CN113499707A - Conical mixer pan feeding equipment of textile auxiliary batching preprocessing - Google Patents

Abstract

The invention discloses a conical mixer feeding device for textile auxiliary ingredient preprocessing, which comprises a conical mixer shell and a preprocessing tank arranged at the top of the conical mixer shell, wherein the top of the preprocessing tank is provided with a material homogenizing and heating device, the bottom of the inner wall of the preprocessing tank is provided with an auxiliary agent proportioning device, and the outer walls of the preprocessing tank and the conical mixer shell are provided with heat energy recycling devices; the material homogenizing and heating device comprises a stirring part and a heat flow part arranged at the top of the preprocessing tank; the auxiliary agent proportioning device comprises a switching component, a plurality of liquid leaking pipes arranged at the execution end of the switching component, a quantifying pipe communicated with the liquid leaking pipes, an air flotation measuring component arranged on the inner wall of the quantifying pipe, a magnetic suction component arranged on the inner wall of the quantifying pipe, a lifting sealing component arranged at the bottom of the preprocessing tank and a negative pressure liquid inlet component. The invention provides a feeding device which is convenient for carrying out corresponding proportioning of the auxiliary agent amount according to the dye amount, is convenient for mixing the auxiliary agent and the dye and uniformly heating, and is convenient for recycling heat.

Description

Conical mixer pan feeding equipment of textile auxiliary batching preprocessing

Technical Field

The invention mainly relates to the technical field of textile auxiliary processing equipment, in particular to conical mixer feeding equipment for preprocessing textile auxiliary ingredients.

Background

The textile processing usually needs to use an auxiliary agent, the auxiliary agent plays a vital role in the dyeing process, and the auxiliary agent needs to be proportioned and mixed in advance when in use.

According to a textile auxiliary ratio compounding device that patent document with application number CN201821900734.5 provided can know, this product includes main staving and auxiliary agent bucket, and the shell of main staving is provided with an interlayer, and main staving both sides face is equipped with the motor respectively, and the motor shaft of every motor stretches into the inside of staving and is vertically fixed being equipped with a plurality of puddler respectively in the upper and lower two sides of motor shaft. This product passes through the volume of getting of this kind of textile auxiliary of feed valve control, avoids operator direct contact textile auxiliary and receives its chemical attack to the harmful gas who will react the production through the gas outlet at top discharges and purifies through air purification device, has guaranteed job site's safety, and cools down through the cooling water in good time through temperature-detecting device, has improved production efficiency and product quality greatly.

The product in the above-mentioned patent can protect operator's safety, can purify reaction gas, is convenient for cool down, nevertheless is not convenient for carry out the corresponding ratio of auxiliary agent volume according to the dyestuff volume, and the mixture of auxiliary agent and dyestuff and the even intensification are not convenient for, and the thermal cyclic utilization of just not being convenient for.

Disclosure of Invention

The invention mainly provides feeding equipment of a conical mixer for preprocessing textile auxiliary ingredients, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a conical mixer feeding device for textile auxiliary material batching preprocessing comprises a conical mixer shell and a preprocessing tank which is connected with the top of the conical mixer shell through a support column and is communicated with the conical mixer shell through a pipeline, wherein an execution end of the preprocessing tank is provided with a refining heating device extending into the preprocessing tank, the bottom of the inner wall of the preprocessing tank is provided with a plurality of auxiliary material proportioning devices, the auxiliary material proportioning devices are arranged around the refining heating device, and the outer walls of the preprocessing tank and the conical mixer shell are provided with heat energy recycling devices;

the material homogenizing and heating device comprises a stirring part which is rotatably connected with the inner wall of the preprocessing tank and is vertically arranged, and a heat flow part which is arranged at the top of the preprocessing tank and is used for introducing a heat medium into the stirring part in a circulating manner;

