CN112918924A - A storage device for production of tubular product masterbatch - Google Patents

Abstract

The invention discloses a storage device for producing a tube color master batch, which belongs to the technical field of color master batches, can absorb moisture in a color master batch storage space through a moisture absorption vertical wire, convey the moisture into a movable ball, then flow to a water collection sheet through a migration sheet, trigger the water contraction action of a water absorption contraction chain after being accumulated in the water collection sheet to a certain degree, then pull the water collection sheet to gradually approach the inner wall of the movable ball until the water collection contraction chain is closed, pull a blocking ball to open the water collection sheet at the moment, allow the moisture accumulated on the water collection sheet to flow to a reaction layer, then generate a large amount of gas through reaction, accumulate the gas in the movable ball at first until a blowing membrane is inflated and expanded to increase the overall buoyancy of the movable ball to float, then the gas with heat is ejected from the movable ball and reversely enters the color master batch to be heated and dried, and discharges water vapor and oxygen, thereby carrying out high-efficient protection to the color master batch.

Description

A storage device for production of tubular product masterbatch

Technical Field

The invention relates to the technical field of color master batches, in particular to a storage device for producing a pipe color master batch.

Background

Tubing is the material used to make pipe fittings. Different pipes are used for different pipe fittings, and the quality of the pipes directly determines the quality of the pipe fittings. The multipurpose pipe for building engineering, power plants, chemical plants and the like has an execution standard GB/T5310; for high-pressure boilers: the execution standard GB/T8163; seamless steel pipe for transporting fluid: there is an implementation standard GB 3087; seamless steel pipe for low pressure boiler: has an execution standard GB/T9948; seamless steel pipe for petroleum cracking: has an execution standard GB/T14976; stainless seamless steel pipe for fluid transportation is made of alloy (15 CrMo, 12Cr1 MoV) carbon steel (10 #, 20#, 45 #) stainless steel (304, 316).

Color masterbatch: is a mixture of high concentration color formulated from resin and a large amount of pigment (up to 50%) or dye. Color concentrates, also known as seeds, are aggregates prepared by uniformly loading an excess amount of pigment or dye into a resin. During processing, a small amount of color master batch is mixed with uncolored resin, and colored resin or products with designed pigment concentration can be obtained.

The functional color masterbatch not only has the function of common color masterbatch, but also endows plastic products with other functions. These functions include weather resistance, antistatic, flame retardant, foaming, and the like. The production process of the functional color master batch is characterized in that a product is produced by performing surface treatment on a colorant and a surfactant of a general color master batch, then kneading, plasticating, crushing and granulating the colorant and the surfactant in combination with a functional auxiliary and a dispersing auxiliary. Functional color concentrates are one of the trends in the technical development of the color concentrate industry.

The color masterbatch inevitably contacts with air in daily storage, and particularly under the condition of untight sealing, the color masterbatch is easy to absorb moisture, oxidize, agglomerate and the like, so that the appearance and the quality of the color masterbatch and even later-period pipe production are greatly reduced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a storage device for producing a tube color master batch, which can be used for movably arranging a plurality of movable balls at the bottom, absorbing water in a color master batch storage space through a moisture absorption vertical wire, conveying the water into the movable balls, then flowing to a water collecting sheet through a migration sheet, contacting with a water absorption shrinkage chain after accumulating to a certain degree in the water collecting sheet, so as to trigger the water shrinkage action of the water absorption shrinkage chain, then pulling the water collecting sheet to gradually approach the inner wall of the movable balls until the water collecting sheet is closed by the water absorption shrinkage chain, at the moment, pulling a blocking ball to open the water collecting sheet by the water absorption shrinkage chain, enabling the water accumulated on the water collecting sheet to flow to a reaction layer, then generating a large amount of gas through reaction, and because gas injection holes at the lower end of the movable balls are blocked, the gas firstly accumulates in the movable balls until a gas blowing film is inflated and expanded to increase the integral buoyancy of the movable balls to float, then the gas with heat is ejected out of the movable ball and reversely enters the color master batch to be heated and dried, and water vapor and oxygen are discharged, so that the color master batch is efficiently protected.

