CN216879092U - Spandex solvent additive delivery device - Google Patents

Abstract

The utility model discloses an additive feeding device of a spandex solvent, belonging to the technical field of spandex additive mixing, which comprises a solution tank, wherein the top of the solution tank is provided with a solution motor, and the inside of the solution tank is provided with a stirring paddle, and the stirring paddle is connected to a driving shaft of the solution motor; throw the feed bin, for leaking hopper-shaped structure, the feed inlet has been seted up at its top, and top center department has still set up and has thrown the material motor, and inside has set up the powder stirring leaf, throw the feed bin setting in the top of solution tank, throw and pass through the pipe connection between feed bin bottom and the solution tank, can carry out the homogeneous mixing with all pulverous additives after the premix, more easily with all additive pre-mixings even, then step by step a small amount in proper order with even additive sneak into the solvent for the resistance of solvent and additive stirring is littleer, is difficult for the caking moreover, makes the additive homogeneous mixing more easily in the solvent.

Description

Spandex solvent additive delivery device

Technical Field

The utility model relates to the technical field of spandex additive mixing, in particular to an additive feeding device for a spandex solvent.

Background

A plurality of additives are required to be added into spandex textile raw materials, most of the additives are powdery substances, common additives are packaged in bags, the total amount of a solvent of the spandex raw materials is large, the required additives are also required to be more, when the additives are added at present, one bag of powdery additives are all put into the solvent, and then stirring is carried out, however, in the adding mode, when the additives are put into the solvent, caking is formed very easily, the additives are not beneficial to uniform dispersion, the caking is difficult to disperse in the solvent, the solvent is difficult to mix for a long time, the caking is difficult to be completely uniform, small blocks of the additives are contained in the solvent, and the caking can damage a delivery pump.

The existing additive feeding is characterized in that one additive is continuously fed every time different additives are fed, different types of additives are replaced after the feeding is finished, the additives are fed again according to the amount, the mixing uniformity of the additive materials is not facilitated, the use requirement can be met only by longer stirring and mixing, the consumed time is large, and the mixing uniformity of the powdery additives in the solvent is difficult.

Based on this, the utility model designs an additive feeding device of spandex solvent to solve the problems.

Disclosure of Invention

The utility model aims to provide an additive feeding device for a spandex solvent, which can pre-mix and uniformly stir all powdery additives, so that all the additives are easier to pre-mix uniformly, and then the uniform additives are mixed into the solvent in sequence in small steps, so that the stirring resistance of the solvent and the additives is smaller, the additives are not easy to block, and the additives are easier to uniformly mix in the solvent.

The utility model is realized by the following steps: an additive delivery device for spandex solvent, comprising:

the solution tank is a reaction tank body for storing solution, the top of the solution tank is provided with a solution motor, and the inside of the solution tank is provided with a stirring paddle which is connected to a driving shaft of the solution motor;

the feeding bin is of a funnel-shaped structure, a feeding hole is formed in the top of the feeding bin, a feeding motor is further arranged in the center of the top of the feeding bin, powder stirring blades are arranged inside the feeding bin, the feeding bin is arranged above the solution tank, and the bottom of the feeding bin is connected with the solution tank through a pipeline;

and the water inlet of the delivery pump is connected to the liquid outlet pipeline at the bottom of the solution tank, and the water outlet of the delivery pump is connected with an external production pipeline.

Furthermore, a feed valve is also arranged on a connecting pipeline between the bottom of the feeding bin and the solution tank.

Further, the powder stirring blade is a spiral lifting blade.

Furthermore, the rotating shafts of the motors on the solution tank and the feeding bin are both vertically arranged, the rotating axis of the stirring paddle is the same as the vertical axis in the solution tank, and the rotating axis of the powder stirring blade coincides with the vertical axis of the feeding bin.

Furthermore, the feeding bin and the feeding hole are funnel-shaped structures with large top and small bottom, and the top opening of the feeding hole is arranged in an outward inclined mode.

Furthermore, a dust removal pipe is hermetically connected between the top of the inner cavity of the feeding bin and the top of the inner cavity of the solution tank, and a valve and a fan are further arranged on the dust removal pipe.

The utility model has the beneficial effects that: 1. according to the utility model, the feeding bin for containing the powder additive is additionally arranged above the solution tank, so that all the powder additives of different types and quantities can be uniformly mixed in advance, more powder of different types does not need to be mixed in the solution, and only the uniformly mixed powder additive needs to be stirred and dissolved in the solution;

2. this device is because the additive of in bags is put in advance in throwing the feed bin, and not whole bag pours into the solution tank, consequently can get into the speed and the flow of solution through feed valve control additive powder to can be with additive powder a small amount of a lot of interpolation, and constantly stir the solvent in the solution tank, make more even dissolving in the solvent of powdered additive, the mixed effect is better.

