CN112915914A - High-efficient compounding automatic and quantitative feeding device of weaving usefulness - Google Patents

Abstract

The invention discloses a high-efficiency material mixing and automatic quantitative feeding device for spinning, which comprises a centrifugal wheel and is characterized in that: the centrifugal wheel is characterized in that an inlet is formed in the centrifugal wheel, a storage chamber is arranged below the inlet, a groove is formed in the side of the storage chamber, a centrifugal block is arranged in the groove, an outlet is formed between the centrifugal block and the groove, one side of the outlet is fixedly connected with a first storage chamber, a second storage chamber and a third storage chamber, the centrifugal blocks are connected with one another, an elastic membrane is arranged on the outer side of the centrifugal wheel, a classification chamber is arranged on the outer side of the elastic membrane, an air cavity two is formed between the elastic membrane and the classification chamber, stirring rods are arranged in the first storage chamber, the second storage chamber and the third storage chamber, the air cavity two and the stirring rods are in a matched structure, a clothes storage chamber is arranged below the centrifugal wheel, and an elastic plate is fixed on one side of the clothes storage chamber.

Description

High-efficient compounding automatic and quantitative feeding device of weaving usefulness

Technical Field

The invention relates to the technical field of automatic quantitative feeding of textile materials, in particular to a high-efficiency material mixing and automatic quantitative feeding device for spinning.

Background

With the rise of living standard, the requirement of people for clothes is gradually changed from warm keeping to fashion, light, thin and beautiful clothes become mainstream, a factory produces clothes according to seasons, a feeding device for mixing textile materials cannot automatically change the feeding quantity according to the temperature of the seasons, the filling quantity of the clothes is consistent, and the selection of customers is few, so that the design of the efficient mixing and automatic quantitative feeding device for textile with strong practicability and automatic quantitative feeding is necessary.

Disclosure of Invention

The invention aims to provide an efficient material mixing and automatic quantitative feeding device for spinning, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a high-efficient compounding automatic and quantitative feeding device of weaving usefulness, includes the centrifugal wheel, its characterized in that: the centrifugal wheel is characterized in that an inlet is formed in the centrifugal wheel, a storage chamber is arranged below the inlet, a groove is formed in the side of the storage chamber, a centrifugal block is arranged in the groove, an outlet is formed between the centrifugal block and the groove, one side of the outlet is fixedly connected with a first storage chamber, a second storage chamber and a third storage chamber, and the centrifugal blocks are connected with each other.

According to the technical scheme, the outer side of the centrifugal wheel is provided with the elastic membrane, the outer side of the elastic membrane is provided with the classification chamber, the air cavity II is arranged between the elastic membrane and the classification chamber, the stirring rods are arranged in the first storage chamber, the second storage chamber and the third storage chamber, and the air cavity II and the stirring rods are of a matched structure.

According to the technical scheme, a clothes storage room is arranged below the centrifugal wheel, an elastic plate is fixed to one side of the clothes storage room, fixing rods are arranged below the first storage chamber, the second storage chamber and the third storage chamber, a first hole is formed in the fixing rods, a second hole is formed in the second storage chamber, a third hole is formed in the third storage chamber, an air bag is arranged in the middle of the elastic plate, and a heat conducting rod is arranged between the air bag and the stirring rod.

According to the technical scheme, the mixing chamber is arranged below the centrifugal wheel, the mixing chamber is connected with the first hole, the second hole and the third hole through pipelines, the separation chamber is arranged outside the mixing chamber, the convex rod is arranged inside the separation chamber, the convex rod is fixedly connected with the mixing chamber, the inner plug ball is arranged inside the mixing chamber, and the heat storage ball is fixed inside the inner plug ball.

According to the technical scheme, piston plates are arranged on two sides of the protruding rod, a first air cavity is arranged on one side of each piston plate, and a first expansion bag is connected to one end of the first air cavity through a pipeline.

According to the technical scheme, one end of the mixing cavity is connected with a basic cavity through a pipeline, the first expansion bag is connected with the basic cavity through a pipeline, the basic cavity is connected with the second storage chamber through a pipeline, the ball bag is arranged inside the basic cavity, and a top plug is arranged above the ball bag.

According to the technical scheme, the ball is arranged in the basic cavity, the ball and the ball bag are of a matched structure, and the ball and the mixing cavity are of a matched structure.

