CN113797791A - High-uniformity compound blending device and blending method - Google Patents

Abstract

The invention discloses a high-uniformity compound blending device, which comprises: the box body is provided with an inner cavity for blending dye; the plurality of spraying devices are arranged around the box body; the liquid discharge pipe is arranged at the bottom of the box body and is communicated with the inner cavity; the spraying device comprises: the liquid inlet pipe penetrates through the box body and extends into the inner cavity; the spraying arm is positioned in the inner cavity and is rotationally connected with the liquid inlet pipe; the rotating mechanism is connected with the spray arm and is used for driving the spray arm to rotate; a plurality of first spraying holes are formed in the spraying arm and distributed along the extending direction of the spraying arm, and the first spraying holes are communicated with the liquid inlet pipe; the device can improve the mixing uniformity of the dye and reduce the mixing time.

Description

High-uniformity compound blending device and blending method

Technical Field

The invention relates to the field of textiles, in particular to a compound blending device and a blending method.

Background

In the current textile field, as the color requirements of customers on cloth are higher and higher, the dyeing process adopting the compound dye is increasingly adopted, and when some special dyes are applied to cloth dyeing, the dyes are easy to deteriorate after being blended, and need to be blended and used at the production site.

In the field blending method of the traditional dye, different raw materials are generally poured into a mixing cavity, and then are stirred by a stirring rod, because the structure of the stirring rod is fixed, various different raw materials are difficult to be fully mixed in the actual production process, and all the raw materials need to be poured into the mixing cavity and then are stirred and mixed, so that the blending time is long.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides the high-uniformity compound blending device which can improve the mixing uniformity of the dye and reduce the mixing time.

The high-uniformity compound blending device comprises: the box body is provided with an inner cavity for blending dye; the plurality of spraying devices are arranged around the box body; the liquid discharge pipe is arranged at the bottom of the box body and is communicated with the inner cavity; the spraying device comprises: the liquid inlet pipe penetrates through the box body and extends into the inner cavity; the spraying arm is positioned in the inner cavity and is rotationally connected with the liquid inlet pipe; the rotating mechanism is connected with the spray arm and is used for driving the spray arm to rotate; a plurality of first spraying holes are formed in the spraying arm and distributed along the extending direction of the spraying arm, and the first spraying holes are communicated with the liquid inlet pipe.

According to some embodiments of the invention, the rotating mechanism comprises a second spraying hole formed in the side surface of the spraying arm, the second spraying hole is communicated with the liquid inlet pipe, and the second spraying hole is suitable for liquid to be sprayed out and pushes the spraying arm to rotate.

According to some embodiments of the invention, the spray arm is in clearance fit with the liquid inlet pipe, and the spray arm is provided with a limiting mechanism which can fix the relative position of the spray arm and the liquid inlet pipe in the axial direction of the liquid inlet pipe.

According to some embodiments of the invention, the liquid inlet pipe is provided with a flange extending along the circumferential direction of the liquid inlet pipe, and the limiting mechanism comprises an elastic buckle which can be clamped with the flange.

According to some embodiments of the present invention, the high uniformity compound blending device further comprises a heating device connected to the liquid inlet pipe, the heating device being configured to heat the liquid in the liquid inlet pipe.

According to some embodiments of the present invention, the high uniformity compound dispensing device further comprises a cooling device connected to the drain, the cooling device configured to cool the liquid in the drain.

According to some embodiments of the present invention, the high uniformity compound blending device further comprises a compressor, the heating device comprises a condenser, the cooling device comprises an evaporator, and the evaporator, the compressor and the condenser form a refrigerant cycle.

According to some embodiments of the invention, the condenser is provided in plurality, the plurality of condensers are connected with the plurality of liquid inlet pipes in a one-to-one correspondence, and the plurality of condensers are connected in parallel.

According to some embodiments of the present invention, the high uniformity compound blending device further comprises a semiconductor heat exchanging element, the heating device is a hot end of the semiconductor heat exchanging element, and the cooling device is a cold end of the semiconductor heat exchanging element.

