阅读说明：本技术 一种磁吸式真空瓶及其加工工艺 (Magnetic vacuum bottle and processing technology thereof ) 是由 沈洁 于 2021-09-28 设计创作，主要内容包括：本发明公开了一种磁吸式真空瓶,包括瓶身和设于所述瓶身顶部的瓶盖,所述瓶身内设有泵芯,所述瓶盖上设有第一磁块,所述瓶身上设有第二磁块,所述第一磁块和所述第二磁块均为环形节后,所述第一磁块和所述第二磁块的磁性相吸；使用者在将瓶内液体挤在手上后,单手将瓶盖盖上,第一磁块和第二磁块的设置下,将瓶盖稳定的吸附在瓶身上,从而起到固定瓶盖的作用,保证瓶盖与瓶身的配合效果,对泵芯的出液口起到良好保护作用,避免杂质污染液体；在第一磁块和第二磁块的配合下,只需轻轻将瓶盖盖在瓶身上即可实现瓶身和瓶盖的固定,利于使用者单手操作,减小盖紧瓶盖所需力,使真空瓶的使用更加方便。(The invention discloses a magnetic suction type vacuum bottle which comprises a bottle body and a bottle cap arranged at the top of the bottle body, wherein a pump core is arranged in the bottle body, a first magnetic block is arranged on the bottle cap, a second magnetic block is arranged on the bottle body, and after the first magnetic block and the second magnetic block are both annular sections, the magnetism of the first magnetic block and the magnetism of the second magnetic block are attracted; after a user squeezes liquid in the bottle on the hand, the bottle cap is covered by one hand, and the bottle cap is stably adsorbed on the bottle body under the arrangement of the first magnetic block and the second magnetic block, so that the effect of fixing the bottle cap is achieved, the matching effect of the bottle cap and the bottle body is ensured, the liquid outlet of the pump core is well protected, and the liquid is prevented from being polluted by impurities; under the cooperation of first magnetic path and second magnetic path, only need gently cover the bottle lid and can realize the fixed of body and bottle lid on the body, do benefit to user's one-hand operation, reduce the required power of the tight bottle lid of lid, make the use of vacuum bottle more convenient.)

1. The utility model provides a formula vacuum flask is inhaled to magnetism, includes body (51) and locates bottle lid (52) at body (51) top, be equipped with pump core (53) in body (51), its characterized in that: the bottle cap (52) is provided with a first magnetic block (521), the bottle body (51) is provided with a second magnetic block (511), and after the first magnetic block (521) and the second magnetic block (511) are both annular sections, the magnetism of the first magnetic block (521) and the magnetism of the second magnetic block (511) attract each other.

2. A process for producing the magnetic vacuum flask of claim 1, characterized in that: the method comprises the following steps:

a. preparing a bottle blank;

b. putting the manufactured bottle blanks into a storage box (2);

c. putting the storage box (2) filled with the bottle blanks into the cleaning box (1), and pouring clear water into the storage box (2);

d. the starting motor (34) drives the stirring assembly to rotate, the stirring assembly stirs water flow to form a vortex in the storage box (2), and the baffle (4) enters the storage box (2) discontinuously; when the baffle (4) is positioned in the material storage box (2), the bottle embryo rotating along with the vortex abuts against the baffle (4), and water flow cleans the bottle embryo from the bottle embryo; when the baffle (4) is positioned outside the storage box (2), the bottle blank rotates in the storage box (2) along with the vortex; after the baffle (4) extends into the material storage box (2) for a specified number of times, the cleaning step of the bottle blank is completed;

e. discharging water flow in the cleaning box (1), taking out the storage box (2) from the cleaning box (1), and feeding the storage box (2) and the bottle blank into a drying chamber for drying treatment.

3. The processing technology of the magnetic vacuum bottle as claimed in claim 2, wherein the processing technology comprises the following steps: a first connecting block (11) is arranged on the side wall of the cleaning box (1), a first movable cavity communicated with the cleaning box (1) is arranged on the first connecting block (11), the baffle (4) is arranged in the first movable cavity, and a first through groove matched with the baffle (4) is arranged on the side wall of the storage box (2); the stirring assembly comprises a first connecting shaft (22) penetrating the bottom of the storage box (2) and a plurality of stirring rods (222) arranged on the connecting shaft, a connecting disc (221) is arranged on the first connecting shaft (22), a first transmission shaft (14) penetrates the bottom of the cleaning box (1), a first transmission groove matched with the first transmission shaft (14) is formed in the bottom of the first connecting shaft (22), and the first transmission shaft (14) can drive the baffle (4) to reciprocate in the first movable cavity; after storage case (2) was put into and is washd case (1), first transmission shaft (14) were inserted in first transmission groove, motor (34) are starting back drive first connecting axle (22) and are rotated, puddler (222) mix rivers, rivers rotate along with puddler (222) orientation, drive baffle (4) when first transmission shaft (14) rotate and are in first activity intracavity discontinuity removal, baffle (4) discontinuity stretches into in storage case (2), the bottle embryo that will be in the motion state blocks, rivers and bottle embryo take place relative motion, do the washing to the bottle embryo, when baffle (4) stretch into storage case (2) at every turn, the bottle embryo supports on baffle (4) with different angles, accomplish the washing to whole bottle embryo.

4. The processing technology of the magnetic vacuum bottle as claimed in claim 2, wherein the processing technology comprises the following steps: a first cavity and a plurality of first through holes are formed in the baffle (4), the first through holes penetrate through the first cavity, a sieve plate (48) is arranged in the first cavity, the sieve plate (48) is made of elastic materials, a first sliding block is arranged on the sieve plate (48), and a first sliding groove matched with the first sliding block is formed in the inner wall of the first cavity; an access hole is formed in the side wall of the first movable cavity, and a sealing door (110) is arranged in the access hole; a water storage tank (3) is arranged below the cleaning tank (1), the first movable cavity is communicated with the water storage tank (3) through a first water conveying pipe (120), the water storage tank (3) is communicated with the material storage tank (2) through a second water conveying pipe, and a first push plate (31) capable of moving up and down is arranged in the water storage tank (3); after the baffle (4) extends into the material storage box (2), water flow in the material storage box (2) enters the first movable cavity from the first through hole and the first cavity, impurities washed from the bottle embryo enter the first cavity along with the water flow, the sieve plate (48) blocks the impurities in the water flow, and the impurities are left in the first cavity; when the baffle (4) enters the installed first movable cavity, water flow and impurities in the first cavity enter the first movable cavity together with the baffle (4), after the baffle (4) completely enters the first movable cavity, the water flow in the first movable cavity carries the impurities to enter the water storage tank (3) from the first water conveying pipe (120), and at the moment, the first push plate (31) is positioned at the bottom of the water storage tank (3); when baffle (4) reentrant storage tank (2) in, the rivers in first push pedal (31) upward movement extrusion storage tank (3), rivers are squeezed into storage tank (2) from second raceway department, and impurity is stayed in storage tank (3), gets rid of some impurity in the storage vat.

5. The processing technology of the magnetic vacuum bottle as claimed in claim 4, wherein the processing technology comprises the following steps: a second connecting block (49) is arranged on the inner wall of the first cavity, a first movable groove is formed in the second connecting block (49), a first push block (491) is arranged in the first movable groove, a first connecting spring is arranged on the first push block (491), a second movable cavity is arranged above the first movable groove, a second push plate (493) used for pushing the first push block (491) to move towards the outer side of the first movable groove is arranged in the second movable cavity, an air pump (12) communicated with the second movable cavity is arranged at the top of the first connecting block (11), and an air outlet hole communicated with the first cavity is formed in the bottom of the second movable cavity; when the motor (34) is started, the air pump (12) is also started simultaneously; when the baffle (4) enters the material storage box (2), the air pump (12) introduces air flow into the second movable cavity, the air pressure in the second movable cavity is increased to push the second push plate (493) to move, the second push plate (493) moves to drive the first push block (491) to move towards the outer side of the first movable groove, and the first push block (491) impacts on the sieve plate (48) to shake off impurities on the sieve plate (48); after the second push plate (493) moves to a designated position, the air outlet is opened, air in the second movable cavity flows out from the air outlet, air bubbles float out from the first through hole, the bottle blank which is propped against the baffle plate (4) is pushed to move, the position of the bottle blank on the baffle plate (4) is adjusted, and the bottle blank is cleaned in multiple surfaces; when baffle (4) entered into first activity intracavity, first ejector pad (491) striking was on sieve (48), and the bubble enters into and stirs the rivers in first activity intracavity in the first cavity, and impurity suspension is in first activity intracavity, and the rivers in first activity intracavity carry impurity to enter into storage water tank (3) from first raceway (120) together, with the impurity discharge in the first activity intracavity.

