CN217579376U - Ultrasonic wave dressing trough - Google Patents

Abstract

The utility model discloses an ultrasonic wave dressing trough relates to starching technical field. The utility model discloses a cell body, base and temperature control device are equipped with a plurality of ultrasonic vibrator between cell body and the base, and cell body one side lower part is fixed with a plurality of thick liquid pipes of taking out, and a plurality of thick liquid pipe one end of taking out is fixed with takes out the thick liquid and is responsible for, and cell body opposite side upper portion is fixed with a plurality of thick liquid pipes that advance, and a plurality of thick liquid pipe one end of advancing are fixed with advances to starch and are responsible for, and temperature control device includes heating cabinet, heat exchanger and slurry pump, and the heat exchanger is fixed at the heating cabinet top, and slurry pump fixes in heat exchanger top one side. The utility model discloses a design neotype temperature control device, can extract the thick liquid in the cell body and heat or dispel the heat, guarantee that the best state is guaranteed to thick liquid temperature in the cell body, and heating or radiating effect are even, simultaneously through the setting of fluid infusion case, can automize carry out the fluid infusion to the cell body, and can heat before the fluid infusion to the temperature of automatic accurate control thick liquid improves the starching effect of thick liquid groove.

Description

Ultrasonic wave dressing trough

Technical Field

The utility model belongs to the technical field of the starching, especially, relate to an ultrasonic wave dressing trough.

Background

The traditional warp sizing method is to achieve the sizing effect by repeatedly dipping and extruding yarns in a size box, and when the sized yarns are dipped in size with certain viscosity, fibers on the surface are firstly wetted and then are adhered to the size.

The inside heating device that needs of dressing trough is in order to realize the high temperature starching, because the dressing trough space is great, adopts steam heating pipe to heat the dressing trough mostly in the dressing trough, nevertheless can appear the uneven condition of temperature, simultaneously because the dressing trough needs to mend the thick liquid, the thick liquid of direct leading-in dressing trough is in normal atmospheric temperature state, directly pours into the temperature that the dressing trough can influence the dressing trough into, influences the starching effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultrasonic wave dressing trough, through designing neotype temperature control device, can extract the thick liquid in the cell body and heat or dispel the heat, guarantee that the thick liquid temperature guarantees the optimum in the cell body, and heating or radiating effect are even, simultaneously through the setting of fluid infusion case, can automize carry out the fluid infusion to the cell body, and can heat before the fluid infusion to the temperature of the accurate control thick liquid of automation improves the starching effect of dressing trough.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to an ultrasonic wave sizing tank, which comprises a tank body, a base and a temperature control device, wherein a plurality of ultrasonic wave vibrators are arranged between the tank body and the base;

a plurality of slurry pumping pipes are fixed at the lower part of one side of the tank body, a main slurry pumping pipe is fixed at one end of each slurry pumping pipe, a plurality of slurry inlet pipes are fixed at the upper part of the other side of the tank body, and a main slurry inlet pipe is fixed at one end of each slurry inlet pipe;

the temperature control device comprises a heating box, a heat exchanger and a slurry pump;

the heat exchanger is fixed on the top of the heating box, the slurry pumping pump is fixed on one side of the top of the heat exchanger, and the slurry supplementing box is fixed on the other side of the top of the heat exchanger;

the heating box is provided with a heating mechanism, the slurry inlet main pipe is connected with an inlet of the slurry pump through a first pipe body, an outlet of the slurry pump is connected with one end of the heating box through a second pipe body, and the second pipe body is connected with a heat source inlet of the heat exchanger through a first branch pipe and a first reversing valve;

the other end of the heating box is connected with the main slurry inlet pipe through a third pipe body, and the third pipe body is connected with a heat source outlet of the heat exchanger through a second branch pipe and a second reversing valve;

one side of the slurry supplementing box is connected with the first pipe body through a fourth pipe body, and a third reversing valve is arranged at the joint of the fourth pipe body and the first pipe body.

The ultrasonic generator is characterized by further comprising a plurality of rows of ultrasonic vibrators which are arranged side by side, wherein the ultrasonic vibrators are connected in series, and the ultrasonic vibrators are connected with the ultrasonic generator.

Furthermore, a plurality of channels are formed in the bottom of the base, and the plurality of slurry pumping pipes penetrate through the plurality of channels respectively.

Furthermore, the heating mechanism is a plurality of heating rods or snakelike steam pipes and is fixed in the heating box.

Furthermore, a grouting end pipe is arranged on one side of the top of the slurry supplementing box, the slurry supplementing box is a transparent box body, and a breather valve is arranged on the slurry supplementing box.

Further, still include the controller, be equipped with temperature sensor and level sensor in the cell body, first switching-over valve, second switching-over valve, take out the stuff pump, third switching-over valve, heat exchanger, temperature sensor, level sensor and heating mechanism all with controller electric connection.