The invention also provides a high-uniformity compound blending method, which is implemented by using a high-uniformity compound blending device and is characterized by comprising the following steps: mixing: a plurality of liquid raw materials are simultaneously pumped into a plurality of liquid inlet pipes through a plurality of liquid delivery pumps, so that each liquid raw material can be sprayed out from a first spraying hole and a second spraying hole of a spraying arm through the liquid inlet pipes, and is discharged through a liquid discharge pipe after being mixed in an inner cavity; the heat exchange step, absorbing the heat of the liquid discharged through the liquid discharge pipe through the evaporator, and transferring the heat to the condenser through a refrigerant cycle formed by the evaporator, the compressor and the condenser to heat the liquid in the liquid inlet pipe; the compound blending device of high degree of consistency includes: the box body is provided with an inner cavity for blending dye; the plurality of spraying devices are arranged on the periphery of the box body in the horizontal direction; the liquid discharge pipe is arranged at the bottom of the box body and is communicated with the inner cavity; the spraying device comprises: the liquid inlet pipe penetrates through the box body and extends into the inner cavity; the spraying arm is positioned in the inner cavity and is rotationally connected with the liquid inlet pipe; the rotating mechanism is connected with the spray arm and is used for driving the spray arm to rotate; the spraying arm is provided with a plurality of first spraying holes which are distributed along the extending direction of the spraying arm, the first spraying holes are communicated with the liquid inlet pipe, the side surface of the spraying arm is provided with second spraying holes which are communicated with the liquid inlet pipe, and the second spraying holes are suitable for spraying out liquid and pushing the spraying arm to rotate; the evaporator is connected with the drain pipe and is used for cooling liquid in the drain pipe; the condenser is connected with the liquid inlet pipe and is used for heating liquid in the liquid inlet pipe; the compressor, the evaporator and the condenser form a refrigerant cycle.

By applying the high-uniformity compound blending device, in the blending process, various liquid raw materials can be simultaneously pumped into the plurality of liquid inlet pipes through the booster pump, and the spray arm is driven to rotate through the rotating mechanism, so that the various raw materials are sprayed out from the first spray holes of the spray arm through the liquid inlet pipes, collide and mix in the inner cavity along a spiral path, and are discharged from the liquid discharge pipe at the bottom of the box body; because all liquid raw material components are sprayed out along the spiral path and are mixed in the inner cavity, the dye with higher uniformity can be obtained on the premise of no stirring by a stirring rod, and meanwhile, the liquid raw materials are not required to be fed firstly and then stirred to be uniformly mixed, but are uniformly mixed in the feeding process, so that the uniformly mixing time is effectively reduced, and the production efficiency is improved.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is an isometric view of a high uniformity compound blending device in an embodiment of the present invention;

FIG. 2 is an enlarged view at C of FIG. 1;

FIG. 3 is a top view of a high uniformity compound dispensing apparatus in accordance with an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged view at B in FIG. 4;

the above figures contain the following reference numerals.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and more than, less than, more than, etc. are understood as excluding the present number, and more than, less than, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 5, the high uniformity compound blending device of the present embodiment includes: a case 100 having an inner cavity for blending a dye; a plurality of spray devices 200 disposed around the case 100; a drain pipe 110 arranged at the bottom of the case 100, the drain pipe 110 being communicated with the inner cavity; the shower apparatus 200 includes: a liquid inlet pipe 210 passing through the case 100 and extending into the inner cavity; the spray arm 220 is positioned in the inner cavity, and the spray arm 220 is rotationally connected with the liquid inlet pipe 210; the rotating mechanism is connected with the spray arm 220 and is used for driving the spray arm 220 to rotate; a plurality of first spraying holes 221 are formed in the spraying arm 220, the plurality of first spraying holes 221 are distributed along the extending direction of the spraying arm 220, and the first spraying holes 221 are communicated with the liquid inlet pipe 210.

By applying the high-uniformity compound blending device, in the blending process, various liquid raw materials can be simultaneously pumped into the plurality of liquid inlet pipes 210 through the booster pump, and the spraying arm 220 is driven to rotate through the rotating mechanism, so that the various raw materials are sprayed out of the first spraying holes 221 of the spraying arm 220 through the liquid inlet pipes 210, collide and mix in the inner cavity along the spiral path, and then are discharged from the liquid discharge pipe 110 at the bottom of the box body 100; because all liquid raw material components are sprayed out along the spiral path and are mixed in the inner cavity, the dye with higher uniformity can be obtained on the premise of no stirring by a stirring rod, and meanwhile, the liquid raw materials are not required to be fed firstly and then stirred to be uniformly mixed, but are uniformly mixed in the feeding process, so that the uniformly mixing time is effectively reduced, and the production efficiency is improved.