6. The processing technology of the magnetic vacuum bottle as claimed in claim 5, wherein the processing technology comprises the following steps: a second movable groove is formed in the top of the first movable groove, a first connecting rod (492) is arranged in the second movable groove, the middle of the first connecting rod (492) is rotatably connected to the inner wall of the second movable groove, and one end of the first connecting rod (492) is hinged to the side wall of the first push block (491); a second connecting spring and a first push rod (4931) are arranged on the side wall of the second push plate (493), and the first push rod (4931) is arranged in the second movable groove in a penetrating mode; a first air transmission cavity is arranged on the baffle (4), a second air transmission cavity communicated with the second movable cavity is arranged on the side wall of the first air transmission cavity, a fourth movable cavity is arranged on the side wall of the second air transmission cavity, a first sealing plate (498) is arranged in the fourth movable cavity, a second through groove is arranged on the first baffle (4), a third movable groove communicated with the second movable cavity is arranged at the bottom of the fourth movable cavity, and a third push plate (4981) is arranged at the bottom of the first sealing plate (498); a third movable cavity is arranged on the side wall of the air outlet, a second sealing plate (497) is arranged in the third movable cavity, a fourth movable groove is formed in the top of the third movable cavity, and a fourth push plate is arranged on the second sealing plate (497); when the air flow enters the second movable cavity, the second air delivery cavity is in an open state, the air outlet is in a closed state, the air pushes the second push plate (493) to move after entering the second movable cavity, the second push plate (493) pushes the third push plate (4981) and the fourth push plate to move when moving, the first sealing plate (498) and the second sealing plate (497) move along with the movement of the second push plate (493), the second through groove is staggered with the second air delivery cavity, the second sealing plate (497) moves away from the air outlet, the second air delivery cavity is closed, the air outlet is opened, the air in the second movable cavity floats out of the air outlet, and air bubbles enter the first cavity to primarily clean impurities on the sieve plate (48); after the air in the second movable cavity is exhausted, the second connecting spring pulls the second push plate (493) to move back, the first push rod (4931) pushes one end of the first connecting rod (492) to rotate, the first connecting rod (492) pushes the first push block (491) to move out of the first movable groove, the first push block (491) impacts on the sieve plate (48), vibration is generated on the sieve plate (48) to shake off impurities on the sieve plate (48), and the sieve plate (48) is cleaned.

7. The processing technology of the magnetic vacuum bottle as claimed in claim 6, wherein the processing technology comprises the following steps: a fifth movable groove is formed in the bottom of the second movable cavity, a third connecting spring (4961) is arranged in the fifth movable groove, a first limiting block (496) is arranged at the top of the third connecting spring (4961), and a first inclined surface is arranged on the first limiting block (496); a second cavity is formed in the side wall of the second movable cavity, a fifth push plate (4941) is arranged in the second cavity, a fourth connecting spring (4942) is arranged on the side wall of one side of the fifth push plate (4941), a second push rod is arranged on the side wall of the other side of the fifth push plate, the second push rod penetrates through the second movable cavity, a sixth movable groove is formed in the second push rod, a fifth connecting spring (4944) is arranged in the sixth movable groove, a second push block (4943) is arranged at one end of the fifth connecting spring (4944), and the elasticity of the fifth connecting spring (4944) is larger than that of the fourth connecting spring (4942); the second cavity is filled with hydraulic oil, and a plurality of second through holes are formed in the fifth push plate (4941); a seventh movable groove is formed in the side wall of the second cavity, a sixth connecting spring (4951) is arranged in the seventh movable groove, a third push block (495) is arranged at one end of the sixth connecting spring (4951), a first connecting rope is arranged on the third push block (495), and one end of the first connecting rope is fixedly connected to the bottom of the first limiting block (496); when the second push plate (493) moves in the second movable cavity, the second push plate (493) abuts against the second push block (4943), hydraulic oil flows through the second through hole, the resistance of the hydraulic oil to the fifth push plate (4941) and the elastic force of the fourth connecting spring (4942) are comprehensively larger than the elastic force of the fifth spring, the second push block (4943) moves towards the sixth movable groove, the second push rod is pushed to continue moving after the second push block (4943) completely enters the sixth movable groove, when the second push plate (493) moves to one side of the first limiting block (496), the air outlet is opened, the fifth push plate (4941) moves to one side of the third push block (495), air in the second movable cavity is exhausted from the air outlet, the fifth connecting spring (4944) pushes the second push rod to continue moving, and when the air in the second movable cavity is exhausted, the fifth push plate (4941) pushes the third push block (495) to move, and the first connecting rope pulls the first limiting block (496) to move towards the fifth movable groove, the second push plate (493) loses spacing, the second connecting spring pulls the second push plate (493) to move back, the first push rod (4931) pushes the first connecting rod (492) to rotate, the first connecting rod (492) pushes the first push block (491) to move towards the outer side of the first movable groove, the first push block (491) impacts on the sieve plate (48), and the sieve plate (48) vibrates to shake off impurities on the sieve plate (48).

8. The processing technology of the magnetic vacuum bottle as claimed in claim 2, wherein the processing technology comprises the following steps: first movable chamber bottom is equipped with eighth movable groove, baffle (4) bottom is equipped with second connecting rod (41), second connecting rod (41) are worn to locate eighth movable inslot, second connecting rod (41) bottom is equipped with third connecting block (42), be equipped with third connecting rod (43) and fourth connecting rod (44) on third connecting block (42), be equipped with ninth movable groove on third connecting rod (43), be equipped with tenth movable groove on fourth connecting rod (44), be equipped with in the ninth movable groove with first transmission shaft (14) matched with first transmission piece (45), be equipped with in the tenth movable groove with first transmission shaft (14) matched with second transmission piece, be equipped with the annular on first transmission shaft (14), be equipped with seventh connecting spring (451) on first transmission piece (45), third connecting rod (43) with fourth connecting rod (44) are located respectively first transmission shaft (14) ) Two sides; when the baffle (4) is positioned in the first movable cavity, the first transmission block (45) is positioned on one side of the first transmission shaft (14), the second transmission block is positioned on one side of the annular groove, the first transmission shaft (14) drives the first transmission block (45) to move when rotating, the baffle (4) moves along with the first transmission block (45), and the baffle (4) enters the storage box (2); baffle (4) enter into in the storage case (2) back, first transmission piece (45) up-going motion, first drive wheel removes to annular one side, second transmission piece down-going motion to first transmission shaft (14) one side, first transmission shaft (14) and second transmission piece form the transmission cooperation, second transmission piece drives baffle (4) and removes toward first activity intracavity, baffle (4) enter into first activity intracavity back again, the second transmission piece rises, first transmission piece (45) descend, accomplish the reciprocating motion of baffle (4).

9. The processing technology of the magnetic vacuum bottle as claimed in claim 8, wherein the processing technology comprises the following steps: a third through groove is formed in the side wall of the ninth movable groove, a limiting rod (46) is rotatably connected in the third through groove, a stop block (19) matched with the limiting rod (46) is arranged at the bottom of the cleaning box (1), an eleventh movable groove and a twelfth movable groove are formed in the bottom of the cleaning box (1), the eleventh movable groove is formed above the third connecting rod (43), the twelfth movable groove is formed above the fourth connecting rod (44), a fourth through groove is formed in the top of the ninth movable groove, a sixth push plate (47) penetrates through the fourth through groove, a second sliding groove is formed in the side wall of the sixth push plate (47), a second sliding block (431) matched with the second sliding groove is arranged on the inner wall of the fourth through groove, and a reset spring (432) is arranged on the second sliding block (431); a seventh push plate (13) is arranged at one end of the eleventh movable groove, an eighth push plate (14) is arranged at the other end of the eleventh movable groove, a sixth push plate (47), a seventh push plate (13), an eighth push plate (14) and a limiting rod (46) are also arranged in the twelfth movable groove, and the seventh push plate (13) and the eighth push plate (14) in the eleventh movable groove and the twelfth movable groove are opposite in position; when the baffle (4) is positioned in the first movable cavity, the first transmission block (45) is positioned at the bottom of the ninth movable groove, the sixth push plate (47) on the third connecting rod (43) is positioned in the ninth movable groove, the second transmission block is positioned at the top of the tenth movable groove, the sixth push plate (47) on the fourth connecting rod (44) extends out of the tenth movable groove, and one end of the sixth push plate is inserted into the twelfth movable groove; the first transmission shaft (14) drives the first transmission block (45) to move when rotating, the two limit rods (46) are respectively inserted into the ninth movable groove and the tenth movable groove, the baffle (4) extends into the storage box (2), the limit rods (46) move to one side of the stop block (19), the third connecting rod (43) and the fourth connecting rod (44) move relative to the stop block (19), the limit rods (46) rotate to enter the third movable groove, the first transmission block (45) moves upwards after losing limit, the first transmission block (45) pushes the sixth push plate (47) to move upwards, the sixth push plate (47) moves upwards to push the seventh push plate (13) in the eleventh movable groove, the eighth push plate (14) in the twelfth movable groove moves downwards, the eighth push plate (14) in the twelfth movable groove pushes the sixth push plate (47) on the fourth connecting rod (44) to move downwards, and a sixth push plate (47) on the fourth connecting rod (44) pushes the second transmission block to move downwards, the second transmission wheel is contacted with the side wall of the first transmission shaft (14), and the first transmission shaft (14) rotates to drive the baffle (4) to move towards the first movable cavity, so that the reset of the baffle (4) is completed.