According to the technical scheme, one side of the first telescopic bag is provided with a hair cavity, the hair cavity is connected with the first storage chamber through a pipeline, one side of the first storage chamber is provided with the first telescopic bag, and the first telescopic bag are of a matched structure.

According to the technical scheme, a hemp cavity is formed in one side of the hair cavity, the hemp cavity is connected with a third storage chamber through a pipeline, the hemp cavity is connected with a telescopic bag, and an air rod is arranged in the hemp cavity.

According to the technical scheme, the opening-closing plate is arranged inside the hemp cavity, one side of the opening-closing plate is provided with the main valve port, and the main valve port is connected with the clothes storage room through a pipeline.

Compared with the prior art, the invention has the following beneficial effects: according to the invention, the centrifugal block is arranged, so that when hemp materials enter the third storage chamber, the rotating speed of the centrifugal block is fastest, the generated air pressure is maximized, the stirring speed of the stirring rod is fastest, and power enough for stirring the hemp materials is generated, so that the hemp materials are dispersed and can be ventilated and dedusted, and the hemp materials can be more conveniently used later, textile materials are stirred separately to achieve the effects of ventilation and dehumidification, the bacteria breeding is prevented, and the condition that the human body is sick due to long-term contact with the human body when clothes are filled later is avoided.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall elevational cross-sectional structural view of the present invention;

FIG. 2 is a schematic diagram of the system of the present invention;

FIG. 3 is a schematic view of a mixing chamber of the present invention;

in the figure: 1. a separation chamber; 2. a nose bar; 3. a mixing chamber; 4. an inner plug ball; 5. a heat storage ball; 6. a piston plate; 7. a first air cavity; 8. a centrifugal wheel; 9. a centrifugal block; 10. an inlet; 11. a first storage chamber; 12. a second storage chamber; 13. a third storage chamber; 14. an elastic film; 15. a stirring rod; 16. a second air cavity; 17. a clothes storage room; 18. an elastic plate; 19. a first hole; 20. a second hole; 21. a third hole; 22. an air bag; 23. a bellows; 24. a basal lumen; 25. a top plug; 26. a balloon; 27. a ball bearing; 28. a hair cavity; 29. a hemp cavity; 30. a gas lever; 31. opening a plywood; 32. the balloon is contracted.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: the utility model provides a high-efficient compounding automatic and quantitative feeding device of weaving usefulness, includes centrifugal wheel 8, its characterized in that: the centrifugal wheel 8 is internally provided with an inlet 10, a storage chamber is arranged below the inlet 10, a groove is arranged on the side of the storage chamber, a centrifugal block 9 is arranged in the groove, an outlet is arranged between the centrifugal block 9 and the groove, one side of the outlet is fixedly connected with a first storage chamber 11, a second storage chamber 12 and a third storage chamber 13, the centrifugal blocks 9 are connected with each other, cotton, hemp and wool mixed prevention materials which are mixed together are put into the centrifugal wheel, the centrifugal wheel rotates all the time, an inlet is reserved in the middle of the top, textile materials enter the storage chamber through the inlet, the textile materials rotate centrifugally in the storage chamber, three grooves are arranged on the periphery of the storage chamber, three centrifugal blocks are arranged in the three grooves, the three centrifugal blocks are different in weight, when the centrifugal wheel rotates, the centrifugal block with the lightest weight is firstly separated from the groove, the centrifugal block with medium weight also begins to be separated from the corresponding groove after the centrifugal wheel rotates for a section, the heaviest centrifugal block is separated from the corresponding groove, the wool is lightest in the cotton, hemp and wool three materials, when the centrifugal wheel rotates initially, the wool material is thrown out to the outermost periphery by the centrifugal wheel and is thrown out through a channel between the lightest centrifugal block and the groove, after the wool material is gradually thrown out, the weight is reduced, the rotating speed of the centrifugal wheel is accelerated, the residual cotton material in the centrifugal wheel can be thrown to the edge of the centrifugal wheel instead of the previous wool material and is thrown out through a pipeline between the medium-mass centrifugal block and the groove, the medium-mass centrifugal block can pull the lighter centrifugal block due to larger inertia, the lightest centrifugal block can be attached to the groove to block the pipeline, the cotton material can be collected through the pipeline at the moment, only the hemp material is left at last, the rotating speed of the centrifugal wheel is increased, the heaviest centrifugal block is separated from the groove, and the inertia is maximum due to the largest mass, the other two centrifugal blocks are pulled back into the groove to block the pipeline, and then the hemp materials are collected through the pipeline between the heaviest centrifugal block and the groove, so that the purpose of finely separating the mixed materials is achieved, and the waste materials are reused;