2. Technical scheme

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

A storage device for producing pipe color master batches comprises a storage box, wherein a matched sealed box cover is installed on the storage box, a plurality of uniformly distributed stable hemispherical grooves are formed in the bottom end of the storage box, matched movable balls are movably embedded in the stable hemispherical grooves, moisture absorption vertical wires are connected to the upper ends of the movable balls, air injection holes are formed in the lower ends of the movable balls, a material separation screen plate is connected to the storage box, the moisture absorption vertical wires penetrate through the material separation screen plate and extend to the upper side of the material separation screen plate, a water collection sheet is connected to the top end of the movable ball, a migration sheet is arranged on the upper side of the water collection sheet, the moisture absorption vertical wires penetrate through the upper end of the movable ball and are connected with the upper end of the migration sheet, a plurality of uniformly distributed water absorption shrinkage chains are connected between the migration sheet and the top end of the movable ball, and each water absorption shrinkage chain comprises a waterproof outer pipe, a water absorption, the water absorption and contraction inner core is concentrically embedded at the inner end of the waterproof outer pipe, the water guide ball is connected with one end of the waterproof outer pipe far away from the inner wall of the movable ball, the water guide ball is also connected with the water absorption and contraction inner core, the water guide ball is positioned at one side of the migration sheet close to the water collection sheet, a water falling hole is formed in the water collection sheet, a matched blocking ball is embedded in the water falling hole in a movable manner, a wire drawing is connected between the water absorption and contraction chain and the blocking ball, a reaction layer is connected at the center of the inner part of the movable ball, the reaction layer comprises a water stagnation layer, an auxiliary layer and a waterproof breathable film, the water stagnation layer and the auxiliary layer are distributed in a vertical symmetrical manner, the waterproof breathable film is connected between the water stagnation layer and the auxiliary layer, a plurality of uniformly distributed exhaust holes are formed in the reaction layer, a plurality of uniformly distributed air making rods are embedded in the exhaust holes in a movable, the system balloon is connected in the transfer line upper end and is located the reaction layer upside, friction silk evenly connect in the half section under the transfer line, and friction silk and exhaust hole half section inner wall are inconsistent down.

Furthermore, the migration piece is the cambered surface structure of making progress sunken, and the radian of migration piece is greater than the radian that mobile ball corresponds the region, not only can guarantee that the moisture that moisture absorption vertical retort carried can be in the same direction as falling to the piece that catchments on the migration piece, can seal the region of moisture absorption vertical retort when receiving pulling of the shrink chain that absorbs water simultaneously, avoids gaseous leakage from moisture absorption vertical retort after producing gas.

Furthermore, the drawn wires are made of non-water-absorbing flexible materials and are in a loose state, so that moisture can be guaranteed to be accumulated in the water collecting piece to a certain degree and then can be in contact with the water absorption shrinkage chains, the shrinkage action of the water absorption shrinkage chains is triggered, the situation that the blocking balls easily leave the water falling holes to cause that water flows to the reaction layer to generate gas is avoided, and the migration pieces do not seal the area of the moisture absorption vertical wires at the moment to cause gas leakage.

Furthermore, a plurality of inflation holes distributed in an annular array are formed in the upper half section of the movable ball, a plurality of air-blowing membranes corresponding to the inflation holes are connected to the outer end of the movable ball, and the air-blowing membranes can be inflated and expanded after the air-producing rod on the reaction layer produces air, so that the overall buoyancy of the movable ball is improved.

Furthermore, the waterproof outer tube is made of elastic waterproof materials, the water-absorbing shrinkage inner core is made of agave fibers which are shrunk when meeting water, and the water guide ball is made of water-absorbing materials.

Furthermore, the water retaining layer is made of a hard waterproof material, the auxiliary layer is made of graphite powder and reducing iron powder in a mixing mode, the mixing mass ratio is 2-5:1, the graphite powder can improve the heat conduction effect, the heating and drying effect of hot gas on the color master batch is improved, the reducing iron powder can perform oxidation reaction with oxygen in the air, heat is released while oxygen is consumed, and the oxidation phenomenon of the color master batch is improved while auxiliary drying is performed.

Further, system balloon adopts active metal material to make, the friction silk adopts elastic friction material to make, and active metal material reacts with water and generates hydrogen and a large amount of heat, and the heat conductivity of hydrogen is good on the one hand, can fully heat the drying to the color masterbatch, and the density of on the other hand hydrogen is little, can promote the buoyancy of movable ball by a wide margin, and the friction silk can independently be deformed and keep laminating with the auxiliary layer all the time, then the powder process of rubbing releases with gaseous together.