the auxiliary agent proportioning device comprises a switching component arranged at the bottom of the inner wall of the preprocessing tank, a plurality of liquid leakage pipes arranged at the execution end of the switching component, a quantitative pipe communicated with the top of the liquid leakage pipe, an air flotation measuring component in sliding connection with the inner wall of the quantitative pipe, magnetic suction components symmetrically arranged on the inner wall of the quantitative pipe and used for fixing the air flotation measuring component, a lifting sealing component arranged at the bottom of the preprocessing tank and used for enabling the execution end to extend into the preprocessing tank, and a negative pressure liquid inlet component arranged at the bottom of the preprocessing tank and used for enabling the execution end to be communicated with the lifting sealing component, wherein the switching component is used for switching one liquid leakage pipe to be right above the lifting sealing component;

the heat energy recycling device comprises a heat collection component arranged on the outer wall of the prefabricated tank and a positioning heat dissipation component arranged on the outer wall of the shell of the conical mixer and communicated with the heat collection component through a pipeline.

Preferably, the stirring part is located including rotating the stirring pipe that connects preprocessing jar inner wall and extend to preprocessing jar outside stirring pipe of stirring pipe outer wall the gear disc of stirring pipe is located the transmission motor at preprocessing tank deck portion, and locate the drive gear of transmission motor execution end and meshing gear disc. In the preferred embodiment, mixing between the adjuvants is facilitated by the stirring element.

Preferably, the heat flow part is including locating the heating cabinet at preprocessing tank deck portion, and locate the first circulating pump of heating cabinet lateral wall, first circulating pump pipeline intercommunication agitator tube top, agitator tube bottom pipeline intercommunication heating cabinet. In the preferred embodiment, the heat flow part is used for giving a uniform temperature to the stirring part and uniformly heating the auxiliary agent.

Preferably, the switching part comprises a stepping motor arranged at the bottom of the preprocessing tank, the execution end of the stepping motor penetrates through the bottom of the preprocessing tank to be connected with a switching turntable, and the bottom of the liquid leakage pipe is communicated with the switching turntable. In the preferred embodiment, one of the liquid leakage pipes is conveniently switched to be right above the lifting sealing part through the switching part, so that the proper quantitative pipe can be conveniently measured.

Preferably, the magnetic attraction component comprises sliding chutes symmetrically arranged on the inner wall of the quantitative pipe and electromagnetic blocks arranged on the inner wall of the sliding chutes. In the preferred embodiment, the magnetic attraction component is used for facilitating the fixation of the air floatation measuring component.

Preferably, the air flotation measuring component comprises a liquid measuring plate which is arranged in the quantitative pipe and is in sliding connection with the sliding chute, and an air bag which is arranged at the bottom of the liquid measuring plate. In the preferred embodiment, the volume of the quantitative pipe can be conveniently changed according to the liquid level height by the air flotation measuring component, so that the auxiliary agent with the corresponding amount can be conveniently measured.

Preferably, the lifting sealing part comprises a sealing pipe arranged at the bottom of the preprocessing tank and penetrating through the preprocessing tank to extend to the inside, and a telescopic cylinder arranged at the bottom of the preprocessing tank and used for driving the sealing pipe to lift. In the preferred embodiment, the sealing of the leakage duct is facilitated by lifting the sealing member.

Preferably, the negative pressure feed liquor part includes the one end intercommunication the hose of sealed tube bottom is located preprocessing tank bottoms portion and imbibition end intercommunication hose other end's negative pressure pump, and intercommunication the auxiliary agent pipe of hose, be equipped with a automatically controlled valve on the auxiliary agent pipe, negative pressure pump flowing back end pipeline intercommunication preprocessing tank bottoms portion. In the preferred embodiment, the solution in the quantitative tube is conveniently sucked out by the negative pressure liquid inlet component, and the auxiliary agent is added into the quantitative tube.

