CN212040455U - Degreasing agent apparatus for producing - Google Patents

Abstract

The utility model discloses a degreaser apparatus for producing, including reation kettle, be equipped with rabbling mechanism and liquid dropwise add mechanism in the reation kettle, the rabbling mechanism rotates under drive arrangement's effect, the rabbling mechanism cavity to supply with heat medium feeding device intercommunication through valve and refrigerant, make the rabbling mechanism can carry the heat and rotate with the coldness.

Description

Degreasing agent apparatus for producing

Technical Field

The utility model relates to a leather industrial chemicals production technical field, concretely relates to degreasing agent apparatus for producing.

Background

The degreasing agent is one of textile auxiliaries, the production process of the degreasing agent is shown in figure 2, and a reaction kettle needs to be heated, stirred, cooled and stirred in the whole production process. Be equipped with the stirring rake in the reation kettle who is used for producing the degreaser among the prior art, reation kettle is equipped with the intermediate layer for let in steam and cooling water, but this kind of mode heats and refrigerated efficiency is lower.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a degreaser apparatus for producing improves reation kettle's heating and cooling structure for heating and cooling efficiency are higher.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a degreaser apparatus for producing, includes reation kettle, is equipped with rabbling mechanism and liquid dropwise add mechanism in the reation kettle, and the rabbling mechanism rotates under drive arrangement's effect, and the rabbling mechanism cavity to supply with refrigerant and heat medium feeding device intercommunication through the valve, make the rabbling mechanism can carry heat degree and coldness and rotate.

As a preferred technical scheme, the stirring mechanism comprises a stirring coil, an upper connecting pipe and a lower connecting pipe, wherein the stirring coil is positioned in the reaction kettle, and the upper part and the lower part of the stirring coil are respectively communicated with the upper connecting pipe and the lower connecting pipe; the upper connecting pipe and the lower connecting pipe extend out of the reaction kettle and are connected with a three-way pipe through bearings; sealing bearings are arranged between the upper connecting pipe and the reaction kettle and between the lower connecting pipe and the reaction kettle; the three-way pipe is provided with a three-way valve, and the other two pipelines of the three-way pipe except the pipeline communicated with the upper connecting pipe and the lower connecting pipe are respectively communicated with the refrigerant supply device and the heat medium supply device.

As a preferred technical scheme, the liquid dripping mechanism comprises a liquid dripping ring, a dripping liquid box and a dripping connecting pipe;

the bottom of the liquid dripping ring is provided with a plurality of dripping holes which are uniformly distributed, the liquid dripping ring is arranged in the reaction kettle and rotates under the action of a driving device,

the liquid dripping ring is communicated with a dripping liquid box positioned outside the reaction kettle through a dripping connecting pipe.

As a preferred technical scheme, the liquid dripping ring is fixed on the upper connecting pipe through a bracket and rotates along with the rotation of the upper connecting pipe;

the top of the reaction kettle and the bottom of the dripping liquid box are both connected with rotary ring plates through sealed bearings; a through hole is formed in the rotating ring plate and used for fixing the dropwise adding connecting pipe; the top of the dropwise adding connecting pipe is fixed with a through hole of a rotating ring plate at the bottom of the dropwise adding liquid tank and is communicated with the dropwise adding liquid tank; the middle part of the dropwise adding connecting pipe penetrates through the reaction kettle and is fixedly connected with a through hole of a rotary ring plate at the top of the reaction kettle, the bottom of the dropwise adding connecting pipe is positioned in the reaction kettle and is communicated with a liquid dropwise adding ring, and an electric plug valve is arranged on the dropwise adding connecting pipe.

Compared with the prior art, the utility model, following beneficial effect has:

the utility model discloses in, the stirring structure can bear refrigerant and heat medium as the carrier for on one side the stirring, heating or cooling, heating and refrigerated efficiency are higher. And simultaneously, the utility model discloses in, be provided with rotatable well liquid dropwise add ring for the liquid caustic soda dispersion of dropwise add is better, reduces among the prior art liquid caustic soda dropwise add and concentrates, the local overheat phenomenon that leads to.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic diagram of a production process of a degreasing agent in the prior art.

Wherein the reference numerals are as follows:

1-a reaction kettle, 2-a stirring coil pipe, 3-an upper connecting pipe, 4-a lower connecting pipe, 5-an upper three-way pipe, 6-a lower three-way pipe, 7-a driving motor, 8-a liquid dripping ring, 9-a dripping connecting pipe, 10-a dripping liquid ring box and 11-a rotary ring plate.