3. Advantageous effects

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

(1) the scheme can be that a plurality of movable balls are movably arranged at the bottom, moisture in a color master batch storage space is absorbed through the moisture absorption vertical wires and is conveyed into the movable balls, then the moisture flows to the water collection sheet through the migration sheet, the water collection sheet is contacted with the water absorption shrinkage chain after being accumulated in the water collection sheet to a certain degree, so that the water shrinkage action of the water absorption shrinkage chain is triggered, then the water absorption shrinkage chain pulls the water collection sheet to be gradually close to the inner wall of the movable balls until the water collection sheet is closed, at the moment, the water absorption shrinkage chain also pulls the blocking ball to open the water collection sheet, the moisture accumulated on the water collection sheet flows to the reaction layer, then a large amount of gas is generated through reaction, and as the gas jet holes at the lower end of the movable balls are blocked, the gas is accumulated in the movable balls at first until the air blowing membrane is inflated and expanded to increase the overall buoyancy of the movable balls for floating, then the gas with heat is ejected from the movable balls and reversely enters the color master batch for heating and drying, and discharges water vapor and oxygen, thereby carrying out high-efficient protection to the color master batch.

(2) The migration piece is the cambered surface structure of making progress sunken, and the radian of migration piece is greater than the radian that mobile ball corresponds the region, not only can guarantee that moisture absorption vertical retort carried and can fall to the piece that catchments in the same direction as on the migration piece, can seal the region of moisture absorption vertical retort when receiving dragging of the chain that contracts that absorbs water simultaneously, avoids gaseous leakage from moisture absorption vertical retort department after producing gas.

(3) The wire drawing is made of non-water-absorbing flexible materials, is in a loose state, can ensure that water can be contacted with the water absorption shrinkage chain after being accumulated in the water collection sheet to a certain degree, thereby triggering the shrinkage action of the water absorption shrinkage chain, avoiding that the blocking ball easily leaves the water falling hole, leading to that water flows to the reaction layer to generate gas all the time, and at the moment, the migration sheet does not seal the area of the water absorption vertical wires, and further leading to gas leakage.

(4) The upper half section of the movable ball is provided with a plurality of inflation holes distributed in an annular array, the outer end of the movable ball is connected with a plurality of air-blowing membranes corresponding to the inflation holes, and the air-blowing membranes can be inflated and expanded after the air-making rod on the reaction layer generates air, so that the integral buoyancy of the movable ball is improved.

(5) The water absorption shrinkage chain comprises a waterproof outer pipe, a water absorption shrinkage inner core and a water guide ball, the water absorption shrinkage inner core is concentrically embedded in the inner end of the waterproof outer pipe, the water guide ball is connected to one end, far away from the inner wall of the movable ball, of the waterproof outer pipe, the water guide ball is further connected with the water absorption shrinkage inner core, the water guide ball is located on one side, close to the water collection sheet, of the migration sheet, water is separated by the waterproof outer pipe when flowing from the migration sheet, only the water collection sheet is accumulated to a certain degree and can be in contact with the water guide ball, then the water is conveyed to the water absorption shrinkage inner core, the water absorption shrinkage inner core absorbs water and shrinks, and the water guide ball pulls the migration sheet to be close to the inner top end of.

(6) The reaction layer includes stagnant water layer, auxiliary layer and waterproof ventilated membrane, and stagnant water layer and auxiliary layer longitudinal symmetry distribute, and waterproof ventilated membrane connects between stagnant water layer and auxiliary layer, and the stagnant water layer plays the location and the guide effect to the pole of making gas, and waterproof ventilated membrane can prevent that moisture from permeating the circulation of allowwing gas simultaneously, and waterproof ventilated membrane can disintegrate gradually under the friction of pole of making gas to the disintegration part can be followed gas and together released to the color masterbatch in and acted on.

(7) The water retaining layer is made of hard waterproof materials, the auxiliary layer is made of graphite powder and reducing iron powder in a mixing mass ratio of 2-5:1, the graphite powder can improve the heat conduction effect, so that the heating and drying effects of hot gas on the color master batch are improved, the reducing iron powder can perform oxidation reaction with oxygen in the air, heat is released while oxygen is consumed, and the oxidation phenomenon of the color master batch is improved while auxiliary drying is performed.

(8) The system gas pole is including making the balloon, transfer line and many friction silk, make the balloon connect in the transfer line upper end and lie in the reaction layer upside, the friction silk evenly connects in the half section under the transfer line, and the friction silk is inconsistent with half section inner wall under the exhaust hole, make the moisture contact on balloon and the stagnant water layer then trigger chemical reaction, release a large amount of gas and heat, utilize the action when releasing gas simultaneously, force through the transfer line and rub between friction silk and the auxiliary layer, and then grind the auxiliary layer and come partial powder and enter into in the gas.