The utility model discloses following beneficial effect has:

1. the utility model discloses a design neotype temperature control device, can extract the thick liquid in the cell body and heat or dispel the heat, guarantee that the best state is guaranteed to thick liquid temperature in the cell body, and heating or radiating effect are even, simultaneously through the setting of fluid infusion case, can automize carry out the fluid infusion to the cell body, and can heat before the fluid infusion to the temperature of automatic accurate control thick liquid improves the starching effect of thick liquid groove.

2. The utility model discloses a set up a plurality of ultrasonic vibrator between base and cell body, can vibrate the thick liquid in the cell body, through ultrasonic cavitation, can promote the thick liquid to soak, cover and the infiltration of yarn in last thick liquid process to under the same thick liquid contains the solid volume condition, obtain higher starching rate, form more complete thick liquid membrane on the yarn surface.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural view of an ultrasonic sizing tank of the present invention;

FIG. 2 is a schematic structural diagram of a temperature control device;

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

1-trough body, 2-base, 3-ultrasonic vibrator, 4-temperature control device, 101-slurry pumping pipe, 102-slurry pumping main pipe, 103-slurry inlet pipe, 104-slurry inlet main pipe, 201-channel, 401-heating box, 402-heat exchanger, 403-slurry pumping pump, 404-slurry supplementing box, 405-heating mechanism, 406-first pipe body, 407-second pipe body, 408-first branch pipe, 409-first reversing valve, 410-third pipe body, 411-second branch pipe, 412-second reversing valve, 413-fourth pipe body, 414-third reversing valve and 415-slurry injection end pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention relates to an ultrasonic sizing tank, which comprises a tank body 1, a base 2 and a temperature control device 4, wherein a plurality of ultrasonic vibrators 3 are arranged between the tank body 1 and the base 2;

a plurality of slurry pumping pipes 101 are fixed at the lower part of one side of the tank body 1, a main slurry pumping pipe 102 is fixed at one end of each of the plurality of slurry pumping pipes 101, a plurality of slurry inlet pipes 103 are fixed at the upper part of the other side of the tank body 1, and a main slurry inlet pipe 104 is fixed at one end of each of the plurality of slurry inlet pipes 103;

the temperature control device 4 comprises a heating box 401, a heat exchanger 402 and a slurry pump 403;

the heat exchanger 402 is fixed on the top of the heating box 401, the slurry pump 403 is fixed on one side of the top of the heat exchanger 402, and the slurry supplementing box 404 is fixed on the other side of the top of the heat exchanger 402;

a heating mechanism 405 is arranged on the heating box 401, the slurry inlet main pipe 104 is connected with an inlet of a slurry pump 403 through a first pipe body 406, an outlet of the slurry pump 403 is connected with one end of the heating box 401 through a second pipe body 407, and the second pipe body 407 is connected with a heat source inlet of the heat exchanger 402 through a first branch pipe 408 and a first reversing valve 409;

the other end of the heating box 401 is connected with the main slurry inlet pipe 104 through a third pipe body 410, and the third pipe body 410 is connected with a heat source outlet of the heat exchanger 402 through a second branch pipe 411 and a second reversing valve 412;

one side of the slurry supplementing box 404 is connected with the first pipe 406 through a fourth pipe 413, and a third reversing valve 414 is arranged at the connection position of the fourth pipe 413 and the first pipe 406.

The ultrasonic generator is characterized by further comprising an ultrasonic generator, the ultrasonic vibrators 3 are arranged in a plurality of rows in parallel, each row of ultrasonic vibrators 3 are connected in series, and each row of ultrasonic vibrators 3 are connected with the ultrasonic generator.

As shown in fig. 1, the bottom of the base 2 is provided with a plurality of channels 201, and the plurality of slurry pumping pipes 101 respectively penetrate through the plurality of channels 201.

Wherein, the heating mechanism 405 is a plurality of heating rods or snakelike steam pipes, and the heating mechanism 405 is fixed in the heating box 401.

As shown in FIG. 2, a grouting end pipe 415 is arranged on one side of the top of the slurry supplementing tank 404, the slurry supplementing tank 404 is a transparent tank body, and a breather valve is arranged on the slurry supplementing tank 404.

The device further comprises a controller, a temperature sensor and a liquid level sensor are arranged in the tank body 1, and the first reversing valve 409, the second reversing valve 412, the slurry pump 403, the third reversing valve 414, the heat exchanger 402, the temperature sensor, the liquid level sensor and the heating mechanism 405 are all electrically connected with the controller.

The utility model discloses a theory of operation does:

along with the reduction of the size in the tank body 1 in the sizing operation process, the liquid level is lowered (the liquid level is detected by a liquid level sensor), at this time, the controller controls a third reversing valve 414 (the size supplementing tank 404 is communicated with the size pumping pump 403, the main pulp pumping pipe 102 is disconnected with the size pumping pump 403), a first reversing valve 409 (the size pumping pump 403 is disconnected with the heat exchanger 402, the size pumping pump 403 is communicated with the heating tank 401), a second reversing valve 412 (the size inlet main pipe 104 is disconnected with the heat exchanger 402, and the size inlet main pipe 104 is communicated with the heating tank 401), and controls the size pumping pump 403 to start the size pumping, so that the size in the size supplementing tank 404 can be discharged into the tank body 1 for size supplementing.