Preferably, the heat collecting part comprises a heat insulation cover arranged on the outer wall of the preprocessing tank, a spiral pipe arranged on the inner wall of the heat insulation cover, an insulation box arranged on the outer wall of the heat insulation cover and a second circulating pump arranged on the outer wall of the insulation box, wherein the second circulating pump is connected with a spiral pipe liquid inlet end through a first transmission pipe, a second electric control valve is arranged at the spiral pipe liquid inlet end, and the spiral pipe liquid outlet end is communicated with the insulation box through a pipeline. In the preferred embodiment, the heat collection component is used to facilitate the absorption of residual heat from the preparation tank.

Preferably, the location heat dissipation part is located including the cover the dustcoat jar of conical mixer shell outer wall is located a plurality of driving cylinders of dustcoat jar inner wall bottom, and locate driving cylinder execution end and cover are located the outside annular cooling tube of conical mixer shell, annular cooling tube inlet end passes through the first transmission pipe of second transmission pipe intercommunication, be equipped with the third automatically controlled valve on the second transmission pipe, pipeline intercommunication insulation can is passed through to annular cooling tube flowing back end. In the preferred embodiment, the heat dissipation part is positioned to facilitate the heat collected by the heat collection part to be dissipated to the outer wall of the conical mixer shell so as to insulate the conical mixer shell.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the corresponding proportioning of the assistant amount is conveniently carried out according to the dye amount through the assistant proportioning device, the mixing and uniform heating of the assistant and the dye are conveniently carried out through the uniform heating device, and the heat recycling is conveniently carried out through the heat energy recycling device;

the mixing among the auxiliary agents is facilitated through the stirring component in the material homogenizing heating device, the uniform temperature is conveniently provided for the stirring component through the heat flow component, the uniform heating of the auxiliary agents is facilitated, one of the liquid leakage pipes is conveniently switched to be right above the lifting sealing component through the switching component in the auxiliary agent proportioning device, the appropriate quantitative pipe is conveniently measured, the volume of the quantitative pipe is conveniently changed according to the liquid level height through the air flotation measuring component, the corresponding amount of the auxiliary agents are conveniently measured, the air flotation measuring component is conveniently fixed through the magnetic absorption component, the liquid leakage pipe is conveniently sealed through the lifting sealing component, the solution in the quantitative pipe is conveniently pumped out through the negative pressure liquid inlet component, the auxiliary agents are added into the quantitative pipe, the residual heat of the preprocessing tank is conveniently absorbed through the heat collection component in the heat energy recycling device, and the heat collected by the heat collection component is conveniently positioned and radiated to the outer wall of the shell of the conical mixer through the positioning and radiating component, to keep the conical mixer housing warm.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is an isometric view of the overall construction of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is an exploded view of the thermal energy recycling device of the present invention;

FIG. 4 is an isometric view of a thermal energy reuse device of the present invention;

FIG. 5 is an exploded view of the structure of the additive proportioning device of the present invention;

FIG. 6 is a cross-sectional view of the overall construction of the present invention;

FIG. 7 is a sectional view of the structure of the stirring member of the present invention;

FIG. 8 is a sectional view of the additive proportioning device of the present invention.