(9) The system balloon adopts active metal material to make, and the friction silk adopts elasticity friction material to make, and active metal material reacts with water and generates hydrogen and a large amount of heat, and the heat conductivity of hydrogen is good on the one hand, can fully heat the drying to the color masterbatch, and the density of on the other hand hydrogen is little, can promote the buoyancy of movable ball by a wide margin, and the friction silk can keep laminating with the auxiliary layer all the time by autonomic deformation, then the friction powder process releases with gas together.

Drawings

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

FIG. 2 is a schematic structural view of a movable ball according to the present invention in a normal state;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic structural view of the expandable ball of the present invention in an expanded state;

FIG. 5 is a schematic view of the structure of the water-shrinkable chain of the present invention.

The reference numbers in the figures illustrate:

the device comprises a material storage box 1, a sealed box cover 2, a movable ball 3, a moisture absorption vertical wire 4, a water collection sheet 5, a migration sheet 6, a water absorption shrinkage chain 7, a waterproof outer pipe 701, a water absorption shrinkage inner core 702, a water guide ball 703, a reaction layer 8, a water retention layer 801, an auxiliary layer 802, a waterproof breathable film 803, an air making rod 9, a balloon making 901, a transmission rod 902, a friction wire 903, a wire drawing 10, a blocking ball 11, an air blowing film 12 and a material separation screen plate 13.

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. 1-2, a storage device for producing tube color master batches comprises a storage box 1, a matched sealed box cover 2 is installed on the storage box 1, a plurality of uniformly distributed stable hemispherical grooves are formed in the bottom end of the storage box 1, matched movable balls 3 are movably embedded in the stable hemispherical grooves, moisture absorption vertical wires 4 are connected to the upper ends of the movable balls 3, air injection holes are formed in the lower ends of the movable balls 3, a partition screen plate 13 is connected to the storage box 1, the moisture absorption vertical wires 4 penetrate through the partition screen plate 13 and extend to the upper side of the partition screen plate, a water collection sheet 5 is connected to the top end of the movable balls 3, a migration sheet 6 is arranged on the upper side of the water collection sheet 5, the moisture absorption vertical wires 4 penetrate through the upper end of the movable balls 3 and are connected with the upper ends of the migration sheet 6, a plurality of uniformly distributed water absorption shrinkage chains 7 are connected between the migration sheet 6 and the inner top end of the movable balls 3, water, the downthehole activity of falling into water is inlayed and is had assorted shutoff ball 11, presses through the action of gravity and realizes the shutoff in the downthehole department of falling into water, prevents that moisture from dropping down for the first time, absorbs water and is connected with wire drawing 10 between shrink chain 7 and the shutoff ball 11, and central department is connected with reaction layer 8 in the mobile ball 3, has seted up a plurality of evenly distributed's exhaust hole on the reaction layer 8, and the activity is inlayed in the exhaust hole has a plurality of evenly distributed's gas making pole 9.

The migration piece 6 is the cambered surface structure of upwards sunken, and the radian of migration piece 6 is greater than the radian that 3 correspond the region of movable ball, the migration piece 6 can realize the migration under the action of dragging of the chain 7 that contracts that absorbs water, and then realize the opening to the hole of falling into water through wire drawing 10, not only can guarantee that moisture absorption vertical retort 4 carries the moisture can fall smoothly to the piece 5 that catchments on the migration piece 6 in, can seal the region of moisture absorption vertical retort 4 when receiving dragging of the chain 7 that contracts that absorbs water simultaneously, avoid gaseous 4 leakage of following moisture absorption vertical retort after producing gas.

The wire drawing 10 is made of a non-water-absorbing flexible material, and the wire drawing 10 is in a loose state, so that the water can be guaranteed to be accumulated in the water collecting sheet 5 to a certain degree and then can be contacted with the water absorption shrinkage chain 7, the shrinkage action of the water absorption shrinkage chain 7 is triggered, the situation that the blocking ball 11 easily leaves a water falling hole is avoided, gas is generated when water flows onto the reaction layer 8 all the time, and the migration sheet 6 does not seal the area of the water absorption vertical wires 4 at the moment, and then gas leakage is caused.

The upper half section of the movable ball 3 is provided with a plurality of inflation holes distributed in an annular array, the outer end of the movable ball 3 is connected with a plurality of air-blowing membranes 12 corresponding to the inflation holes, and after the air-making rod 9 on the reaction layer 8 generates air, the air-blowing membranes 12 can be inflated and expanded, so that the overall buoyancy of the movable ball 3 is improved.