Drawings

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a solution tank, 11-a solution motor, 12-a stirring paddle, 13-a feed valve, 14-a liquid conveying pipe, 2-a feeding bin, 21-a feeding motor, 22-a powder stirring blade, 23-a feed inlet, 24-a dust removal pipe and 3-a conveying pump.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: an additive delivery device for spandex solvent, comprising:

the solution tank (1) is a reaction tank body for storing solution, the top of the solution tank is provided with a solution motor (11), the inside of the solution tank is provided with a stirring paddle (12), and the stirring paddle (12) is connected to a driving shaft of the solution motor (11);

the feeding bin 2 is of a funnel-shaped structure, a feeding hole 23 is formed in the top of the feeding bin, a feeding motor 21 is further arranged in the center of the top of the feeding bin, a powder stirring blade 22 is arranged inside the feeding bin, the feeding bin 2 is arranged above the solution tank 1, and the bottom of the feeding bin 2 is connected with the solution tank 1 through a pipeline;

delivery pump 3, its water inlet is connected on the play liquid pipeline of 1 bottom of solution tank, and its delivery port and external production pipe connection can be with all powdered additives, and after the premixing and carry out the homogeneous mixing, more easily with all additive homogeneous mixing, then the step of subdividing is a small amount of in proper order with even additive sneak into solvent for the resistance of solvent and additive stirring is littleer, is difficult for the caking moreover, makes the additive homogeneous mixing more easily in the solvent.

The feeding valve 13 is arranged on a connecting pipeline between the bottom of the feeding bin 2 and the solution tank 1, and the flow rate of the additive is controlled through the feeding valve 13, so that the adding speed is controllable, and the phenomenon that the additive is caked due to too large solvent amount is avoided;

the powder stirring blade 22 is a spiral lifting blade, so that the powdery additive can continuously rise, disperse and stir, and the powder at the bottom and the powder above are uniformly mixed and stirred;

the rotating shafts of the motors on the solution tank 1 and the feeding bin 2 are both vertically arranged, the rotating axis of the stirring paddle 12 is the same as the vertical axis in the solution tank 1, and the rotating axis of the powder stirring blade 22 is superposed with the vertical axis of the feeding bin 2, so that the stirring in the solution tank 1 and the feeding bin 2 can be more uniform;

the feeding bin 2 and the feeding port 23 are of funnel-shaped structures with large upper parts and small lower parts, and the top opening of the feeding port 23 is arranged in an outward inclined manner, so that bagged powder additives can be conveniently fed into the feeding bin 2;

still sealing connection has removed dust pipe 24 between the inner chamber top of throwing feed bin 2 and the inner chamber top of solution jar 1, still set up valve and fan on the pipe 24 that removes dust, be convenient for absorb the raise dust in throwing the feed bin, be convenient for remove dust to throwing feed bin 2, when powder stirring leaf 22 constantly lifts up the powder additive, siphons away the dust, avoids the dust to raise and wafts.

In one embodiment of the utility model:

the embodiment of the utility model provides a spandex solvent additive delivery device, and the utility model has the following technical problems: 1. the adding of the additives in the spandex solution is carried out by calculating the total amount, and during adding, all the powder in bags is poured into the solvent once, because the amount of the powder in each bag is large, the powder is difficult to stir and disperse immediately after being added into one bag once, and the powder is easy to agglomerate; 2. different powders are continuously put into the solution tank 1, and different additives are difficult to be mixed uniformly, so that various additives in the solution have higher concentration at different local positions and lower concentration at other local positions, and the mixing uniformity can be slightly improved by stirring for a long time.

The realized technical effects are as follows: 1. according to the utility model, the feeding bin 2 for containing the powder additives is additionally arranged above the solution tank 1, so that all the powder additives of different types and quantities can be uniformly mixed in advance, more powder of different types does not need to be mixed in the solution, and only the uniformly mixed powder additives need to be stirred and dissolved in the solution;

2. this device is because the additive of in bags is put in advance in throwing feed bin 2, rather than whole bag pour into solution tank 1, consequently can get into the speed and the flow of solution through feed valve 13 control additive powder, thereby can add a small amount of a lot of additive powder, and constantly stir the solvent in solution tank 1, make more even dissolving in the solvent of powdery additive, the mixing effect is better, and powder and stirring far more mix the homogeneity than stirring the powder in the solution more easily.

In order to solve the above problems, the technical solution in the embodiments of the present invention has the following general idea:

for better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

When the device is manufactured, a conventional reaction kettle is manufactured firstly to serve as a solution tank 1, a solution motor 11 is arranged at the top of the solution tank 1, a rotating shaft of the solution motor 11 is arranged vertically downwards, a conventional stirring paddle 12 is installed on the rotating shaft, an outlet at the bottom of the solution tank 1 is connected with a conveying pump 3, the conveying pump 3 serves as a liquid conveying device, and a ball valve is additionally arranged between the conveying pump 3 and the solution tank 1 to control whether solution in the solution tank 1 flows out or not; the top of the solution tank 1 is also connected with a liquid conveying pipe 14 which is used for independently conveying the solvent into the solution tank 1 and is separately conveyed with the powdered additive, the liquid conveying pipe 14 is connected with an external solvent conveying pipeline, and a control valve is required to be independently arranged on the liquid conveying pipe 14.