Description of the drawings: 10. a conical mixer housing; 11. pre-processing the tank; 20. a refining heating device; 21. a stirring member; 211. a stirring pipe; 212. a gear plate; 213. a drive motor; 214. a drive gear; 22. a heat flux component; 221. a heating box; 222. a first circulation pump; 30. an auxiliary agent proportioning device; 31. a switching member; 311. a stepping motor; 312. switching the turnplate; 32. a liquid leakage pipe; 33. a dosing tube; 34. an air flotation measuring component; 341. a liquid measuring plate; 342. an air bag; 35. a magnetic attraction component; 351. a chute; 352. an electromagnetic block; 36. a lifting sealing component; 361. a sealing tube; 362. a telescopic cylinder; 37. a negative pressure liquid inlet component; 371. a hose; 372. a negative pressure pump; 373. an auxiliary agent pipe; 374. a first electrically controlled valve; 40. a heat energy recycling device; 41. a heat collecting part; 411. a heat-preserving cover; 412. a spiral tube; 413. a heat preservation box; 414. a second circulation pump; 415. a first transfer tube; 416. a second electrically controlled valve; 42. positioning the heat dissipation component; 421. an outer cover can; 422. a drive cylinder; 423. an annular radiating pipe; 424. a second transfer pipe; 425. a third electrically controlled valve.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Please refer to fig. 1, 2, 3, 4, and 7 with more emphasis, in a preferred embodiment of the present invention, a conical mixer feeding apparatus for textile auxiliary ingredient preprocessing comprises a conical mixer housing 10, and a preprocessing tank 11 connected to the top of the conical mixer housing 10 through a support column and communicating with the conical mixer housing 10 through a pipeline, wherein the top of the preprocessing tank 11 is provided with a refining heating device 20 with an execution end extending into the preprocessing tank 11, the bottom of the inner wall of the preprocessing tank 11 is provided with a plurality of auxiliary proportioning devices 30, the plurality of auxiliary proportioning devices 30 are arranged around the refining heating device 20, and the outer walls of the preprocessing tank 11 and the conical mixer housing 10 are provided with a heat energy recycling device 40; the refining heating device 20 comprises a stirring part 21 which is rotatably connected with the inner wall of the preprocessing tank 11 and is vertically arranged, and a heat flow part 22 which is arranged at the top of the preprocessing tank 11 and is used for circularly introducing a heat medium into the stirring part 21; stirring part 21 is including rotating the stirring pipe 211 that connects preprocessing jar 11 inner wall and extend to preprocessing jar 11 outside, locates the toothed disc 212 of stirring pipe 211 outer wall locates the driving motor 213 at preprocessing jar 11 top, and locate driving motor 213 execution end and the drive gear 214 of meshing toothed disc 212, heat flow part 22 is including locating the heating cabinet 221 at preprocessing jar 11 top, and locate the first circulating pump 222 of heating cabinet 221 lateral wall, first circulating pump 222 pipeline intercommunication stirring pipe 211 top, stirring pipe 211 bottom pipeline intercommunication heating cabinet 221.

It should be noted that, in this embodiment, when in use, the raw materials such as water and dye are added from the top feeding port of the preprocessing tank 11, after the water is added into the preprocessing tank 11, the assistant proportioning device 30 is used for proportioning the corresponding assistant amount according to the liquid level height of the water and adding the assistant amount into the water, after the assistant is added into the water, the blending heating device 20 is used for mixing and heating the water and the assistant, the uniformly mixed premixed liquid enters the conical mixer housing 10 through the pipeline, and at this time, the heat energy recycling device 40 is used for collecting the residual heat of the preprocessing tank 11 and acting on the conical mixer housing 10;

further, when the refining heating device 20 works, the execution end of the transmission motor 213 drives the driving gear 214 to rotate, the driving gear 214 drives the stirring pipe 211 to rotate through the gear disc 212, and the stirring pipe 211 stirs the solution;

further, the heating tank 221 heats the internal fluid medium, and the heated fluid medium circulates in the stirring pipe 211 by the first circulation pump 222, and applies uniform heat energy to the stirring pipe 211 to heat the solution.