10. The processing technology of the magnetic vacuum bottle as claimed in claim 9, wherein the processing technology comprises the following steps: thirteenth movable grooves are respectively formed in two sides of the first transmission shaft (14), a movable block (16) is arranged in each thirteenth movable groove, a fourteenth movable groove is formed in the side wall of each movable block (16), a fifteenth movable groove is formed in the bottom of each fourteenth movable groove, a fifth connecting rod (1611) is arranged in each fourteenth movable groove, an eighth connecting spring (1612) is arranged on each fifth connecting rod (1611), a sixth connecting rod is further arranged on each fifth connecting rod (1611) and penetrates out of each fifteenth movable groove, a third transmission block (161) is arranged on each sixth connecting rod, a sixteenth movable groove is formed in the inner wall of each thirteenth movable groove, a ninth push plate (18) is arranged in each sixteenth movable groove, a ninth connecting spring (181) is arranged on each ninth push plate (18), a tenth connecting spring (131) and a first air bag (132) are arranged at the top of each seventh push plate (13), the first air bag (132) is communicated with the sixteenth movable groove; a second air bag (17) is arranged in the thirteenth movable groove, and a telescopic pipe (141) and an eleventh connecting spring (142) which are communicated with the second air bag (17) are arranged at the top of the eighth push plate (14); when the first transmission shaft (14) contacts with the first transmission block (45) to drive the baffle (4) to move towards the storage box (2), the limiting rod (46) moves to one side of the stop block (19) and then rotates, the first transmission block (45) moves upwards to push the sixth push plate (47) to move upwards, the sixth push plate (47) pushes the seventh push plate (13) to move upwards, the seventh push plate (13) extrudes the first air bag (132), air in the first air bag (132) enters the sixteenth movable groove, the air pressure pushes the ninth push plate (18) to move, the ninth push plate (18) is inserted into the fourteenth movable groove to push the fifth connecting rod (1611) to move, the third transmission block (161) moves towards the first transmission shaft (14), the third transmission block (161) contacts with the first transmission shaft (14), the first transmission shaft (14) drives the third transmission block (161) to move, and the movable block (16) extrudes the second air bag (17), air in the second air bag (17) enters the telescopic pipe (141) to push the eighth push plate (14) in the twelfth movable groove to move downwards, the eighth push plate (14) in the twelfth movable groove pushes the sixth push plate (47) on the fourth connecting rod (44) to move downwards, so that the second transmission block is in contact with the side wall of the first transmission shaft (14), the first transmission shaft (14) drives the baffle (4) to move towards the first movable cavity, and the reset of the baffle (4) is completed.

Technical Field

The invention belongs to the technical field of flue gas monitoring, and particularly relates to a magnetic vacuum bottle and a processing technology thereof.

Background

The cosmetic is a chemical industrial product or a fine chemical product which is applied to any part of the surface of a human body, such as skin, hair, nails, lips and teeth, by smearing, spraying or the like, so as to achieve the purposes of cleaning, maintaining, beautifying, decorating and changing the appearance, or correcting the odor of the human body and keeping a good state.

Cosmetics are generally placed in a container, because the components of certain cosmetics are special and need to be stored in vacuum, the cosmetics need to be stored by using a vacuum bottle, the top of the vacuum bottle is generally provided with a liquid outlet for extruding liquid in the bottle, a user generally extrudes the liquid on the hand, the bottle cap can be covered by only using the other hand, the bottle cap is inconvenient to tightly cover when the bottle cap is operated by one hand, and the cosmetics are easily polluted by being overturned when the cap is accidentally touched, so that the use is inconvenient.

Disclosure of Invention

The invention provides a magnetic vacuum bottle and a processing technology thereof, aiming at overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a magnetic suction type vacuum bottle comprises a bottle body and a bottle cap arranged at the top of the bottle body, wherein a pump core is arranged in the bottle body, a first magnetic block is arranged on the bottle cap, a second magnetic block is arranged on the bottle body, and after the first magnetic block and the second magnetic block are both annular sections, the magnetism of the first magnetic block and the magnetism of the second magnetic block are attracted; after a user squeezes liquid in the bottle on the hand, the bottle cap is covered by one hand, and the bottle cap is stably adsorbed on the bottle body under the arrangement of the first magnetic block and the second magnetic block, so that the effect of fixing the bottle cap is achieved, the matching effect of the bottle cap and the bottle body is ensured, the liquid outlet of the pump core is well protected, and the liquid is prevented from being polluted by impurities; under the cooperation of first magnetic path and second magnetic path, only need gently cover the bottle lid and can realize the fixed of body and bottle lid on the body, do benefit to user's one-hand operation, reduce the required power of the tight bottle lid of lid, make the use of vacuum bottle more convenient.

A processing technology for producing the magnetic suction type vacuum bottle comprises the following steps:

a. preparing a bottle blank;

b. putting the manufactured bottle blank into a storage box;

c. putting the storage box filled with the bottle blanks into a cleaning box, and pouring clear water into the storage box;

d. starting a motor to drive the stirring assembly to rotate, wherein the stirring assembly stirs water flow to form a vortex in the material storage box, and the baffle plate enters the material storage box discontinuously; when the baffle is positioned in the material storage box, the bottle blanks rotating along with the vortex abut against the baffle, and water flow cleans the bottle blanks from the bottle blanks; when the baffle is positioned outside the storage box, the bottle blank rotates in the storage box along with the vortex; after the baffle plate extends into the material storage box for a specified number of times, the cleaning step of the bottle blank is completed; e. discharging water flow in the cleaning box, taking out the material storage box from the cleaning box, and feeding the material storage box and the bottle blank into a drying chamber for drying treatment;

a first connecting block is arranged on the side wall of the cleaning box, a first movable cavity communicated with the cleaning box is arranged on the first connecting block, the baffle is arranged in the first movable cavity, and a first through groove matched with the baffle is arranged on the side wall of the storage box; the stirring assembly comprises a first connecting shaft penetrating through the bottom of the storage box and a plurality of stirring rods arranged on the connecting shaft, a connecting disc is arranged on the first connecting shaft, a first transmission shaft penetrates through the bottom of the cleaning box, a first transmission groove matched with the first transmission shaft is arranged at the bottom of the first connecting shaft, and the first transmission shaft can drive the baffle to reciprocate in the first movable cavity; after the storage case was put into and is washd the incasement, first transmission shaft inserts in first transmission tank, the first connecting shaft of motor drive rotates after the start, puddler stirring rivers, the rivers rotate along with the puddler orientation, drive baffle when first transmission shaft rotates and be interrupted the removal in first activity intracavity, the baffle is interrupted and stretches into in the storage case, the bottle embryo that will be in the motion state blocks, rivers and bottle embryo emergence relative motion, do the washing to the bottle embryo, when the baffle stretches into the storage incasement at every turn, the bottle embryo supports on the baffle with different angles, the completion is to the washing of whole bottle embryo.