As shown in fig. 1, the spray arm 220 is a strip-shaped member, and is provided with a plurality of first spray holes 221, and the length direction thereof is the extending direction of the spray arm 220.

It is understood that the rotating mechanism can be driven to rotate by various means, such as driving a pulley or a sprocket by a motor disposed in the inner cavity to drive the spray arm 220 to rotate, or providing a motor outside the box 100 and extending a driving shaft through the box 100 into the inner cavity to drive the spray arm 220 to rotate.

As shown in fig. 2, in order to save the cost of the driving device and prevent the driving mechanism disposed in the inner cavity from affecting the mixing of the raw materials, the rotating mechanism includes a second spraying hole 222 formed in the side surface of the spraying arm 220, the second spraying hole 222 is communicated with the liquid inlet pipe 210, and the second spraying hole 222 is suitable for the liquid to be sprayed out and pushes the spraying arm 220 to rotate; after the liquid is delivered to the spray arm 220 through the liquid inlet pipe 210, the liquid can be sprayed out through the first spray hole 221 and the second spray hole 222, and since the second spray hole 222 is arranged on the side surface of the spray arm 220, after the liquid is sprayed out from the second spray hole 222, the spray arm 220 rotates under the reaction force of the sprayed liquid, and a motor is not required to be additionally arranged in the inner cavity.

The spray arm 220 is in clearance fit with the liquid inlet pipe 210, and the spray arm 220 is provided with a limiting mechanism which can fix the relative position of the spray arm 220 and the liquid inlet pipe 210 in the axial direction of the liquid inlet pipe 210; after liquid enters the spray arm 220 from the liquid inlet pipe 210, an acting force along the axial direction of the liquid inlet pipe 210 is generated on the spray arm 220, so that the spray arm 220 falls off from the liquid inlet pipe 210, and at the moment, the limiting mechanism can prevent the spray arm 220 from falling off from the liquid inlet pipe 210; meanwhile, the clearance fit enables the spray arm 220 to be easily detached from the drain pipe 110, which is convenient for cleaning; in addition, because the spray arm 220 is integrally positioned in the inner cavity, a small part of raw materials flowing out from the gap between the spray arm 220 and the liquid inlet pipe 210 can be automatically collected at the bottom of the inner cavity, and cannot overflow to cause pollution.

The liquid inlet pipe 210 is provided with a flange 211 extending along the circumferential direction of the liquid inlet pipe 210, the limiting mechanism comprises an elastic buckle 223, and the elastic buckle 223 can be clamped with the flange 211; when the spray arm 220 needs to be disassembled, the clamping between the elastic buckle 223 and the spray arm 220 is only needed to be released; in addition, spacing mechanism can also realize through modes such as roller bearing annular groove cooperation structure.

As shown in fig. 4, the blending apparatus further includes a heating apparatus 310 connected to the liquid inlet pipe 210, wherein the heating apparatus 310 is used for heating the liquid in the liquid inlet pipe 210; for some liquid raw materials with higher consistency, the liquid raw materials are heated and then mixed, so that the consistency of the liquid raw materials can be effectively reduced, and the mixing uniformity of a final product is improved; it is understood that the heating device 310 can heat the liquid material in the liquid inlet pipe 210 in various ways, such as by providing an electric heating device 310 or a gas heating device 310 to heat the liquid in the liquid inlet pipe 210.

Specifically, the dispensing device further comprises a cooling device 320 connected to the drain pipe 110, wherein the cooling device 320 is used for cooling the liquid in the drain pipe 110; at this time, the cooling device 320 can cool the blended dye discharged from the discharge pipe 110, so as to prevent the dye from damaging the cloth due to too high temperature; wherein, cooling device 320 can cool down through multiple mode, for example through set up the fin on fluid-discharge tube 110, for the fin cooling through the fan, take away the heat of liquid among fluid-discharge tube 110, also can set up the heat exchanger on fluid-discharge tube 110 to insert the running water with the heat exchanger, take away the heat of liquid among fluid-discharge tube 110 through mobile running water.