Then, a feeding pipeline is connected to the top of the solution tank 1, and a feeding valve 13 is arranged on the feeding pipeline of the solution tank 1;

a funnel-shaped feeding bin 2 is manufactured above the solution tank 1, the feeding bin 2 is of a conical structure with a large upper part and a small lower part, the top of the feeding bin 2 is closed, a small feeding hole 23 is formed in the closed top of the feeding bin 2, the feeding hole 23 is also of a funnel-shaped structure, and a rubber plug serving as a sealing cover is arranged on the feeding hole 23;

the top of the feeding bin 2 is also provided with a feeding motor 21, a driving shaft of the feeding motor 21 also vertically extends downwards into the feeding bin 2, a powder stirring blade 22 is installed on the driving shaft of the feeding motor 21, the powder stirring blade 22 is a blade of a spiral elevator and can continuously convey solid powder at the bottom upwards, and the powder stirring blade 22 is installed in the feeding bin 2 in a sealing manner;

the outlet at the bottom of the feeding bin 2 is connected to a feeding pipeline provided with a feeding valve 13, so that the feeding bin 2 is communicated with the solution tank 1 in a sealing manner.

When the utility model is used, a solvent is fed into a solution tank 1, the solvent is conveyed through an original liquid conveying pipe 14 of the solution tank 1, after a certain amount of the solvent is fed, the liquid conveying pipe 14 is closed, then bagged additives matched in proportion are poured into a feeding bin 2 through a feeding port 23, all kinds of powdery additives with proper proportion are fed into the feeding bin 2, a rubber plug is used for sealing and plugging the feeding port 23, then a feeding motor 21 is started, a powder stirring blade 22 starts to rotate, additive powder at the bottom of the feeding bin 2 is continuously stirred and conveyed upwards, when the powder is conveyed to the upper end of the powder stirring blade 22, no receiving object exists, the powder is scattered to the lower part of the periphery and returns to an additive accumulation cone at the bottom of the feeding bin 2, then the powder is continuously conveyed upwards, the powder is continuously dropped and scattered, so that various powdery additives are quickly and uniformly stirred, and the additive is still in a powdery state, the powder is easy to stir evenly because the mutual mixing resistance of the powder is not large, and the powder stirring blade 22 is controlled to stir continuously;

meanwhile, the solution motor 11 is started, and the stirring paddle 12 is controlled to stir the solvent to rotate the solvent;

then open feed valve 13, the mixed additive powder of stirring falls into solution tank 1 downwards, control powder flow through feed valve 13, it is as even as possible, ensure that the velocity of flow can not be too fast, if the speed can open feed valve 13 by intermittent type nature too fast, the continuous downward solvent top of being stirred in solution tank 1 of additive powder that the flow is less is fallen into, the continuous solvent dissolving mixture by stirring of powdered additive this moment, can be more rapid more even mixture in the solvent, form effective reaction, and the additive does not control the flow and scatters and drop into in solution tank 1, the difficult caking of additive powder, stir more laborsaving, stir more evenly.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (6)

1. An additive delivery device for spandex solvent, comprising:

the solution tank (1) is a reaction tank body for storing solution, the top of the solution tank is provided with a solution motor (11), the inside of the solution tank is provided with a stirring paddle (12), and the stirring paddle (12) is connected to a driving shaft of the solution motor (11);

the feeding bin (2) is of a funnel-shaped structure, the top of the feeding bin is provided with a feeding hole (23), the center of the top of the feeding bin is also provided with a feeding motor (21), the inside of the feeding bin is provided with a powder stirring blade (22), the feeding bin (2) is arranged above the solution tank (1), and the bottom of the feeding bin (2) is connected with the solution tank (1) through a pipeline;

and a water inlet of the delivery pump (3) is connected to a liquid outlet pipeline at the bottom of the solution tank (1), and a water outlet of the delivery pump is connected with an external production pipeline.

2. The spandex solvent additive delivery device of claim 1, wherein: a feed valve (13) is also arranged on a connecting pipeline between the bottom of the feeding bin (2) and the solution tank (1).

3. The spandex solvent additive delivery device of claim 1, wherein: the powder stirring blade (22) is a spiral lifting blade.

4. The spandex solvent additive delivery device of claim 1, wherein: the rotating shafts of the motors on the solution tank (1) and the feeding bin (2) are both vertically arranged, the rotating axis of the stirring paddle (12) is the same as the vertical axis in the solution tank (1), and the rotating axis of the powder stirring blade (22) coincides with the vertical axis of the feeding bin (2).

5. The spandex solvent additive delivery device of claim 1, wherein: the feeding bin (2) and the feeding hole (23) are funnel-shaped structures with large upper parts and small lower parts, and the top opening of the feeding hole (23) is arranged in an outward inclined mode.

6. The spandex solvent additive delivery device of claim 1, wherein: and a dust removal pipe (24) is also hermetically connected between the top of the inner cavity of the feeding bin (2) and the top of the inner cavity of the solution tank (1), and a valve and a fan are also arranged on the dust removal pipe (24).

Images