The baffle plate is provided with a first cavity and a plurality of first through holes, the first through holes penetrate through the first cavity, a sieve plate is arranged in the first cavity, the sieve plate is made of elastic materials, a first sliding block is arranged on the sieve plate, and a first sliding groove matched with the first sliding block is arranged on the inner wall of the first cavity; an access hole is formed in the side wall of the first movable cavity, and a sealing door is arranged in the access hole; a water storage tank is arranged below the cleaning tank, the first movable cavity is communicated with the water storage tank through a first water conveying pipe, the water storage tank is communicated with the material storage tank through a second water conveying pipe, and a first push plate capable of moving up and down is arranged in the water storage tank; after the baffle plate extends into the material storage box, water flow in the material storage box enters the first movable cavity from the first through hole and the first cavity, impurities washed from the bottle blank enter the first cavity along with the water flow, the sieve plate blocks the impurities in the water flow, and the impurities are left in the first cavity; when the baffle plate enters the first movable cavity, water flow and impurities in the first cavity enter the first movable cavity together with the baffle plate, after the baffle plate completely enters the first movable cavity, the water flow in the first movable cavity carries the impurities to enter the water storage tank from the first water delivery pipe, and at the moment, the first push plate is positioned at the bottom of the water storage tank; when the baffle enters into the storage tank again, the first push plate moves upwards to extrude water flow in the storage tank, the water flow is extruded into the storage tank from the second water delivery pipe, and impurities are left in the storage tank to remove part of impurities in the storage barrel.

A second connecting block is arranged on the inner wall of the first cavity, a first movable groove is formed in the second connecting block, a first push block is arranged in the first movable groove, a first connecting spring is arranged on the first push block, a second movable cavity is arranged above the first movable groove, a second push plate used for pushing the first push block to move towards the outer side of the first movable groove is arranged in the second movable cavity, an air pump communicated with the second movable cavity is arranged at the top of the first connecting block, and an air outlet communicated with the first cavity is arranged at the bottom of the second movable cavity; when the motor is started, the air pump is also started simultaneously; when the baffle plate enters the material storage box, the air pump introduces air flow into the second movable cavity, the air pressure in the second movable cavity is increased to push the second push plate to move, the second push plate drives the first push block to move towards the outer side of the first movable groove after moving, and the first push block impacts on the sieve plate to shake off impurities on the sieve plate; after the second push plate moves to the designated position, the air outlet is opened, air in the second movable cavity flows out from the air outlet, air bubbles float out from the first through hole, the bottle blank which is propped against the baffle is pushed to move, the position of the bottle blank on the baffle is adjusted, and multiple surfaces of the bottle blank are cleaned; when the baffle entered into first movable cavity, first ejector pad striking was on the sieve, and the bubble entered into and stirs the rivers of first movable cavity in the first cavity, and impurity suspension is in first movable cavity, and the rivers of first movable cavity carry impurity and together enter into the storage water tank from first raceway department in, with the impurity discharge of first movable cavity.

A second movable groove is formed in the top of the first movable groove, a first connecting rod is arranged in the second movable groove, the middle of the first connecting rod is rotatably connected to the inner wall of the second movable groove, and one end of the first connecting rod is hinged to the side wall of the first push block; a second connecting spring and a first push rod are arranged on the side wall of the second push plate, and the first push rod penetrates through the second movable groove; a first air conveying cavity is arranged on the baffle, a second air conveying cavity communicated with the second movable cavity is arranged on the side wall of the first air conveying cavity, a fourth movable cavity is arranged on the side wall of the second air conveying cavity, a first sealing plate is arranged in the fourth movable cavity, a second through groove is formed in the first baffle, a third movable groove communicated with the second movable cavity is formed in the bottom of the fourth movable cavity, and a third push plate is arranged at the bottom of the first sealing plate; a third movable cavity is arranged on the side wall of the air outlet, a second sealing plate is arranged in the third movable cavity, a fourth movable groove is arranged at the top of the third movable cavity, and a fourth push plate is arranged on the second sealing plate; when the air flow enters the second movable cavity, the second air delivery cavity is in an open state, the air outlet is in a closed state, the air enters the second movable cavity and then pushes the second push plate to move, the second push plate pushes the third push plate and the fourth push plate to move when moving, the first sealing plate and the second sealing plate move along with the movement of the second push plate, the second through groove is staggered with the second air delivery cavity, the second sealing plate is moved away from the air outlet, the second air delivery cavity is closed, the air outlet is opened, the air in the second movable cavity floats out of the air outlet, and the air bubbles enter the first cavity to primarily clean impurities on the sieve plate; after the air in the second movable cavity is discharged, the second connecting spring pulls the second push plate to move back, the first push rod pushes one end of the first connecting rod to rotate, the first connecting rod pushes the first push block to move out of the first movable groove, the first push block impacts on the sieve plate, vibration is generated on the sieve plate to shake off impurities on the sieve plate, and the sieve plate is cleaned.

A fifth movable groove is formed in the bottom of the second movable cavity, a third connecting spring is arranged in the fifth movable groove, a first limiting block is arranged at the top of the third connecting spring, and a first inclined plane is arranged on the first limiting block; a second cavity is formed in the side wall of the second movable cavity, a fifth push plate is arranged in the second cavity, a fourth connecting spring is arranged on the side wall of one side of the fifth push plate, a second push rod is arranged on the side wall of the other side of the fifth push plate, the second push rod penetrates through the second movable cavity, a sixth movable groove is formed in the second push rod, a fifth connecting spring is arranged in the sixth movable groove, a second push block is arranged at one end of the fifth connecting spring, and the elasticity of the fifth connecting spring is larger than that of the fourth connecting spring; the second cavity is filled with hydraulic oil, and the fifth push plate is provided with a plurality of second through holes; a seventh movable groove is formed in the side wall of the second cavity, a sixth connecting spring is arranged in the seventh movable groove, a third push block is arranged at one end of the sixth connecting spring, a first connecting rope is arranged on the third push block, and one end of the first connecting rope is fixedly connected to the bottom of the first limiting block; when the second push plate moves in the second movable cavity, the second push plate is abutted against the second push block, hydraulic oil flows through the second through hole, the resistance of the hydraulic oil to the fifth push plate and the elastic force of the fourth connecting spring are comprehensively larger than the elastic force of the fifth spring, the second push block moves towards the sixth movable groove, the second push block pushes the second push rod to continue moving after completely entering the sixth movable groove, when the second push plate moves to one side of the first limiting block, the air outlet is opened, the fifth push plate moves to one side of the third push block, air in the second movable cavity is discharged from the air outlet, the fifth connecting spring pushes the second push rod to continue moving, when the air in the second movable cavity is discharged, the fifth push plate pushes the third push block to move, the first connecting rope pulls the first limiting block to move towards the fifth movable groove, the second push plate is limited, the second connecting spring pulls the second push plate to move back, the first push rod pushes the first connecting rod to rotate, the first connecting rod pushes the first push block to move towards the outer side of the first movable groove, the first push block impacts on the sieve plate, and vibration is generated on the sieve plate to shake off impurities on the sieve plate.

An eighth movable groove is formed in the bottom of the first movable cavity, a second connecting rod is arranged at the bottom of the baffle plate and penetrates through the eighth movable groove, a third connecting block is arranged at the bottom of the second connecting rod, a third connecting rod and a fourth connecting rod are arranged on the third connecting block, a ninth movable groove is formed in the third connecting rod, a tenth movable groove is formed in the fourth connecting rod, a first transmission block matched with the first transmission shaft is arranged in the ninth movable groove, a second transmission block matched with the first transmission shaft is arranged in the tenth movable groove, an annular groove is formed in the first transmission shaft, a seventh connecting spring is arranged on the first transmission block, and the third connecting rod and the fourth connecting rod are respectively arranged on two sides of the first transmission shaft; when the baffle is positioned in the first movable cavity, the first transmission block is positioned on one side of the first transmission shaft, the second transmission block is positioned on one side of the annular groove, the first transmission shaft drives the first transmission block to move when rotating, the baffle moves along with the first transmission block, and the baffle enters the storage box; after the baffle entered into the storage case, first transmission piece up-moved, and first drive wheel removed to annular one side, and second transmission piece down-moved to first transmission shaft one side, and first transmission shaft and second transmission piece form the transmission cooperation, and the second transmission piece drives the baffle and removes toward first activity intracavity, and after the baffle entered into first activity intracavity again, the second transmission piece rose, and first transmission piece descends, accomplishes the reciprocating motion of baffle.