an elastic membrane 14 is arranged on the outer side of the centrifugal wheel 8, a classification chamber is arranged on the outer side of the elastic membrane 14, a second air cavity 16 is arranged between the elastic membrane 14 and the classification chamber, stirring rods 15 are arranged in the first bin storage chamber 11, the second bin storage chamber 12 and the third bin storage chamber 13, the second air cavity 16 and the stirring rods 15 are of a matched structure, after cotton, hemp and wool textile materials are classified and collected, wool materials enter the first bin storage chamber, cotton materials enter the second bin storage chamber, hemp materials enter the third bin storage chamber, a first centrifugal block is matched with the first bin storage chamber, a second centrifugal block is matched with the second bin storage chamber, a third centrifugal block is matched with the third bin storage chamber, when the first centrifugal block is separated from a groove, the part of the first centrifugal block, which protrudes out the elastic membrane, pushes out the centrifugal block for a while, the elastic membrane rotates, and the centrifugal block is matched with the air cavity, the air in the air cavity is discharged into the stirring rod, the higher the rotating speed of the centrifugal wheel is, the higher the generated air pressure is, the lower the rotating speed of the centrifugal wheel is, the lower the generated air pressure is, when the centrifugal block I is separated from the groove, the lower the rotating speed of the centrifugal wheel is, the lower the generated air pressure is, the lower the rotating speed of the stirring rod is, the lower the strength is, the lower the stirring speed can also protect the wool material, the wool material is prevented from being damaged by the stirring rod, the wool material is dispersed and ventilated while being stirred by the stirring rod, so that the wool material becomes as soft and fluffy as possible, the lower the air output in the storage chamber I can also ensure that the wool material cannot be blown to be dispersed to cause difficult later-stage clothes filling, when the cotton material is conveyed into the storage chamber II, the rotating speed of the centrifugal block II is increased, the generated air pressure is enhanced, the speed of the stirring rod in the storage chamber II is increased, and the density of the cotton material, the cotton material can be stirred only when the stirring rod is accelerated, the cotton material is dispersed and ventilated, the cotton material is softened as much as possible, when the hemp material enters the third storage chamber, the rotating speed of the centrifugal block is fastest, the generated air pressure is maximum, the stirring rod is fastest, power enough for stirring the hemp material is generated, the hemp material is dispersed and can be ventilated and dedusted, the hemp material can be used more conveniently and rapidly, the textile material is stirred and separated to achieve the effects of ventilation and dehumidification, the bacteria breeding is prevented, and the phenomenon that the human body is sick due to the fact that the human body is contacted with the human body for a long time when clothes are filled later is avoided;

a clothes storage room 17 is arranged below the centrifugal wheel 8, an elastic plate 18 is fixed on one side of the clothes storage room 17, a first storage chamber 11, a second storage chamber 12 and a third storage chamber 13 are respectively provided with a fixed rod, a first hole 19 is arranged inside the fixed rod, a second hole 20 is arranged below the second storage chamber 12, a third hole 21 is arranged below the third storage chamber 13, an air bag 22 is arranged in the middle of the elastic plate 18, a heat conducting rod is arranged in the middle of the air bag 22 and the stirring rod 15, clothes to be filled are firstly put into the clothes storage room before the clothes are filled, the clothes storage room can judge whether the clothes are children or adults according to the size of the put clothes, the clothes of the children are small in size, the space for supporting the elastic plate after the clothes are put into the clothes storage room is small, the area for opening the holes is small, the feeding speed is slow, and when the clothes of adults are put into the clothes, the space for supporting the elastic plate is large, the area for driving the holes to be supported is large, the feeding speed of textile materials is high, the clothes of children are small, the number of required textiles is small, the clothes of adults are large, the number of required textiles is large, a small amount of textile materials are accumulated in corners and are not stirred when the textile materials are subjected to dispersive ventilation in a storage room, when the textile materials fall into a fixed rod, the clothes extrude an air bag, gas in the air bag is extruded into the hole opening, meanwhile, the temperature of the storage room is increased due to long-time heating of a stirring rod, the temperature of the stirring rod is transmitted into the air bag through a heat conduction pipe, the heat in the storage room is shared, the textile materials are prevented from being damaged due to overhigh temperature, the gas extruded from the air bag has certain temperature, and the textile materials can be subjected to secondary ventilation drying more effectively;