Please refer to fig. 2, 3, 5, and 8, in another preferred embodiment of the present invention, the auxiliary proportioning device 30 includes a switching member 31 disposed at the bottom of the inner wall of the preprocessing tank 11, a plurality of liquid leaking pipes 32 disposed at the executing end of the switching member 31, a quantitative pipe 33 communicated with the top of the liquid leaking pipe 32, an air-float measuring member 34 slidably connected to the inner wall of the quantitative pipe 33, a magnetic member 35 symmetrically disposed at the inner wall of the quantitative pipe 33 and used for fixing the air-float measuring member 34, a lifting sealing member 36 disposed at the bottom of the preprocessing tank 11 and having an executing end extending into the preprocessing tank 11, and a negative pressure liquid inlet member 37 disposed at the bottom of the preprocessing tank 11 and having an executing end communicated with the lifting sealing member 36, wherein the switching member 31 is used for switching one of the liquid leaking pipes 32 to a position right above the lifting sealing member 36; the switching component 31 comprises a stepping motor 311 arranged at the bottom of the preprocessing tank 11, the execution end of the stepping motor 311 penetrates through the bottom of the preprocessing tank 11 to be connected with a switching turntable 312, the bottom of the liquid leakage pipe 32 is connected with the switching turntable 312 in a penetrating manner, the magnetic attraction component 35 comprises a chute 351 symmetrically arranged on the inner wall of the quantitative pipe 33 and an electromagnetic block 352 arranged on the inner wall of the chute 351, the air flotation measuring component 34 comprises a liquid measuring plate 341 arranged in the quantitative pipe 33 and slidably connected with the chute 351 and an air bag 342 arranged at the bottom of the liquid measuring plate 341, the lifting sealing component 36 comprises a sealing pipe 361 arranged at the bottom of the preprocessing tank 11 and extending to the inside through the preprocessing tank 11 and a telescopic cylinder 362 arranged at the bottom of the preprocessing tank 11 and used for driving the sealing pipe 361 to lift, the negative pressure liquid inlet component 37 comprises a hose with one end communicated with the bottom of the sealing pipe 361, locate the negative pressure pump 372 of 11 bottoms of preprocessing jar and imbibition end intercommunication hose 371 other end, and the intercommunication the auxiliary agent pipe 373 of hose 371, be equipped with first automatically controlled valve 374 on the auxiliary agent pipe 373, negative pressure pump 372 drain pipeline intercommunication preprocessing jar 11 bottoms.

It should be noted that, in this embodiment, when the auxiliary proportioning device 30 operates, the quantitative tube 33 with a proper thickness is selected according to the ratio of the amount of the auxiliary to be added to water, the selected quantitative tube 33 is moved to a position right above the lifting sealing member 36 by the switching member 31, the air bag 342 drives the liquid measuring plate 341 to move upwards due to the buoyancy of water, after moving to the water surface, the electromagnetic block 352 is electrified to attract the liquid measuring plate 341, the lifting sealing member 36 seals the liquid leaking tube 32, the negative pressure liquid inlet member 37 sucks the water in the quantitative tube 33 and discharges the water into the preprocessing tank 11, then the auxiliary with the same volume as the quantitative tube 33 is injected into the quantitative tube 33, and after the addition of the auxiliary is completed, the lifting sealing member 36 is reset to complete the addition of the auxiliary;

further, when the switching component 31 works, the execution end of the stepping motor 311 drives the switching turntable 312 to rotate, so as to switch the dosing pipes 33;

further, when the lifting sealing component 36 works, the telescopic cylinder 362 drives the sealing tube 361 to move into the liquid leakage tube 32, so as to seal the liquid leakage tube 32;

further, when the negative pressure liquid inlet component 37 works, the negative pressure pump 372 sucks water in the quantifying pipe 33 through the hose 371 and discharges the water into the preprocessing tank 11, after the water is sucked out, the first electronic control valve 374 is opened, and the auxiliary agent enters the quantifying pipe 33 through the auxiliary agent pipe 373.

Please refer to fig. 3, 4, 6, and 7, in another preferred embodiment of the present invention, the thermal energy recycling device 40 includes a heat collecting component 41 disposed on an outer wall of the pre-processing tank 11, and a positioning heat dissipating component 42 disposed on an outer wall of the conical mixer housing 10 and in communication with the heat collecting component 41 through a pipeline, the heat collecting component 41 includes a heat insulating cover 411 disposed on an outer wall of the pre-processing tank 11, a spiral pipe 412 disposed on an inner wall of the heat insulating cover 411, an outer wall of the heat insulating tank 413, and a second circulating pump 414 disposed on an outer wall of the heat insulating tank 413, the second circulating pump 414 is connected to a liquid inlet end of the spiral pipe 412 through a first transmission pipe 415, the liquid inlet end of the spiral pipe 412 is provided with a second electric control valve 416, a liquid outlet end of the spiral pipe 412 is in communication with the heat insulating tank 413 through a pipeline, the positioning heat dissipating component 42 includes an outer cover tank 421 sleeved on an outer wall of the conical mixer housing 10, locate a plurality of actuating cylinders 422 of dustcoat jar 421 inner wall bottom, and locate actuating cylinder 422 execution end and cover are located the outside annular cooling tube 423 of conical mixer shell 10, annular cooling tube 423 inlet end passes through the first transmission pipe 415 of second transmission pipe 424 intercommunication, be equipped with third automatically controlled valve 425 on the second transmission pipe 424, the liquid discharge end of annular cooling tube 423 passes through pipeline intercommunication insulation can 413.

