin.

3. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: the utility model discloses a safe and convenient installation of jar, including installation pipe (5), fixed connection elastic cord (9) on the inner wall of installation pipe (5), elastic cord (9) run through jar body (1) and extend to the downside of jar body (1), the bottom of elastic cord (9) and the top surface fixed connection of lift regulating block (4), the elasticity of elastic cord (9) is greater than the elasticity of cavity ball (6).

4. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: one surface of the driving magnetic block (13) close to the driven magnetic block (10) is set to be a north pole, and one surface of the driven magnetic block (10) close to the driving magnetic block (13) is set to be a north pole.

5. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: the interior of the liquid carrying tube (15) is filled with an organic solution, which is located on the lower side of the sealing plug (19).

6. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: a partition plate (11) is hinged to the inner side wall, close to the driving magnetic block (13), of the installation pipe (5), and a torsion spring is installed at the hinged position of the partition plate (11) and the driving magnetic block (13).

7. The anti-volatilization chemical storage barrel with the adaptive temperature as set forth in claim 6, wherein the anti-volatilization chemical storage barrel comprises: the partition plate (11) is made of magnetic shielding materials.

8. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: the thermal conductivity of the mounting pipe (5) and the supporting block (14) is stronger than that of the tank body (1).

9. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: the air pressure on the upper side of the pressure supply piston (20) is smaller than the air pressure on the lower side of the pressure supply piston (20), and the top end of the contraction reaction tube (3) is fixedly connected with a one-way air valve (17).

10. The anti-volatilization chemical storage barrel with the self-adaptive temperature as set forth in claim 1, wherein the anti-volatilization chemical storage barrel comprises: a plurality of heat conduction rods (8) are fixedly connected between the upper surface and the lower surface of the lifting adjusting block (4), the heat conduction rods (8) penetrate through the lifting adjusting block (4), the top ends of the heat conduction rods (8) are located on the upper side of the lifting adjusting block (4), and the bottom ends of the heat conduction rods (8) are located on the lower side of the lifting adjusting block (4).

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