Detailed Description

The present invention will be further described with reference to the following drawings and examples, and embodiments of the present invention include, but are not limited to, the following examples.

Example 1

As shown in fig. 1, a degreasing agent production device comprises a reaction kettle 1, wherein a stirring mechanism capable of heating and cooling is arranged in the reaction kettle 1. Because rabbling mechanism itself has heating and refrigerated effect, when the stirring material, heat and cool off the material simultaneously for heating and cooling efficiency are higher.

The stirring mechanism comprises a stirring coil pipe 2, an upper connecting pipe 3, a lower connecting pipe 4, a rotating bearing, an upper three-way pipe 5 and a lower three-way pipe 6.

The bottom of the reaction kettle 1 is provided with a support for supporting the reaction kettle 1 body. The upper connecting pipe 3 extends into the reaction kettle 1 from the center of the top of the reaction kettle 1, and the bottom of the upper connecting pipe is communicated with an upper port of the stirring coil pipe 2 in the reaction kettle 1; the top of the upper connecting pipe 3 is communicated with an upper three-way pipe 5 through a rotating bearing. A sealing bearing is also arranged between the upper connecting pipe 3 and the reaction kettle 1, so that the upper connecting pipe 3 can rotate conveniently.

The lower connecting pipe 4 extends into the reaction kettle 1 from the center of the bottom of the reaction kettle 1, and the top of the lower connecting pipe 4 is communicated with the lower port of the stirring coil pipe 2; the bottom of the lower connecting pipe 4 is communicated with a lower three-way pipe 6 through a rotating bearing. A sealing bearing is also arranged between the lower connecting pipe 4 and the reaction kettle 1, so that the lower connecting pipe 4 can rotate conveniently.

The three pipes of the upper tee pipe 5 and the lower tee pipe 6 are defined as a pipe A, a pipe B and a pipe C respectively. The three-way pipe is provided with a three-way valve. The pipe A of the upper three-way pipe 5 and the pipe A of the lower three-way pipe 6 are both pipelines communicated with the stirring coil pipe 2.

The B pipes of the upper three-way pipe 5 and the lower three-way pipe 6 are respectively connected to a water supply port and a water return port of a cooling water supply device (a water tank with a water pump and a refrigerator is arranged inside the water tank, the water pump controls the flow direction of cooling water), the C pipes of the upper three-way pipe 5 and the lower three-way pipe 6 are both connected to a water supply port and a recovery port of a steam supply device (boiler), the recovery port of the boiler is positioned at the lower part of the boiler, and an air pump is arranged on a pipeline communicated with the C pipe of the lower three-way pipe and used.

In this embodiment, the ground is provided with a driving motor 7, an output shaft of the driving motor 7 is provided with a driving gear, a part of the lower connecting pipe 4, which is located outside the reaction kettle 1, is sleeved with a driven gear, and the driven gear is engaged with the driving gear. Through this structure, realize driving connecting pipe 4 down and rotate to drive stirring coil 2 and rotate, realize the stirring function.

And the passage of the three-way valve can be controlled to control the introduction of steam or cooling water into the stirring coil 2, so as to realize stirring and cooling or heating at the same time, thereby submitting the cooling or heating efficiency of the reaction kettle 1. Meanwhile, the structure of the embodiment is simple.

It should be noted that the prior art reactor has a structure of a feed inlet, a discharge outlet, a tail gas discharge pipe and the like which is not shown in fig. 1.

Example 2

When the degreasing agent is produced, liquid alkali needs to be dripped, so a liquid dripping mechanism is arranged above the reaction kettle 1 body. The liquid dripping mechanism comprises a liquid dripping ring 8, a dripping liquid ring box 10 and a dripping connecting pipe 9.

Specifically, the dripping liquid ring box 10 is arranged at the top of the reaction kettle 1 through a support and is avoided from the upper three-way pipe 5. The bottom of the liquid dripping ring 8 is provided with a plurality of dripping holes which are uniformly distributed. The liquid dripping ring 8 is arranged inside the reaction kettle 1 and takes the connecting pipe 3 as an axis. The liquid dropping ring 8 is fixed on the upper connecting pipe 3 through a bracket and can rotate along with the rotation of the upper connecting pipe 3.

The top of the reaction kettle 1 is connected with a rotating ring plate 11 through a bearing, and the rotating ring plate 11 is also arranged by taking the connecting pipe 3 as an axis.