It should be noted that, in the present embodiment, when the thermal energy recycling device 40 works, the second circulating pump 414 and the second electronic control valve 416 are opened, and the heat-conducting medium can circulate in the spiral pipe 412 to absorb the residual heat of the preprocessing tank 11;

further, according to the liquid level height in the conical mixer housing 10, the height of the annular heat dissipation pipe 423 is adjusted by the driving cylinder 422, for example, adjusted to a position half of the total height of the liquid level, so as to perform heat dissipation and heat preservation, after the height adjustment is completed, the second circulation pump 414 and the third electric control valve 425 are opened, at this time, the second electric control valve 416 is closed, and the heat conducting medium returns to the heat preservation tank 413 after passing through the heat preservation tank 413, the second circulation pump 414, the first transmission pipe 415, the second transmission pipe 424 and the annular heat dissipation pipe 423, so as to perform heat dissipation circularly, so as to preserve heat of the conical mixer housing 10.

The specific process of the invention is as follows:

when the device is used, raw materials such as water and dye are added from a feed inlet at the top of the preprocessing tank 11 in proportion, after the water is added into the preprocessing tank 11, the assistant proportioning device 30 is used for proportioning corresponding assistant amount according to the liquid level height of the water and adding the assistant amount into the water, after the assistant is added into the water, the homogenizing heating device 20 is used for mixing and heating the water and the assistant, the uniformly mixed premixed liquid enters the conical mixer shell 10 through a pipeline, and at the moment, the heat energy reutilization device 40 is used for collecting the residual heat of the preprocessing tank 11 and acting on the conical mixer shell 10;

when the auxiliary agent proportioning device 30 works, a quantitative pipe 33 with a proper thickness is selected according to the proportion of the amount of the auxiliary agent to be added to water, the selected quantitative pipe 33 is moved to the position right above a lifting sealing part 36 through a switching part 31, an air bag 342 drives a liquid measuring plate 341 to move upwards due to the buoyancy of the water, an electromagnetic block 352 is electrified to attract the liquid measuring plate 341 after the air bag moves to the water surface, the lifting sealing part 36 seals a liquid leaking pipe 32, a negative pressure liquid inlet part 37 sucks the water in the quantitative pipe 33 out and discharges the water into a preprocessing tank 11, then the auxiliary agent with the same volume as the quantitative pipe 33 at the moment is injected into the quantitative pipe 33, and the lifting sealing part 36 is reset after the auxiliary agent addition is completed;

when the switching component 31 works, the execution end of the stepping motor 311 drives the switching turntable 312 to rotate so as to switch the dosing tube 33;

when the lifting sealing component 36 works, the telescopic cylinder 362 drives the sealing pipe 361 to move into the liquid leakage pipe 32 so as to seal the liquid leakage pipe 32;

when the negative pressure liquid inlet component 37 works, the negative pressure pump 372 sucks water in the quantifying pipe 33 through the hose 371 and discharges the water into the preprocessing tank 11, after the water is sucked out, the first electric control valve 374 is opened, and the auxiliary agent enters the quantifying pipe 33 through the auxiliary agent pipe 373;

when the refining heating device 20 works, the execution end of the transmission motor 213 drives the driving gear 214 to rotate, the driving gear 214 drives the stirring pipe 211 to rotate through the gear disc 212, and the stirring pipe 211 stirs the solution;