A third through groove is formed in the side wall of the ninth movable groove, a limiting rod is rotatably connected in the third through groove, a stop block matched with the limiting rod is arranged at the bottom of the cleaning box, an eleventh movable groove and a twelfth movable groove are arranged at the bottom of the cleaning box, the eleventh movable groove is arranged above the third connecting rod, the twelfth movable groove is arranged above the fourth connecting rod, a fourth through groove is formed in the top of the ninth movable groove, a sixth push plate penetrates through the fourth through groove, a second sliding groove is formed in the side wall of the sixth push plate, a second sliding block matched with the second sliding groove is arranged on the inner wall of the fourth through groove, and a reset spring is arranged on the second sliding block; a seventh push plate is arranged at one end of the eleventh movable groove, an eighth push plate is arranged at the other end of the eleventh movable groove, a sixth push plate, a seventh push plate, an eighth push plate and a limiting rod are also arranged in the twelfth movable groove, and the seventh push plate and the eighth push plate in the eleventh movable groove and the twelfth movable groove are opposite in position; when the baffle is positioned in the first movable cavity, the first transmission block is positioned at the bottom of the ninth movable groove, the sixth push plate on the third connecting rod is positioned in the ninth movable groove, the second transmission block is positioned at the top of the tenth movable groove, the sixth push plate on the fourth connecting rod extends out of the tenth movable groove, and one end of the sixth push plate is inserted into the twelfth movable groove; the first transmission shaft drives the first transmission block to move when rotating, the two limiting rods are respectively inserted into the ninth movable groove and the tenth movable groove, after the baffle plate extends into the material storage box, the limiting rods move to one side of the stop block, the third connecting rod and the fourth connecting rod move relative to the stop block, the limiting rods rotate to enter the third through groove, the first transmission block moves upwards after losing the limit, the first transmission block pushes the sixth push plate to move upwards, the sixth push plate moves upwards to push the seventh push plate in the eleventh movable groove to move upwards, the eighth push plate in the twelfth movable groove moves downwards, the eighth push plate in the twelfth movable groove pushes the sixth push plate on the fourth connecting rod to move downwards, the sixth push plate on the fourth connecting rod pushes the second transmission block to move downwards, the second transmission wheel is contacted with the side wall of the first transmission shaft, the first transmission shaft rotates to drive the baffle plate to move towards the inside of the first movable cavity, and resetting the baffle.

The two sides of the first transmission shaft are respectively provided with a thirteenth movable groove, a movable block is arranged in the thirteenth movable groove, a fourteenth movable groove is arranged on the side wall of the movable block, a fifteenth movable groove is arranged at the bottom of the fourteenth movable groove, a fifth connecting rod is arranged in the fourteenth movable groove, an eighth connecting spring is arranged on the fifth connecting rod, a sixth connecting rod is further arranged on the fifth connecting rod, the sixth connecting rod penetrates out of the fifteenth movable groove, a third transmission block is arranged on the sixth connecting rod, a sixteenth movable groove is arranged on the inner wall of the thirteenth movable groove, a ninth push plate is arranged in the sixteenth movable groove, a ninth connecting spring is arranged on the ninth push plate, a tenth connecting spring and a first air bag are arranged at the top of the seventh push plate, and the first air bag is communicated with the sixteenth movable groove; a second air bag is arranged in the thirteenth movable groove, and a telescopic pipe and an eleventh connecting spring which are communicated with the second air bag are arranged at the top of the eighth push plate; when the first transmission shaft contacts with the first transmission block to drive the baffle plate to move towards the material storage box, the limiting rod moves to one side of the stop block and then rotates, the first transmission block moves upwards to push the sixth push plate to move upwards, the sixth push plate pushes the seventh push plate to move upwards, the seventh push plate extrudes the first air bag, air in the first air bag enters the sixteenth movable groove, air pressure pushes the ninth push plate to move, the ninth push plate is inserted into the fourteenth movable groove to push the fifth connecting rod to move, the third transmission block moves towards the first transmission shaft, the third transmission block is in contact with the first transmission shaft, the first transmission shaft drives the third transmission block to move, the movable block extrudes the second air bag, air in the second air bag enters the telescopic pipe to push the eighth push plate in the twelfth movable groove to move downwards, the eighth push plate in the twelfth movable groove pushes the sixth push plate on the fourth connecting rod to move downwards, the second transmission block is contacted with the side wall of the first transmission shaft, and the first transmission shaft drives the baffle to move towards the first movable cavity, so that the reset of the baffle is completed.

The invention has the following advantages: after a user squeezes liquid in the bottle on the hand, the bottle cap is covered by one hand, and the bottle cap is stably adsorbed on the bottle body under the arrangement of the first magnetic block and the second magnetic block, so that the effect of fixing the bottle cap is achieved, the matching effect of the bottle cap and the bottle body is ensured, the liquid outlet of the pump core is well protected, and the liquid is prevented from being polluted by impurities; under the cooperation of first magnetic path and second magnetic path, only need gently cover the bottle lid and can realize the fixed of body and bottle lid on the body, do benefit to user's one-hand operation, reduce the required power of the tight bottle lid of lid, make the use of vacuum bottle more convenient.

Drawings

FIG. 1 is a schematic view of the magnetic vacuum bottle according to the present invention.

Fig. 2 is a cross-sectional view of the magnetic vacuum bottle of the present invention.

FIG. 3 is a schematic view of the structure of the cleaning tank of the present invention.

Fig. 4 is a front view of the cleaning tank of the present invention.

Fig. 5 is a cross-sectional view taken along a-a in fig. 4.

Fig. 6 is an enlarged view of a portion a in fig. 5.

Fig. 7 is a cross-sectional view taken along line B-B of fig. 4.

Fig. 8 is an enlarged view of fig. 7 at B.

Fig. 9 is an enlarged view of fig. 8 at C.

Fig. 10 is a cross-sectional view taken along line C-C of fig. 4.

Fig. 11 is an enlarged view of fig. 10 at D.

Fig. 12 is a cross-sectional view taken along line D-D in fig. 4.

Fig. 13 is an enlarged view of fig. 12 at E.

Fig. 14 is a cross-sectional view taken along line E-E of fig. 4.

Fig. 15 is an enlarged view of fig. 14 at F.

Fig. 16 is a cross-sectional view taken along F-F in fig. 4.

Fig. 17 is an enlarged view at G in fig. 16.

Fig. 18 is a cross-sectional view taken along G-G in fig. 4.

Fig. 19 is an enlarged view of fig. 18 at H.

Fig. 20 is a sectional view taken along H-H in fig. 4.

Fig. 21 is an enlarged view at I in fig. 20.

FIG. 22 is a right side view of the cleaning tank of the present invention.

Fig. 23 is a cross-sectional view taken along line I-I of fig. 22.

Fig. 24 is an enlarged view at J in fig. 23.

Fig. 25 is an enlarged view at K in fig. 23.

Fig. 26 is a cross-sectional view taken along J-J in fig. 22.

Fig. 27 is an enlarged view at L in fig. 26.

Fig. 28 is an enlarged view of fig. 26 at M.

Fig. 29 is a cross-sectional view taken along line K-K of fig. 22.

Fig. 30 is an enlarged view of fig. 29 at N.

Fig. 31 is an enlarged view at O in fig. 29.

Detailed Description

As shown in fig. 1-2, a magnetic vacuum flask comprises a flask body 51 and a flask cover 52 arranged on the top of the flask body 51, wherein a pump core 53 is arranged in the flask body 51, a first magnetic block 521 is arranged on the flask cover 52, a second magnetic block 511 is arranged on the flask body 51, and after the first magnetic block 521 and the second magnetic block 511 are both annular sections, the magnetism of the first magnetic block 521 and the second magnetic block 511 are attracted; after a user squeezes liquid in the bottle on the hand, the bottle cap is covered by one hand, and the bottle cap is stably adsorbed on the bottle body under the arrangement of the first magnetic block and the second magnetic block, so that the effect of fixing the bottle cap is achieved, the matching effect of the bottle cap and the bottle body is ensured, the liquid outlet of the pump core is well protected, and the liquid is prevented from being polluted by impurities; under the cooperation of first magnetic path and second magnetic path, only need gently cover the bottle lid and can realize the fixed of body and bottle lid on the body, do benefit to user's one-hand operation, reduce the required power of the tight bottle lid of lid, make the use of vacuum bottle more convenient.