The two sides of the upper part of the liquid dripping ring 8 are symmetrically communicated with dripping connecting pipes 9, and the rotating ring plate 11 is provided with through holes for the dripping connecting pipes 9 to pass through. And sealing and fixing the dripping connecting pipe 9 and the rotating ring plate 11. When last connecting pipe 3 rotated, drive liquid dropwise add ring 8 and rotate to drive dropwise add connecting pipe 9 and rotate around last connecting pipe 3, just also follow relative reation kettle 1 top casing and rotate this moment because rotatory crown plate 11.

The dripping connection pipe 9 passes through the upper part of the rotating ring plate 11 and is communicated with the bottom of the dripping liquid ring box 10.

Specifically, the bottom of the drip liquid ring box 10 is connected with a rotating ring plate 11 through a sealing bearing, and a through hole is formed in the rotating ring plate 11 and used for fixing the drip connecting pipe 9, so that the upper port of the drip connecting pipe 9 is communicated with the drip liquid ring box 10.

Further, an electric plug valve is arranged on the dripping connecting pipe 9 and used for controlling the flow and the flow speed of the dripping liquid.

The working principle of this embodiment is that after the materials are mixed, and when liquid caustic soda needs to be dripped in the heating process, the electric plug valve is opened, and the liquid caustic soda enters the liquid dripping ring 8 from the dripping liquid ring box 10 through the dripping connecting pipe 9. Since the liquid dropping ring 8 has a plurality of dropping holes, the dropping dispersibility is better. In the prior art, a liquid adding pipe is generally adopted to extend into a reaction kettle 1 for dropwise adding, and the dropwise adding mode has poor dispersibility, easily causes over-high local concentration, causes over-high local temperature, causes increased side reactions and affects the product quality. And the structure of this embodiment, just solved liquid caustic soda dropwise add the not good problem of dispersion, on this basis, liquid dropwise add ring 8 rotates along with stirring coil 2 to the dropwise add area of coverage is wider, and the dispersion is better.

According to the above embodiment, alright realize the utility model discloses well. It is worth to say that, on the premise of the above structural design, in order to solve the same technical problem, even if some insubstantial changes or retouching are made in the utility model, the essence of the adopted technical scheme is still the same as the utility model, so it should be in the protection scope of the utility model.

Claims (3)

1. A degreasing agent production device comprises a reaction kettle, wherein a stirring mechanism and a liquid dripping mechanism are arranged in the reaction kettle, and the stirring mechanism rotates under the action of a driving device; the upper connecting pipe and the lower connecting pipe extend out of the reaction kettle and are connected with a three-way pipe through bearings; sealing bearings are arranged between the upper connecting pipe and the reaction kettle and between the lower connecting pipe and the reaction kettle; the three-way pipe is provided with a three-way valve, and the other two pipelines of the three-way pipe except the pipeline communicated with the upper connecting pipe and the lower connecting pipe are respectively communicated with the refrigerant supply device and the heat medium supply device.

2. The degreasing agent production device according to claim 1, wherein the liquid dropping mechanism comprises a liquid dropping ring, a dropping liquid tank, and a dropping connection pipe;

the bottom of the liquid dripping ring is provided with a plurality of dripping holes which are uniformly distributed, the liquid dripping ring is arranged in the reaction kettle and rotates under the action of a driving device,

the liquid dripping ring is communicated with a dripping liquid box positioned outside the reaction kettle through a dripping connecting pipe.

3. The degreaser production apparatus of claim 2, wherein the liquid dropping ring is fixed on the upper connecting pipe through a bracket and rotates along with the rotation of the upper connecting pipe;

the top of the reaction kettle and the bottom of the dripping liquid box are both connected with rotary ring plates through sealed bearings; a through hole is formed in the rotating ring plate and used for fixing the dropwise adding connecting pipe; the top of the dropwise adding connecting pipe is fixed with a through hole of a rotating ring plate at the bottom of the dropwise adding liquid tank and is communicated with the dropwise adding liquid tank; the middle part of the dropwise adding connecting pipe penetrates through the reaction kettle and is fixedly connected with a through hole of a rotary ring plate at the top of the reaction kettle, the bottom of the dropwise adding connecting pipe is positioned in the reaction kettle and is communicated with a liquid dropwise adding ring, and an electric plug valve is arranged on the dropwise adding connecting pipe.

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