the mixing cavity 3 is arranged below the centrifugal wheel 8, the mixing cavity 3 is connected with the first hole 19, the second hole 20 is connected with the third hole 21 through pipelines, the separation cavity 1 is arranged outside the mixing cavity 3, the convex rod 2 is arranged inside the separation cavity 1, the convex rod 2 is fixedly connected with the mixing cavity 3, the inner plug ball 4 is arranged inside the mixing cavity 3, the heat storage ball 5 is fixed inside the inner plug ball 4, the two convex rods are arranged outside the mixing cavity, one convex rod is communicated with the feeding, the calculated mixed textile material is introduced into the mixing cavity, the stirring rod is operated, the mixing cavity is operated, the proportioned textile material can be mixed in the operation process of the mixing cavity, the non-uniformity of the textile material during later filling is avoided, the rotating speed of the inner plug ball for stirring in the mixing cavity is consistent with the rotating speed of the stirring rod, the inner plug ball for stirring is slightly slow when the wool material is much, the rotating speed is moderate when the cotton material is much, when the amount of the hemp materials is large, the rotating speed is slightly high, so that the textile materials are protected and prevented from being damaged, the heat storage balls in the inner plug balls can be heated when rotating, when the amount of the wool materials is large, the temperature of the heat storage balls is low, the wool materials cannot be burnt, the heat storage balls rise to drive the inner plug balls to rise, and at the moment, the textile materials in the mixing cavity can flow out from the other outlet to be filled with the next materials;

the two sides of the convex rod 2 are provided with piston plates 6, one side of the piston plate 6 is provided with an air cavity I7, one end of the air cavity I7 is connected with a telescopic bag 23 through a pipeline, the inner plug ball can drive the convex rod to rotate when rotating, the convex rod can drive the piston plate to move back and forth in the air cavity to generate a large amount of air pressure, meanwhile, the separation cavity can also frequently intake and exhaust air due to the back and forth movement of the piston plate, then part of heat in the mixing cavity is taken away, the textile material is prevented from being burnt out by high temperature generated in a short time when the inner plug ball rotates, the temperature of the mixing cavity can be effectively controlled to be slowly increased in a certain range through the intake and exhaust of the separation cavity, the temperature of the heat storage ball can be dried for the textile material, the inner plug ball can rise to discharge the textile material after rotating for a certain time, at the moment, no textile material exists in the mixing, the heat storage balls are cooled and reset to wait for the next batch of textile materials to enter, so that the situation that the textile materials are discharged without being mixed is avoided;

one end of the mixing cavity 3 is connected with a basic cavity 24 through a pipeline, the telescopic bag 23 is connected with the basic cavity 24 through a pipeline, the basic cavity 24 is connected with the storage chamber II 12 through a pipeline, a balloon 26 is arranged inside the basic cavity 24, a top plug 25 is arranged above the balloon 26, textile materials in the mixing cavity enter the basic cavity after being mixed and stirred, a piston plate moves back and forth to generate air pressure in the air cavity and discharge the air pressure into the telescopic bag I, the piston plate moves back and forth, the telescopic bag I moves greatly under the action of air inlet and air exhaust, the telescopic bag is in direct contact with the outside air to sense the outside air temperature, when the weather is slightly cold, the air discharged from the pair of basic cavities of the telescopic bag is cold air, the balloon in the basic cavity can be greatly contracted to drive the top plug to descend, the top plug descends for a large distance, a channel is opened to be large, cotton materials in the storage chamber II can begin to be, the mixed basic materials are supplemented, when the temperature is moderate, the temperature of the air discharged into the basic cavity by the telescopic bag is normal, the balloon can only be normally contracted, the descending amplitude of the top plug is small, the cotton materials discharged into the basic cavity are less at the moment, when the outside temperature is high, the balloon keeps the original shape, the top plug is fixed, other materials are not added into the basic cavity, the mixed materials in the basic cavity are basic materials used for filling clothes, the filling is properly carried out according to the temperature in season, more cotton materials are added when the temperature is low, the normal amount of cotton materials are added when the temperature is moderate, and the surplus cotton materials are not added when the temperature is high, so that the heat retention property of the clothes is ensured;