A process for producing the magnetic-type vacuum bottle of claim 1, comprising the steps of:

a. preparing a bottle blank;

b. putting the manufactured bottle blanks into a material storage box 2;

c. putting the storage box 2 filled with the bottle blanks into the cleaning box 1, and pouring clear water into the storage box 2;

d. the starting motor 34 drives the stirring assembly to rotate, the stirring assembly stirs water flow to form a vortex in the material storage box 2, and the baffle 4 discontinuously enters the material storage box 2; when the baffle 4 is positioned in the material storage box 2, the bottle blank rotating along with the vortex abuts against the baffle 4, and water flow cleans the bottle blank from the bottle blank; when the baffle 4 is positioned outside the material storage box 2, the bottle blank rotates in the material storage box 2 along with the vortex; after the baffle 4 extends into the material storage box 2 for a specified number of times, the cleaning step of the bottle blank is completed;

e. discharging water flow in the cleaning box 1, taking the material storage box 2 out of the cleaning box 1, and feeding the material storage box 2 and the bottle blank into a drying chamber for drying treatment;

the method for preparing the bottle embryo in the step a is the same as that of the prior art.

As shown in fig. 3-31, a first connecting block 11 is arranged on the side wall of the cleaning tank 1, a first movable cavity communicated with the cleaning tank 1 is arranged on the first connecting block 11, the baffle 4 is arranged in the first movable cavity, and a first through groove matched with the baffle 4 is arranged on the side wall of the storage tank 2; the stirring assembly comprises a first connecting shaft 22 penetrating through the bottom of the storage box 2 and a plurality of stirring rods 222 arranged on the connecting shaft, a connecting disc 221 is arranged on the first connecting shaft 22, a first transmission shaft 14 penetrates through the bottom of the cleaning box 1, a first transmission groove matched with the first transmission shaft 14 is arranged at the bottom of the first connecting shaft 22, and the first transmission shaft 14 can drive the baffle 4 to reciprocate in the first movable cavity; after storage case 2 was put into and is washd case 1, first transmission shaft 14 inserted first transmission inslot, motor 34 drives first connecting shaft 22 and rotates after the start, puddler 222 stirs rivers, rivers rotate along with puddler 222 orientation, drive baffle 4 when first transmission shaft 14 rotates and remove at first activity intracavity discontinuity, baffle 4 discontinuity stretches into in storage case 2, the bottle embryo that will be in the motion state blocks, rivers and bottle embryo emergence relative motion, do the washing to the bottle embryo, when baffle 4 stretches into in storage case 2 at every turn, the bottle embryo supports on baffle 4 with different angles, the completion is to the washing of whole bottle embryo, promote the cleaning performance to the bottle embryo.

The storage tank bottom is equipped with housing 21, and in the housing was located to the stirring subassembly, utilized the housing to play the guard action to the stirring subassembly, produced the collision with the bottle embryo when avoiding the puddler to utilize the puddler to form directional swirl in the storage tank.

A first cavity and a plurality of first through holes are formed in the baffle 4, the first through holes penetrate through the first cavity, a sieve plate 48 is arranged in the first cavity, the sieve plate 48 is made of elastic materials, a first sliding block is arranged on the sieve plate 48, and a first sliding groove matched with the first sliding block is formed in the inner wall of the first cavity; an access hole is formed in the side wall of the first movable cavity, and a sealing door 110 is arranged in the access hole; a water storage tank 3 is arranged below the cleaning tank 1, the first movable cavity is communicated with the water storage tank 3 through a first water conveying pipe 120, the water storage tank 3 is communicated with the material storage tank 2 through a second water conveying pipe, and a first push plate 31 capable of moving up and down is arranged in the water storage tank 3; after the baffle 4 extends into the material storage box 2, water flow in the material storage box 2 enters the first movable cavity from the first through hole and the first cavity, impurities washed from bottle blanks enter the first movable cavity along with the water flow, the sieve plate 48 keeps the impurities in the water flow down, and the impurities are left in the first cavity; when the baffle 4 enters the installed first movable cavity, water flow and impurities in the first cavity enter the first movable cavity together with the baffle 4, after the baffle 4 completely enters the first movable cavity, the water flow in the first movable cavity carries the impurities to enter the water storage tank 3 from the first water pipe 120, and at the moment, the first push plate 31 is positioned at the bottom of the water storage tank 3; when baffle 4 reentrant storage tank 2 in, the rivers in first push pedal 31 up motion extrusion storage tank 3, rivers are extruded storage tank 2 from second raceway department in, impurity stays in storage tank 3, gets rid of the partial impurity in the storage vat, avoids impurity to continuously stay the aquatic and causes secondary pollution to the bottle embryo.

Be equipped with the check valve in first transfer line and the second transfer line, still be equipped with the filter screen in the second transfer line, storage bottom of the case portion is equipped with the third through-hole the same with the second transfer line, utilizes the check valve to do the control to the liquid flow direction in first transfer line and the second transfer line to supply the liquid level in the storage case, stay the storage water tank with impurity in, avoid aquatic impurity to cause secondary pollution to the bottle embryo.

A second connecting block 49 is arranged on the inner wall of the first cavity, a first movable groove is arranged on the second connecting block 49, a first push block 491 is arranged in the first movable groove, a first connecting spring is arranged on the first push block 491, a second movable cavity is arranged above the first movable groove, a second push plate 493 used for pushing the first push block 491 to move towards the outer side of the first movable groove is arranged in the second movable cavity, an air pump 12 communicated with the second movable cavity is arranged at the top of the first connecting block 11, and an air outlet communicated with the first cavity is arranged at the bottom of the second movable cavity; when the motor 34 is started, the air pump 12 is also started; when the baffle 4 enters the material storage box 2, the air pump 12 introduces air flow into the second movable cavity, the air pressure in the second movable cavity increases and then pushes the second push plate 493 to move, the second push plate 493 moves and then drives the first push block 491 to move towards the outer side of the first movable groove, and the first push block 491 impacts on the sieve plate 48 to shake off impurities on the sieve plate 48; after the second push plate 493 moves to a designated position, the air outlet is opened, air in the second movable cavity flows out from the air outlet, air bubbles float out from the first through hole, the bottle blanks abutted against the baffle 4 are pushed to move, the position of the bottle blanks on the baffle 4 is adjusted, and the bottle blanks are cleaned in multiple surfaces; when baffle 4 enters into first movable cavity, first ejector 491 strikes on sieve 48, and the bubble enters into and stirs the rivers in first movable cavity in the first cavity, and impurity suspension is in first movable cavity, and the rivers in first movable cavity carry impurity and together enter into storage water tank 3 from first raceway 120 in, discharge the impurity in first movable cavity.

A second movable groove is formed in the top of the first movable groove, a first connecting rod 492 is arranged in the second movable groove, the middle part of the first connecting rod 492 is rotatably connected to the inner wall of the second movable groove, and one end of the first connecting rod 492 is hinged to the side wall of the first push block 491; a second connecting spring and a first push rod 4931 are arranged on the side wall of the second push plate 493, and the first push rod 4931 is arranged in the second movable groove in a penetrating manner; a first air conveying cavity is arranged on the baffle 4, a second air conveying cavity communicated with the second movable cavity is arranged on the side wall of the first air conveying cavity, a fourth movable cavity is arranged on the side wall of the second air conveying cavity, a first sealing plate 498 is arranged in the fourth movable cavity, a second through groove is arranged on the first baffle 4, a third movable groove communicated with the second movable cavity is arranged at the bottom of the fourth movable cavity, and a third push plate 4981 is arranged at the bottom of the first sealing plate 498; a third movable cavity is arranged on the side wall of the air outlet, a second sealing plate 497 is arranged in the third movable cavity, a fourth movable groove is arranged at the top of the third movable cavity, and a fourth push plate is arranged on the second sealing plate 497; when the air flow enters the second movable cavity, the second air delivery cavity is in an open state, the air outlet is in a closed state, the air pushes the second push plate 493 to move after entering the second movable cavity, the third push plate 4981 and the fourth push plate are pushed to move when the second push plate 493 moves, the first sealing plate 498 and the second sealing plate 497 move along with the movement of the second push plate 493, the second through groove is staggered with the second air delivery cavity, the second sealing plate 497 is moved away from the air outlet, the second air delivery cavity is closed, the air outlet is opened, the air in the second movable cavity floats out of the air outlet, and the air bubbles enter the first cavity to primarily clean impurities on the sieve plate 48; after the air in the second movable cavity is exhausted, the second connecting spring pulls the second push plate 493 to move back, the first push rod 4931 pushes one end of the first connecting rod 492 to rotate, the first connecting rod 492 pushes the first push block 491 to move out of the first movable groove, the first push block 491 collides with the sieve plate 48, vibration is generated on the sieve plate 48 to shake off impurities on the sieve plate 48, and the sieve plate 48 is cleaned.