the heating tank 221 heats the internal fluid medium, and the heated fluid medium circularly flows in the stirring pipe 211 under the action of the first circulating pump 222, and gives uniform heat energy to the stirring pipe 211 to heat the solution;

when the heat energy recycling device 40 works, the second circulating pump 414 and the second electronic control valve 416 are opened, and the heat-conducting medium can circulate in the spiral pipe 412 to absorb the residual heat of the preprocessing tank 11;

according to the liquid level height in the conical mixer shell 10, the height of the annular radiating pipe 423 is adjusted through the driving cylinder 422, for example, the height is adjusted to be half of the total height of the liquid level, so as to perform heat dissipation and heat preservation, after the height adjustment is completed, the second circulating pump 414 and the third electric control valve 425 are opened, at this time, the second electric control valve 416 is closed, the heat conducting medium passes through the heat preservation box 413, the second circulating pump 414, the first transmission pipe 415, the second transmission pipe 424 and the annular radiating pipe 423 and then returns to the heat preservation box 413, so as to perform heat dissipation circularly, so as to preserve the heat of the conical mixer shell 10.

The invention is described above with reference to the accompanying drawings, it is obvious that the invention is not limited to the above-described embodiments, and it is within the scope of the invention to adopt such insubstantial modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. A conical mixer feeding device for textile auxiliary ingredient preprocessing comprises a conical mixer shell (10) and a preprocessing tank (11) which is connected with the top of the conical mixer shell (10) through a support column and is communicated with the conical mixer shell (10) through a pipeline, and is characterized in that the top of the preprocessing tank (11) is provided with a refining heating device (20) of which an execution end extends into the preprocessing tank (11), the bottom of the inner wall of the preprocessing tank (11) is provided with a plurality of auxiliary proportioning devices (30), the auxiliary proportioning devices (30) are arranged around the refining heating device (20), and the outer walls of the preprocessing tank (11) and the conical mixer shell (10) are provided with heat energy recycling devices (40);

the refining heating device (20) comprises a stirring part (21) which is rotatably connected with the inner wall of the preprocessing tank (11) and is vertically arranged, and a heat flow part (22) which is arranged at the top of the preprocessing tank (11) and is used for introducing a heat medium into the stirring part (21) in a circulating manner;

the auxiliary agent proportioning device (30) comprises a switching component (31) arranged at the bottom of the inner wall of the preprocessing tank (11), a plurality of liquid leakage pipes (32) arranged at the execution end of the switching component (31), a quantifying pipe (33) communicated with the top of the liquid leakage pipes (32), and an air flotation measuring component (34) slidably connected with the inner wall of the quantifying pipe (33), magnetic suction components (35) which are symmetrically arranged on the inner wall of the quantitative pipe (33) and are used for fixing the air flotation quantitative component (34), a lifting sealing component (36) which is arranged at the bottom of the preprocessing tank (11) and the execution end of which extends into the preprocessing tank (11), and a negative pressure liquid inlet component (37) which is arranged at the bottom of the preprocessing tank (11) and of which the execution end is communicated with the lifting sealing component (36), the switching component (31) is used for switching one of the liquid leakage pipes (32) to be right above the lifting sealing component (36);

the heat energy recycling device (40) comprises a heat collecting component (41) arranged on the outer wall of the preprocessing tank (11) and a positioning heat radiating component (42) arranged on the outer wall of the conical mixer shell (10) and communicated with the heat collecting component (41) through a pipeline.

2. The conical mixer feeding device for textile auxiliary ingredient preprocessing as claimed in claim 1, wherein the stirring part (21) comprises a stirring pipe (211) rotatably connected with the inner wall of the preprocessing tank (11) and extending to the outside of the preprocessing tank (11), a gear disc (212) arranged on the outer wall of the stirring pipe (211), a transmission motor (213) arranged at the top of the preprocessing tank (11), and a driving gear (214) arranged at the execution end of the transmission motor (213) and engaged with the gear disc (212).