When the temperature in the tank body 1 is too low (the temperature is detected by the temperature sensor), the controller controls the third reversing valve 414 (to disconnect the slurry supplementing tank 404 from the slurry pump 403 and to connect the main slurry pumping pipe 102 with the slurry pump 403), the first reversing valve 409 (to disconnect the slurry pump 403 from the heat exchanger 402 and to connect the slurry pump 403 with the heating tank 401), the second reversing valve 412 (to disconnect the main slurry inlet pipe 104 from the heat exchanger 402 and to connect the main slurry inlet pipe 104 with the heating tank 401), and controls the slurry pump 403 to start slurry pumping, so that the slurry in the tank body 1 can be pumped and heated and then discharged back into the tank body 1.

When the temperature in the tank body 1 is too high (the temperature is detected by the temperature sensor), the controller controls the third reversing valve 414 (to disconnect the slurry supplementing tank 404 from the slurry pump 403 and to connect the main slurry pumping pipe 102 with the slurry pump 403), the first reversing valve 409 (to connect the slurry pump 403 with the heat exchanger 402 and to disconnect the slurry pump 403 from the heating tank 401), the second reversing valve 412 (to connect the main slurry inlet pipe 104 with the heat exchanger 402 and to disconnect the main slurry inlet pipe 104 from the heating tank 401), and controls the slurry pump 403 to start slurry pumping, so that the slurry in the tank body 1 can be pumped and radiated and then discharged back into the tank body 1.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended to aid in the description of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides an ultrasonic wave dressing trough, includes cell body (1) and base (2), be equipped with a plurality of ultrasonic vibrator (3) between cell body (1) and base (2), its characterized in that: the device also comprises a temperature control device (4);

a plurality of slurry pumping pipes (101) are fixed at the lower part of one side of the tank body (1), a main slurry pumping pipe (102) is fixed at one end of each of the slurry pumping pipes (101), a plurality of slurry inlet pipes (103) are fixed at the upper part of the other side of the tank body (1), and a main slurry inlet pipe (104) is fixed at one end of each of the slurry inlet pipes (103);

the temperature control device (4) comprises a heating box (401), a heat exchanger (402) and a slurry pump (403);

the heat exchanger (402) is fixed at the top of the heating box (401), the slurry pump (403) is fixed at one side of the top of the heat exchanger (402), and the slurry supplementing box (404) is fixed at the other side of the top of the heat exchanger (402);

the heating box (401) is provided with a heating mechanism (405), the slurry inlet main pipe (104) is connected with an inlet of a slurry pumping pump (403) through a first pipe body (406), an outlet of the slurry pumping pump (403) is connected with one end of the heating box (401) through a second pipe body (407), and the second pipe body (407) is connected with a heat source inlet of the heat exchanger (402) through a first branch pipe (408) and a first reversing valve (409);

the other end of the heating box (401) is connected with the main pulp inlet pipe (104) through a third pipe body (410), and the third pipe body (410) is connected with a heat source outlet of the heat exchanger (402) through a second branch pipe (411) and a second reversing valve (412);

one side of the slurry supplementing box (404) is connected with the first pipe body (406) through a fourth pipe body (413), and a third reversing valve (414) is arranged at the joint of the fourth pipe body (413) and the first pipe body (406).

2. An ultrasonic sizing tank according to claim 1, further comprising an ultrasonic generator, wherein the plurality of ultrasonic vibrators (3) are arranged side by side in a plurality of rows, each row of ultrasonic vibrators (3) is connected in series, and each row of ultrasonic vibrators (3) is connected with the ultrasonic generator.

3. An ultrasonic dressing trough according to claim 1, characterized in that a plurality of channels (201) are opened at the bottom of said base (2), and a plurality of said slurry pumping pipes (101) respectively pass through a plurality of channels (201).

4. An ultrasonic sizing trough according to claim 1, characterized in that the heating means (405) is a plurality of heating rods or serpentine steam pipes, and the heating means (405) is fixed in a heating box (401).

5. An ultrasonic sizing tank according to claim 1, characterized in that a grouting end pipe (415) is arranged on one side of the top of the sizing box (404), the sizing box (404) is a transparent box body, and a breather valve is arranged on the sizing box (404).

6. The ultrasonic sizing tank according to claim 1, further comprising a controller, wherein a temperature sensor and a liquid level sensor are arranged in the tank body (1), and the first reversing valve (409), the second reversing valve (412), the slurry pump (403), the third reversing valve (414), the heat exchanger (402), the temperature sensor, the liquid level sensor and the heating mechanism (405) are electrically connected with the controller.

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