Specifically, the blending device further includes a compressor, the heating device 310 includes a condenser, the cooling device 320 includes an evaporator, and the evaporator, the compressor and the condenser constitute a refrigerant cycle; at this moment, the heat absorbed by the cooling discharge can be used for heating the liquid raw material in the liquid inlet pipe 210 under the driving of refrigerant circulation, so that the utilization rate of energy is effectively improved, and the heat energy is recycled.

As shown in fig. 1, there are a plurality of condensers, which are connected to the plurality of liquid inlet pipes 210 in a one-to-one correspondence, and are connected in parallel; at the moment, the heat absorbed by the evaporator is circularly transferred to the plurality of condensers through the refrigerant and is used for heating the liquid raw material; of course, a single condenser can be used to connect multiple liquid inlet pipes 210 at the same time.

Except for the heat pump system, the utilization rate of energy can be improved in another way, and the heat energy can be recycled, for example, the allocating device also comprises a semiconductor heat exchange element, the heating device 310 is the hot end of the semiconductor heat exchange element, and the cooling device 320 is the cold end of a plurality of semiconductor heat exchange elements; according to the relevant principle of the Peltier effect, heat absorbed by the cold end can be transferred to the hot end for heating the liquid raw material.

The embodiment further provides a high-uniformity compound blending method, which is implemented by using the high-uniformity compound blending device, and comprises the following steps:

mixing: a plurality of liquid raw materials are pumped into a plurality of liquid inlet pipes 210 through a plurality of liquid delivery pumps simultaneously, so that each liquid raw material can be sprayed out from a first spraying hole 221 and a second spraying hole 222 of a spraying arm 220 through the liquid inlet pipes 210, mixed in an inner cavity and then discharged through a liquid discharge pipe 110; a heat exchange step, in which the evaporator absorbs the heat of the liquid discharged through the liquid discharge pipe 110, and the heat is transferred to the condenser through a refrigerant cycle formed by the evaporator, the compressor and the condenser, so as to heat the liquid in the liquid inlet pipe 210.

Wherein, compound blending device of high degree of consistency includes: a case 100 having an inner cavity for blending a dye; a plurality of spray devices 200 disposed around the horizontal direction of the cabinet 100; a drain pipe 110 arranged at the bottom of the case 100, the drain pipe 110 being communicated with the inner cavity; the shower apparatus 200 includes: a liquid inlet pipe 210 passing through the case 100 and extending into the inner cavity; the spray arm 220 is positioned in the inner cavity, and the spray arm 220 is rotationally connected with the liquid inlet pipe 210; the rotating mechanism is connected with the spray arm 220 and is used for driving the spray arm 220 to rotate; the spraying arm 220 is provided with a plurality of first spraying holes 221, the plurality of first spraying holes 221 are distributed along the extension direction of the spraying arm 220, the first spraying holes 221 are communicated with the liquid inlet pipe 210, the side surface of the spraying arm 220 is provided with second spraying holes 222, the second spraying holes 222 are communicated with the liquid inlet pipe 210, and the second spraying holes 222 are suitable for spraying out liquid and pushing the spraying arm 220 to rotate; an evaporator connected to the drain pipe 110, the evaporator being for cooling liquid in the drain pipe 110; a condenser connected to the liquid inlet pipe 210, the condenser being used to heat the liquid in the liquid inlet pipe 210; the compressor, the evaporator and the condenser form a refrigerant cycle.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. A high degree of consistency compound blending device, comprising:

a tank (100) having an inner cavity for blending a dye;

a plurality of spray devices (200) arranged around the box body (100);

the liquid discharge pipe (110) is arranged at the bottom of the box body (100), and the liquid discharge pipe (110) is communicated with the inner cavity;

the spray device (200) comprises:

the liquid inlet pipe (210) penetrates through the box body (100) and extends into the inner cavity;

the spraying arm (220) is positioned in the inner cavity, and the spraying arm (220) is rotationally connected with the liquid inlet pipe (210);

the rotating mechanism is connected with the spraying arm (220) and is used for driving the spraying arm (220) to rotate; a plurality of first spraying holes (221) are formed in the spraying arm (220), the first spraying holes (221) are distributed along the extending direction of the spraying arm (220), and the first spraying holes (221) are communicated with the liquid inlet pipe (210).