Referring to fig. 5, the water absorption shrinking chain 7 includes a waterproof outer tube 701, a water absorption shrinking inner core 702 and a water guiding ball 703, the water absorption shrinking inner core 702 is concentrically embedded in the inner end of the waterproof outer tube 701, the water guiding ball 703 is connected to one end of the waterproof outer tube 701 far away from the inner wall of the movable ball 3, the water guiding ball 703 is further connected with the water absorption shrinking inner core 702, the water guiding ball 703 is located on one side of the migration sheet 6 close to the water collection sheet 5, water is blocked by the waterproof outer tube 701 when flowing from the migration sheet 6, and can be contacted with the water guiding ball 703 only after accumulating to a certain degree in the water collection sheet 5, so as to deliver the water to the water absorption shrinking inner core 702, and then the water absorption shrinking inner core 702 absorbs water and shrinks, and the migration sheet 6 is pulled by the water guiding ball 703 to be close to the inner top end of the movable ball 3, so as to realize the overall shrinkage.

The waterproof outer tube 701 is made of elastic waterproof materials, the water-absorbing shrinkage inner core 702 is made of agave fibers which shrink when meeting water, and the water guide ball 703 is made of water-absorbing materials.

Referring to fig. 3-4, the reaction layer 8 includes a water-retaining layer 801, an auxiliary layer 802 and a waterproof permeable membrane 803, the water-retaining layer 801 and the auxiliary layer 802 are distributed vertically and symmetrically, and the waterproof permeable membrane 803 is connected between the water-retaining layer 801 and the auxiliary layer 802, the water-retaining layer 801 plays a role in positioning and guiding the gas-making rod 9, the waterproof permeable membrane 803 can prevent moisture from permeating while allowing gas to flow, the waterproof permeable membrane 803 can gradually disintegrate under the friction of the gas-making rod 9, and the disintegrated portion can be released into the color masterbatch along with the gas to perform the function.

The water retaining layer 801 is made of a hard waterproof material, the auxiliary layer 802 is made of graphite powder and reducing iron powder in a mixing mode, the mixing mass ratio is 2-5:1, the graphite powder can improve the heat conduction effect, the heating and drying effects of hot gas on the color master batch are improved, the reducing iron powder can perform oxidation reaction with oxygen in the air, heat is released while oxygen is consumed, and the oxidation phenomenon of the color master batch is improved while auxiliary drying is performed.

The gas making rod 9 comprises a gas making balloon 901, a transmission rod 902 and a plurality of friction wires 903, the gas making balloon 901 is connected to the upper end of the transmission rod 902 and is positioned on the upper side of the reaction layer 8, the friction wires 903 are uniformly connected to the lower half section of the transmission rod 902, the friction wires 903 are abutted to the inner wall of the lower half section of the exhaust hole, the gas making balloon 901 is contacted with moisture on the water retaining layer 801 and then triggers chemical reaction, a large amount of gas and heat are released, and meanwhile, by means of action during gas release, the friction wires 903 and the auxiliary layer 802 are forced to rub through the transmission rod 902, and then the auxiliary layer 802 is ground down to enable part of powder to enter.

System balloon 901 adopts active metal material to make, and friction silk 903 adopts elastic friction material to make, and active metal material reacts with water and generates hydrogen and a large amount of heat, and the heat conductivity of hydrogen is good on the one hand, can fully heat the drying to the color masterbatch, and on the other hand the density of hydrogen is little, can promote movable ball 3's buoyancy by a wide margin, and friction silk 903 can be independently deformed and remain the laminating with auxiliary layer 802 throughout, then the powder process of rubbing releases with gas together.

The invention can be realized by movably arranging a plurality of movable balls 3 at the bottom, absorbing the moisture in the color master batch storage space through the moisture absorption vertical wires 4, conveying the moisture into the movable balls 3, then flowing onto the water collection sheet 5 through the migration sheets 6, contacting with the water absorption shrinkage chain 7 after being gathered to a certain degree in the water collection sheet 5, thereby triggering the water absorption shrinkage chain 7 to contract when encountering water, then pulling the water collection sheet 5 by the water absorption shrinkage chain 7 to gradually approach the inner wall of the movable balls 3 until being closed, at the moment, pulling the blocking ball 11 by the water absorption shrinkage chain 7 to open the water collection sheet 5, leading the moisture gathered on the water collection sheet 5 to flow onto the reaction layer 8, then generating a large amount of gas through reaction, because the gas injection holes at the lower ends of the movable balls 3 are blocked, the gas is gathered in the movable balls 3 at first until the gas blowing films 12 are inflated and expanded to increase the overall buoyancy of the movable balls 3 to float, then the gas with heat is ejected out of the movable ball 3 and reversely enters the color master batch to be heated and dried, and water vapor and oxygen are discharged, so that the color master batch is efficiently protected.