A fifth movable groove is formed in the bottom of the second movable cavity, a third connecting spring 4961 is arranged in the fifth movable groove, a first limiting block 496 is arranged at the top of the third connecting spring 4961, and a first inclined surface is arranged on the first limiting block 496; a second cavity is formed in the side wall of the second movable cavity, a fifth push plate 4941 is arranged in the second cavity, a fourth connecting spring 4942 is arranged on the side wall of one side of the fifth push plate 4941, a second push rod is arranged on the side wall of the other side of the fifth push plate 4941, the second push rod penetrates through the second movable cavity, a sixth movable groove is formed in the second push rod, a fifth connecting spring 4944 is arranged in the sixth movable groove, a second push block 4943 is arranged at one end of the fifth connecting spring 4944, and the elasticity of the fifth connecting spring 4944 is larger than that of the fourth connecting spring 4942; the second cavity is filled with hydraulic oil, and the fifth push plate 4941 is provided with a plurality of second through holes; a seventh movable groove is formed in the side wall of the second cavity, a sixth connecting spring 4951 is arranged in the seventh movable groove, a third push block 495 is arranged at one end of the sixth connecting spring 4951, a first connecting rope is arranged on the third push block 495, and one end of the first connecting rope is fixedly connected to the bottom of the first limiting block 496; when the second push plate 493 moves in the second movable cavity, the second push plate 493 abuts against the second push block 4943, hydraulic oil flows through the second through hole, the resistance of the hydraulic oil to the fifth push plate 4941 and the elastic force of the fourth connecting spring 4942 are both greater than the elastic force of the fifth spring, the second push block 4943 moves in the sixth movable cavity, the second push rod is pushed to move continuously after the second push block 4943 completely enters the sixth movable cavity, after the second push plate 493 moves to the side of the first limit block 496, the air outlet is opened, the fifth push plate 4941 moves to the side of the third push block 495, air in the second movable cavity is exhausted from the air outlet, the fifth connecting spring 4944 pushes the second push rod to move continuously, after the air in the second movable cavity is exhausted, the fifth push plate 4941 pushes the third push block 495 to move, the first connecting rope 496 pulls the first limit block 496 to move in the fifth movable cavity, the second push plate 493 loses the limit, and the second connecting spring pulls the second push plate 493 to move back, the first push rod 4931 pushes the first connecting rod 492 to rotate, the first connecting rod 492 pushes the first push block 491 to move towards the outer side of the first movable slot, the first push block 491 impinges on the sieve plate 48, and the sieve plate 48 vibrates to shake off impurities on the sieve plate 48.

The second push pedal resets after the air escape of second activity intracavity, reduces the resistance that the air resets to overlapping the push pedal, makes the second push pedal can obtain instantaneous acceleration, increases the power of first push rod striking head rod to promote the effect of first ejector pad striking sieve, effectually knock out the impurity on the sieve, play the cleaning action to the sieve.

An eighth movable groove is formed in the bottom of the first movable cavity, a second connecting rod 41 is arranged at the bottom of the baffle 4, the second connecting rod 41 penetrates through the eighth movable groove, a third connecting block 42 is arranged at the bottom of the second connecting rod 41, a third connecting rod 43 and a fourth connecting rod 44 are arranged on the third connecting block 42, a ninth movable groove is formed in the third connecting rod 43, a tenth movable groove is formed in the fourth connecting rod 44, a first transmission block 45 matched with the first transmission shaft 14 is arranged in the ninth movable groove, a second transmission block matched with the first transmission shaft 14 is arranged in the tenth movable groove, an annular groove is formed in the first transmission shaft 14, a seventh connecting spring 451 is arranged on the first transmission block 45, and the third connecting rod 43 and the fourth connecting rod 44 are respectively arranged on two sides of the first transmission shaft 14; when the baffle 4 is positioned in the first movable cavity, the first transmission block 45 is positioned on one side of the first transmission shaft 14, the second transmission block is positioned on one side of the annular groove, the first transmission shaft 14 drives the first transmission block 45 to move when rotating, the baffle 4 moves along with the first transmission block 45, and the baffle 4 enters the storage box 2; after baffle 4 entered into storage case 2, first transmission piece 45 up moved, and first drive wheel removes to annular one side, and second transmission piece down moves to first transmission shaft 14 one side, and first transmission shaft 14 forms the transmission cooperation with second transmission piece, and second transmission piece drives baffle 4 and removes toward first activity intracavity, and after baffle 4 reentered into first activity intracavity, the second transmission piece rose, and first transmission piece 45 descends, accomplishes baffle 4's reciprocating motion.

A third through groove is formed in the side wall of the ninth movable groove, a limiting rod 46 is rotatably connected in the third through groove, a first torsion spring is arranged on the limiting rod, one end of the limiting rod is kept in the ninth movable groove by the first torsion spring, a stop block 19 matched with the limiting rod 46 is arranged at the bottom of the cleaning box 1, an eleventh movable groove and a twelfth movable groove are arranged at the bottom of the cleaning box 1, the eleventh movable groove is arranged above the third connecting rod 43, the twelfth movable groove is arranged above the fourth connecting rod 44, a fourth through groove is formed in the top of the ninth movable groove, a sixth push plate 47 penetrates through the fourth through groove, a second sliding groove is formed in the side wall of the sixth push plate 47, a second sliding block 431 matched with the second sliding groove is arranged on the inner wall of the fourth through groove, and a reset spring 432 is arranged on the second sliding block 431; a seventh push plate 13 is arranged at one end of the eleventh movable groove, an eighth push plate 14 is arranged at the other end of the eleventh movable groove, a sixth push plate 47, a seventh push plate 13, an eighth push plate 14 and a limiting rod 46 are also arranged in the twelfth movable groove, and the seventh push plate 13 and the eighth push plate 14 in the eleventh movable groove and the twelfth movable groove are opposite in position; when the baffle 4 is positioned in the first movable cavity, the first transmission block 45 is positioned at the bottom of the ninth movable groove, the sixth push plate 47 on the third connecting rod 43 is positioned in the ninth movable groove, the second transmission block is positioned at the top of the tenth movable groove, the sixth push plate 47 on the fourth connecting rod 44 extends out of the tenth movable groove, and one end of the sixth push plate is inserted into the twelfth movable groove; the first transmission shaft 14 drives the first transmission block 45 to move when rotating, the two limiting rods 46 are respectively inserted into the ninth movable groove and the tenth movable groove, after the baffle 4 extends into the storage box 2, the limiting rods 46 move to one side of the stop block 19, the third connecting rod 43 and the fourth connecting rod 44 move relative to the stop block 19, the limiting rods 46 rotate to enter the third movable groove, the first transmission block 45 moves upwards after losing the limit, the first transmission block 45 pushes the sixth push plate 47 to move upwards, the sixth push plate 47 moves upwards to push the seventh push plate 13 in the eleventh movable groove to move upwards, the eighth push plate 14 in the twelfth movable groove moves downwards, the eighth push plate 14 in the twelfth movable groove pushes the sixth push plate 47 on the fourth connecting rod 44 to move downwards, the sixth push plate 47 on the fourth connecting rod 44 pushes the second transmission block to move downwards, and the second transmission wheel is in contact with the side wall of the first transmission shaft 14, the first transmission shaft 14 rotates to drive the baffle 4 to move towards the first movable cavity, and the reset of the baffle 4 is completed.