2. The blending apparatus of claim 1, wherein the rotation mechanism comprises a second spraying hole (222) formed on a side surface of the spraying arm (220), the second spraying hole (222) is connected to the liquid inlet pipe (210), and the second spraying hole (222) is adapted to spray liquid and push the spraying arm (220) to rotate.

3. The compound blending device with high uniformity of claim 2, wherein the spraying arm (220) is in clearance fit with the liquid inlet pipe (210), and the spraying arm (220) is provided with a limiting mechanism capable of fixing the relative position of the spraying arm (220) and the liquid inlet pipe (210) in the axial direction of the liquid inlet pipe (210).

4. The compound blending device of claim 3, wherein the liquid inlet pipe (210) is provided with a flange (211) extending along the circumference of the liquid inlet pipe (210), the limiting mechanism comprises an elastic buckle (223), and the elastic buckle (223) can be clamped with the flange (211).

5. The blending apparatus of claim 1, further comprising a heating apparatus (310) connected to the liquid inlet pipe (210), wherein the heating apparatus (310) is used for heating the liquid in the liquid inlet pipe (210).

6. The compound blending apparatus of claim 5, further comprising a cooling device (320) connected to the drain pipe (110), wherein the cooling device (320) is configured to cool the liquid in the drain pipe (110).

7. The blending apparatus of claim 6, further comprising a compressor, wherein the heating device (310) comprises a condenser, and the cooling device (320) comprises an evaporator, wherein the evaporator, the compressor and the condenser form a refrigerant cycle.

8. The blending apparatus of claim 7, wherein the number of the condensers is plural, and the plural condensers are connected to the plural liquid inlet pipes (210) in a one-to-one correspondence, and are connected in parallel.

9. The blending apparatus of claim 6, further comprising a semiconductor heat exchanger, wherein the heating device (310) is a hot side of the semiconductor heat exchanger, and the cooling device (320) is a cold side of the semiconductor heat exchanger.

10. A high-uniformity compound blending method is characterized by comprising the following steps of:

mixing: a plurality of liquid raw materials are pumped into a plurality of liquid inlet pipes (210) simultaneously through a plurality of liquid delivery pumps, so that each liquid raw material can be sprayed out from a first spraying hole (221) and a second spraying hole (222) of a spraying arm (220) through the liquid inlet pipes (210), mixed in an inner cavity and then discharged through a liquid discharge pipe (110);

a heat exchange step, wherein the evaporator absorbs heat of liquid discharged through the liquid discharge pipe (110), and the heat is transferred to the condenser through a refrigerant cycle formed by the evaporator, the compressor and the condenser and used for heating the liquid in the liquid inlet pipe (210);

the compound blending device of high degree of consistency includes:

a tank (100) having an inner cavity for blending a dye;

a plurality of spray devices (200) arranged around the horizontal direction of the box body (100); the liquid discharge pipe (110) is arranged at the bottom of the box body (100), and the liquid discharge pipe (110) is communicated with the inner cavity;

the shower device (200) comprises:

the liquid inlet pipe (210) penetrates through the box body (100) and extends into the inner cavity;

the spray arm (220) is positioned in the inner cavity, and the spray arm (220) is rotationally connected with the liquid inlet pipe (210); the rotating mechanism is connected with the spray arm (220) and is used for driving the spray arm (220) to rotate;

the spraying arm (220) is provided with a plurality of first spraying holes (221), the first spraying holes (221) are distributed along the extension direction of the spraying arm (220), the first spraying holes (221) are communicated with the liquid inlet pipe (210), the side surface of the spraying arm (220) is provided with second spraying holes (222), the second spraying holes (222) are communicated with the liquid inlet pipe (210), and the second spraying holes (222) are suitable for spraying out liquid and pushing the spraying arm (220) to rotate;

the evaporator is connected with the drain pipe (110) and is used for cooling liquid in the drain pipe (110); the condenser is connected with the liquid inlet pipe (210) and is used for heating liquid in the liquid inlet pipe (210); the compressor, the evaporator and the condenser form a refrigerant cycle.

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