The above are merely preferred embodiments 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 (7)

1. The utility model provides a storage device for production of tubular product masterbatch, includes storage case (1), install assorted sealed case lid (2) on storage case (1), its characterized in that: a plurality of evenly distributed's stable hemisphere groove has been seted up to bottom in storage case (1), the activity of stable hemisphere inslot is inlayed and is had assorted mobile ball (3), but activity ball (3) upper end is connected with moisture absorption vertical filament (4), the fumarole has been seted up to activity ball (3) lower extreme, storage case (1) in-connection has material partition otter board (13), and moisture absorption vertical filament (4) run through material partition otter board (13) and extend to its upside, the top is connected with water-collecting sheet (5) in the activity ball (3), water-collecting sheet (5) upside is equipped with migration piece (6), and moisture absorption vertical filament (4) run through activity ball (3) upper end and be connected with migration piece (6) upper end, be connected with many evenly distributed's the chain that contracts that absorbs water (7) between migration piece (6) and the interior top of activity ball (3), the outer pipe chain that contracts that absorbs water (7) include waterproof (701), Water absorption and shrinkage inner core (702) and water guide ball (703), the water absorption and shrinkage inner core (702) is concentrically embedded in the inner end of the waterproof outer pipe (701), the water guide ball (703) is connected to the end of the waterproof outer pipe (701) far away from the inner wall of the movable ball (3), the water guide ball (703) is also connected with the water absorption and shrinkage inner core (702), the water guide ball (703) is positioned at one side of the migration sheet (6) close to the water collection sheet (5), a water falling hole is formed in the water collection sheet (5), a matched blocking ball (11) is movably embedded in the water falling hole, a drawing wire (10) is connected between the water absorption and shrinkage chain (7) and the blocking ball (11), the inner center of the movable ball (3) is connected with a reaction layer (8), the reaction layer (8) comprises a water retention layer (801), an auxiliary layer (802) and a waterproof breathable film (803), and the water retention layer (801) and the auxiliary layer (802) are symmetrically distributed up and down, and waterproof ventilated membrane (803) is connected between stagnant water layer (801) and auxiliary layer (802), a plurality of evenly distributed's exhaust hole has been seted up on reaction layer (8), the activity is inlayed in the exhaust hole has a plurality of evenly distributed's system gas pole (9), system gas pole (9) are including system balloon (901), transfer line (902) and many friction silk (903), system balloon (901) are connected in transfer line (902) upper end and are located reaction layer (8) upside, friction silk (903) evenly connected is in transfer line (902) lower half section, and friction silk (903) and exhaust hole lower half section inner wall are inconsistent.

2. The storage device for producing the pipe color master batches is characterized in that: the moving piece (6) is of an upward-concave cambered surface structure, and the radian of the moving piece (6) is larger than that of the corresponding area of the movable ball (3).

3. The storage device for producing the pipe color master batches is characterized in that: the drawn wire (10) is made of a non-water-absorbing flexible material, and the drawn wire (10) is in a loose state.

4. The storage device for producing the pipe color master batches is characterized in that: a plurality of inflation holes distributed in an annular array are formed in the upper half section of the movable ball (3), and a plurality of air-blowing membranes (12) corresponding to the inflation holes are connected to the outer end of the movable ball (3).

5. The storage device for producing the pipe color master batches is characterized in that: the waterproof outer pipe (701) is made of elastic waterproof materials, the water-absorbing shrinkage inner core (702) is made of agave fibers which are shrunk when meeting water, and the water guide ball (703) is made of water-absorbing materials.

6. The storage device for producing the pipe color master batches is characterized in that: the water retaining layer (801) is made of hard waterproof materials, the auxiliary layer (802) is made of graphite powder and reducing iron powder in a mixing mode, and the mixing mass ratio is 2-5: 1.

7. The storage device for producing the pipe color master batches is characterized in that: the balloon (901) is made of active metal materials, and the friction wire (903) is made of elastic friction materials.

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