A thirteenth movable groove is respectively arranged at two sides of the first transmission shaft 14, a movable block 16 is arranged in the thirteenth movable groove, a fourteenth movable groove is arranged on the side wall of the movable block 16, a fifteenth movable groove is arranged at the bottom of the fourteenth movable groove, a fifth connecting rod 1611 is arranged in the fourteenth movable groove, an eighth connecting spring 1612 is arranged on the fifth connecting rod 1611, a sixth connecting rod is further arranged on the fifth connecting rod 1611, the sixth connecting rod penetrates out of the fifteenth movable groove, a third transmission block 161 is arranged on the sixth connecting rod, a sixteenth movable groove is arranged on the inner wall of the thirteenth movable groove, a ninth push plate 18 is arranged in the sixteenth movable groove, a ninth connecting spring 181 is arranged on the ninth push plate 18, a tenth connecting spring 131 and a first air bag 132 are arranged at the top of the seventh push plate 13, and the first air bag 132 is communicated with the sixteenth movable groove; a second air bag 17 is arranged in the thirteenth movable groove, and a telescopic pipe 141 and an eleventh connecting spring 142 which are communicated with the second air bag 17 are arranged at the top of the eighth push plate 14; when the first transmission shaft 14 contacts with the first transmission block 45 to drive the baffle 4 to move towards the inside of the storage box 2, the limiting rod 46 moves to one side of the stop block 19 and then rotates, the first transmission block 45 moves upwards to push the sixth push plate 47 to move upwards, the sixth push plate 47 pushes the seventh push plate 13 to move upwards, the seventh push plate 13 extrudes the first air bag 132, air in the first air bag 132 enters the sixteenth movable groove, air pressure pushes the ninth push plate 18 to move, the ninth push plate 18 is inserted into the fourteenth movable groove to push the fifth connecting rod 1611 to move, the third transmission block 161 moves towards the first transmission shaft 14, the third transmission block 161 contacts with the first transmission shaft 14, the first transmission shaft 14 drives the third transmission block 161 to move, the movable block 16 extrudes the second air bag 17, air in the second air bag 17 enters the telescopic tube 141 to push the eighth push plate 14 in the twelfth movable groove to move downwards, the eighth push plate 14 in the twelfth movable groove pushes the sixth push plate 47 on the fourth connecting rod 44 to move downwards, the second transmission block is contacted with the side wall of the first transmission shaft 14, and the first transmission shaft 14 drives the baffle 4 to move towards the first movable cavity, so that the reset of the baffle 4 is completed.

The structure on the fourth connecting rod is the same as that on the third connecting rod, two groups of baffle blocks are provided, and one group of baffle blocks is two, so that the limiting rod can be disengaged from the first transmission block and the second transmission block no matter the baffle plates move into the material storage box or the first movable cavity; be equipped with the ratchet on the ninth push pedal, be equipped with on the fifth connecting rod with ratchet matched with second recess, when the ninth push pedal promotes the fifth connecting rod and removes, the ninth push pedal supports on the fifth connecting rod, the movable block is fixed under the cooperation of ratchet and second recess after removing in the thirteenth movable groove, make the eighth push pedal continuously promote the sixth push pedal, provide holding power for the transmission piece, after the baffle removes, the gag lever post is putd aside from dog one side, the sixth push pedal is putd aside from seventh push pedal and eighth push pedal bottom, the gag lever post enters into the ninth movable groove again and the tenth movable groove provides holding power for the transmission piece, guarantee the cooperation effect of transmission piece and first transmission shaft.

After the baffle moves into the first movable cavity, the second transmission block moves upwards, and the first transmission block moves downwards in the manner as shown above, which is not repeated herein, and the first transmission block and the first transmission shaft form transmission fit to drive the baffle to move into the storage box again; the bottle embryo is pressed against the baffle again, and the bottle embryo is pressed against the baffle in different postures at the moment, so that the bottle embryo can be comprehensively cleaned in multiple angles; through the mutual cooperation of seventh push pedal, eighth push pedal, third transmission piece, make the baffle all can stop appointed time long after removing to first activity chamber or storage incasement at every turn to do the interception to the bottle embryo or do the clearance to the impurity of first activity intracavity, avoid the bottle embryo to receive secondary pollution, promote the cleaning performance to the bottle embryo.

A seventeenth movable groove is formed in the inner wall of the first infusion tube, a twelfth connecting spring 1202 is arranged in the seventeenth movable groove, and a sealing block 1201 is arranged at one end of the twelfth connecting spring; an eighteenth movable groove is formed in the inner wall of the seventeenth movable groove, a second limiting block 1203 is arranged in the eighteenth movable groove, and a second inclined plane and a thirteenth connecting spring are arranged on the second limiting block; a nineteenth movable groove is formed in the inner wall of the first movable cavity, a fourth push block 111 is arranged in the nineteenth movable groove, a fourteenth connecting spring is arranged on the side wall of the fourth push block, a second connecting rope is arranged on the fourth push block, and one end of the second connecting rope is fixedly connected to a second limiting block; a first groove is formed in the second connecting rod, a wire roller 411 is arranged in the first groove, a second torsion spring is arranged on the wire roller, a third connecting rope is wound on the wire roller, and one end of the third connecting rope is fixedly connected to the sealing block; when the baffle plate enters the first movable cavity, the baffle plate pushes the fourth push block to move, the second connecting rope pulls the second limiting block to enter the eighteenth movable groove, the twelfth connecting spring pulls the sealing block to enter the seventeenth movable groove, the first infusion tube is opened, and water flow in the first movable cavity carries impurities to enter the water storage tank together from the first infusion tube; when the baffle moves in the material storage box, the baffle drives the second connecting rod to move, the third connecting rope pulls the sealing block to move, the sealing block moves to one side of the second limiting block to seal the first infusion tube, and the wire roller rotates to enable the third connecting rope to be wound out of the wire roller, so that the baffle can continue to move normally; under the setting of the line roller, the baffle plate can drive the sealing block to move when moving, so that the first infusion tube is quickly sealed, and excessive water flow is prevented from entering the water storage tank.

A second connecting shaft 32 is arranged in the water storage tank, a third through hole corresponding to the second connecting shaft is formed in the first push plate, a corrugated groove is formed in the side wall of the second connecting shaft, a third sliding block corresponding to the corrugated groove is arranged on the inner wall of the third through hole, and the first push plate cannot rotate; a fourth through hole is formed in the top of the water storage tank, a twentieth movable groove is formed in the top of the second connecting shaft, a fifth connecting rod 322 penetrates through the twentieth movable groove, a limiting plate 323 is arranged at the bottom of the fifth connecting rod, a fourth transmission block 321 is arranged at the top of the fifth connecting rod, and a second transmission groove matched with the first transmission shaft is formed in the fourth transmission block; a twenty-first movable groove is formed in the inner wall of the fourth through hole, a supporting block 33 is arranged in the twenty-first movable groove, a fifteenth connecting spring 331 and a third inclined surface are arranged on the side wall of the supporting block, a third cavity communicated with the twenty-first movable groove is arranged on one side of the twenty-first movable groove, a fourth cavity communicated with the third cavity is arranged on one side of the third cavity, a tenth push plate 35 is arranged in the fourth cavity, a sixteenth connecting spring 351 and a fourth connecting rope are arranged on the side wall of the tenth push plate, and one end of the fourth connecting rope is fixedly connected to the sealing block; when the first infusion tube is opened, the tenth push plate is pulled by the fourth connecting rope to move, the supporting block enters the twenty-first movable groove after the space in the fourth cavity is increased, the fourth transmission block loses the supporting force and then moves downwards, the first transmission shaft is separated from the second transmission groove, the second connecting shaft is in a static state, the first push plate does not move, and water flow in the first movable cavity normally enters the water storage tank; when the first raceway was closed, the tenth push pedal pushed the air in the fourth cavity into twenty first movable groove, promote fourth drive block up-motion under the effect of third bevel when the supporting shoe stretches out, first drive shaft inserts in the second drive groove, drive the rotation of second connecting axle when first drive shaft rotates, drive first push pedal and do the up-and-down motion in the storage water tank under the cooperation of ripple groove and third slider, pass through the second transfer line with the rivers in the storage water tank and push into in the storage case, replenish the liquid level in the storage case.

The motor is arranged at the top of the water storage tank, a driving wheel 341 is arranged on an output shaft of the motor, and the driving wheel is in transmission fit with the first transmission shaft through a synchronous belt 342.

The first sealing plate and the second sealing plate are respectively provided with a sliding block structure, and the sliding blocks on the first sealing plate and the second sealing plate are respectively provided with a spring for controlling the positions of the first sealing plate and the second sealing plate; the hanging lugs 23 are arranged on the side wall of the top of the storage box, so that the storage box is convenient to take and place; a first water outlet is formed in the side wall of the cleaning box, a second water outlet is formed in the side wall of the water storage tank, and the side wall of the material storage box is made of a plurality of porous plates; the storage box can be a plurality of storage boxes, and after the bottle blanks in one storage box are cleaned, the next storage box filled with the bottle blanks can be placed into the cleaning box, so that the equipment can continuously operate.

The exhaust hole is formed in the top of the first movable cavity, and damage to the cleaning box due to the fact that air pressure in the first movable cavity is too large is avoided.

The drawings of the invention are only schematic and the specific dimensions thereof are subject to practical implementation.