3. The conical mixer feeding device for textile auxiliary ingredient preprocessing is characterized in that the heat flow part (22) comprises a heating box (221) arranged at the top of the preprocessing tank (11) and a first circulating pump (222) arranged on the side wall of the heating box (221), the first circulating pump (222) is communicated with the top of a stirring pipe (211) in a pipeline mode, and the bottom of the stirring pipe (211) is communicated with the heating box (221) in a pipeline mode.

4. The feeding device of the conical mixer for textile auxiliary ingredient preprocessing as claimed in claim 1, wherein the switching component (31) comprises a stepping motor (311) arranged at the bottom of the preprocessing tank (11), the execution end of the stepping motor (311) penetrates through the bottom of the preprocessing tank (11) to be connected with a switching turntable (312), and the bottom of the liquid leakage pipe (32) is connected with the switching turntable (312) in a penetrating manner.

5. The feeding equipment of the conical mixer for preprocessing the textile auxiliary ingredients, as claimed in claim 1, wherein the magnetic attraction part (35) comprises chutes (351) symmetrically arranged on the inner wall of the quantitative tube (33), and electromagnetic blocks (352) arranged on the inner wall of the chutes (351).

6. The conical mixer feeding device for textile auxiliary ingredient preprocessing as claimed in claim 5, wherein said air flotation measuring component (34) comprises a liquid measuring plate (341) disposed in said quantitative tube (33) and slidably connected to a chute (351), and an air bag (342) disposed at the bottom of said liquid measuring plate (341).

7. The feeding device of the conical mixer for textile auxiliary ingredient preprocessing as claimed in claim 1, wherein the lifting sealing member (36) comprises a sealing tube (361) arranged at the bottom of the preprocessing tank (11) and extending to the inside through the preprocessing tank (11), and a telescopic cylinder (362) arranged at the bottom of the preprocessing tank (11) and used for driving the sealing tube (361) to lift.

8. The conical mixer feeding device for textile auxiliary ingredient preprocessing as claimed in claim 7, wherein said negative pressure liquid inlet component (37) comprises a hose (371) with one end connected to the bottom of said sealed tube (361), a negative pressure pump (372) disposed at the bottom of said preprocessing tank (11) and the other end of said hose (371), and an auxiliary tube (373) connected to said hose (371), said auxiliary tube (373) being provided with a first electric control valve (374), said negative pressure pump (372) being connected to the bottom of said preprocessing tank (11) via a liquid discharge pipe.

9. The conical mixer feeding device for textile auxiliary ingredient preprocessing according to claim 1, wherein the heat collecting component (41) comprises a heat insulation cover (411) arranged on the outer wall of the preprocessing tank (11), a spiral pipe (412) arranged on the inner wall of the heat insulation cover (411), an insulation box (413) arranged on the outer wall of the heat insulation box (413), and a second circulating pump (414) arranged on the outer wall of the insulation box (413), wherein the second circulating pump (414) is connected with a liquid inlet end of the spiral pipe (412) through a first conveying pipe (415), a second electric control valve (416) is arranged at the liquid inlet end of the spiral pipe (412), and a liquid outlet end of the spiral pipe (412) is communicated with the insulation box (413) through a pipeline.

10. The conical mixer feeding device for textile auxiliary ingredient preprocessing as claimed in claim 9, wherein said positioning heat dissipation component (42) comprises a cover tank (421) sleeved on the outer wall of said conical mixer housing (10), a plurality of driving cylinders (422) disposed at the bottom of the inner wall of said cover tank (421), and a ring-shaped heat dissipation pipe (423) disposed at the execution end of said driving cylinders (422) and sleeved on the outside of said conical mixer housing (10), said ring-shaped heat dissipation pipe (423) having its liquid inlet end connected to the first transmission pipe (415) through the second transmission pipe (424), said second transmission pipe (424) having a third electric control valve (425), said ring-shaped heat dissipation pipe (423) having its liquid outlet connected to the heat insulation box (413) through the pipe.

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