the ball 27 is arranged in the basic cavity 24, the ball 27 and the ball bag 26 are of a matched structure, the ball 27 and the mixing cavity 3 are of a matched structure, when the external air temperature of the ball bag is low, the ball bag contracts more, the ball starts to rotate, the ball can rotate due to no obstruction of the ball bag, the cotton material and the mixed material added in the later period are stirred to form the filling material suitable for the season, due to the fact that the cotton material is more, the required force during stirring is large, the contact area between the ball and the ball bag is small, the force generated during rotation of the ball is large, stirring is more uniform, when the cotton material is less, the contact area between the ball and the ball bag is large, the force generated during rotation of the ball is small, the material cannot be stirred and damaged during stirring, and the effect of automatically regulating and controlling the cotton adding amount is;

one side of the telescopic bag 23 is provided with a hair cavity 28, the hair cavity 28 is connected with the storage chamber 11 through a pipeline, one side of the storage chamber 11 is provided with a telescopic bag 32, the telescopic bag 32 and the telescopic bag 23 are of a matched structure, cotton materials are mixed by mixed materials which are stirred in the basic cavity, basic work is finished, the mixed materials can be discharged by the balls when the basic cavity is filled with the mixed materials, the mixed materials begin to enter the hair cavity, the mixed materials are matched with the ball bags due to the fact that the balls are oval, the mixed materials are discharged into the hair cavity, the mixed materials discharged into the hair cavity can continue to be added with proper hair materials according to air temperature, the rotating speeds of the balls in the hair cavity and the balls in the basic cavity are consistent, when the rotating speeds of the balls in the hair cavity are high, the balls can rub with the ball bags above to generate heat, the ball bags in the hair cavity are heated to expand, the heat is transferred to the telescopic bag, the shrinkage bag is heated to expand outwards, until the outer expansion reaches the pipeline communicated with the hair cavity, the hair material can enter the hair cavity, because the outside air temperature is cooler when the rotation speed of the ball in the basic cavity is higher, the heat retention of the hair material can be increased by adding the hair material, when the air temperature is lower, the rotation speed of the ball in the basic cavity is lower, the ball in the hair cavity can be driven to rotate at a lower speed, the heat generated by the ball bag in the hair cavity is insufficient, the outward expansion amplitude of the shrinkage bag is smaller, less or no hair material enters the hair cavity, no hair material can enter the hair cavity when the weather is hotter, and the clothes can be kept cool;

one side of the hemp cavity 28 is provided with a hemp cavity 29, the hemp cavity 29 is connected with the third storage chamber 13 through a pipeline, the hemp cavity 29 is connected with a flexible bag 23, an air rod 30 is arranged in the hemp cavity 29, the mixed material in the hemp cavity is discharged into the hemp cavity, the weight of the mixed material is increased due to the fact that the textile material is added twice subsequently, when the mixed material enters the hemp cavity, external force is needed, the air cavity is connected with the flexible bag, a piston plate drives the air in the air cavity to generate an air pressure effect of one inlet and one outlet, the flexible bag discharges the mixed material in the hemp cavity into the flexible bag by means of the air pressure, then the mixed material is discharged into the hemp cavity through the flexible bag, the more the mixed material in the flexible bag is, the greater the pressure applied to the mixed material by the air pressure is greater, the smaller the force applied to the air rod is, the smaller the caliber generated by the descending of the air rod is smaller, the less hemp material is discharged into the third storage chamber, and, the pressure exerted by the air pressure on the mixed material is smaller, the pressure exerted on the air rod is larger, the descending caliber of the air rod is larger, the hemp material discharged into the hemp cavity is more, and the quantitative proportioning effect of the hemp material and the existing mixed material is achieved;

the hemp cavity 29 is internally provided with a opening-closing plate 31, one side of the opening-closing plate 31 is provided with a main valve port, the main valve port is connected with the clothes storage room 17 through a pipeline, the opening-closing plate moves along with the up-and-down movement of the air rod, when more mixed materials are in the hemp cavity, the descending amplitude of the air rod is smaller, the descending amplitude of the opening-closing plate is also smaller, the opening caliber of the main valve port is larger, a large amount of mixed materials are filled into clothes through the main valve port, when less mixed materials are in the hemp cavity, the descending amplitude of the air rod is larger, the descending amplitude of the opening-closing plate is also larger, the opening caliber of the main valve port is smaller, the speed of filling the clothes is slower, the effect of keeping the quantity of the mixed materials in the hemp cavity stable is achieved, and the condition that the quantity of the existing mixed materials is more or less in the hemp supplement process, and.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a high-efficient compounding automatic and quantitative feeding device of weaving usefulness, includes centrifugal wheel (8), its characterized in that: the novel centrifugal wheel is characterized in that an inlet (10) is formed in the centrifugal wheel (8), a storage chamber is arranged below the inlet (10), a groove is formed in the side of the storage chamber, a centrifugal block (9) is arranged in the groove, an outlet is formed between the centrifugal block (9) and the groove, and one side of the outlet is fixedly connected with a first storage chamber (11), a second storage chamber (12) and a third storage chamber (13).

2. The efficient mixing and automatic quantitative feeding device for spinning according to claim 1, which is characterized in that: the outer side of the centrifugal wheel (8) is provided with an elastic membrane (14), the outer side of the elastic membrane (14) is provided with a classification chamber, an air cavity II (16) is arranged between the elastic membrane (14) and the classification chamber, stirring rods (15) are arranged in the storage chamber I (11), the storage chamber II (12) and the storage chamber III (13), and the air cavity II (16) and the stirring rods (15) are of a matched structure.

3. The efficient mixing and automatic quantitative feeding device for spinning according to claim 2, is characterized in that: the below of centrifugal wheel (8) is provided with the clothing and deposits between (17), one side that the clothing was deposited between (17) is fixed with springboard (18), storage chamber one (11), the below of storage chamber two (12) and storage chamber three (13) all is provided with the dead lever, the inside of dead lever is provided with hole one (19), the below of storage chamber two (12) is provided with hole two (20), the below of storage chamber three (13) is provided with hole three (21), the centre of springboard (18) is provided with gasbag (22), gasbag (22) and the centre of puddler (15) are provided with the heat conduction pole.

4. The efficient mixing and automatic quantitative feeding device for spinning according to claim 3, is characterized in that: the below of centrifugal wheel (8) is provided with hybrid chamber (3), hybrid chamber (3) and hole (19), hole two (20) are the pipe connection with hole three (21), the outside of hybrid chamber (3) is provided with disengagement chamber (1), the inside of disengagement chamber (1) is provided with nose bar (2), nose bar (2) and hybrid chamber (3) fixed connection, the inside of hybrid chamber (3) is provided with interior stopcock (4), the inside of interior stopcock (4) is fixed with stores up hot ball (5).

5. The efficient mixing and automatic quantitative feeding device for spinning according to claim 4, is characterized in that: piston plates (6) are arranged on two sides of the convex rod (2), a first air cavity (7) is arranged on one side of each piston plate (6), and a first expansion bag (23) is connected to one end of each first air cavity (7) through a pipeline.

6. The efficient mixing and automatic quantitative feeding device for spinning according to claim 5, is characterized in that: one end pipe connection of hybrid chamber (3) has basic chamber (24), flexible bag (23) are the pipe connection with basic chamber (24), basic chamber (24) are the pipe connection with storage room two (12), the inside in basic chamber (24) is provided with sacculus (26), the top of sacculus (26) is provided with top stopper (25).

7. The efficient mixing and automatic quantitative feeding device for spinning according to claim 6, is characterized in that: the inside of basis chamber (24) is provided with ball (27), ball (27) and sacculus (26) are the cooperation structure, ball (27) and mixing chamber (3) are the cooperation structure.

8. The efficient mixing and automatic quantitative feeding device for spinning according to claim 7, is characterized in that: one side of the first telescopic bag (23) is provided with a hair cavity (28), the hair cavity (28) is connected with the first storage chamber (11) through a pipeline, one side of the first storage chamber (11) is provided with a telescopic bag (32), and the telescopic bag (32) and the telescopic bag (23) are of a matched structure.

9. The efficient mixing and automatic quantitative feeding device for spinning according to claim 8, is characterized in that: a hemp cavity (29) is arranged on one side of the hair cavity (28), the hemp cavity (29) is connected with the third storage chamber (13) through a pipeline, the hemp cavity (29) is connected with the telescopic bag (23), and an air rod (30) is arranged in the hemp cavity (29).

10. The efficient mixing and automatic quantitative feeding device for spinning according to claim 9, is characterized in that: a opening-closing plate (31) is arranged in the hemp cavity (29), a main valve port is arranged on one side of the opening-closing plate (31), and the main valve port is connected with the clothes storage room (17) through a pipeline.

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