CN209917867U - Cleaning agent production facility - Google Patents

Abstract

The utility model belongs to the technical field of detergent production, in particular to a detergent production device, which comprises a reaction kettle, a liquid storage tank, a circulating shearing kettle, a circulating shearing pump, a sealing heat preservation pipe and a liquid raw material pump, wherein the reaction kettle comprises a pre-liquid reaction kettle A and a liquid forming reaction kettle B, and the liquid storage tank comprises a pre-liquid storage tank A and a liquid forming liquid storage tank B; the non-foaming cleaning agent can be produced by the aid of the pre-liquid reaction kettle A, the pre-liquid storage tank A, the circulating shearing kettle, the liquid forming liquid storage tank B, the liquid forming reaction kettle B and the circulating shearing pump, the pre-liquid reaction kettle A, the circulating shearing kettle, the liquid forming reaction kettle B and the circulating shearing pump are not stopped for a long time to wait for a previous process by adding the liquid storage tank, standby time is shortened, water is heated by the aid of the electric heating layer and then heats the inner shell of the liquid storage tank, the heating rate is moderate and uniform, the solution in the containing cavity of the inner shell of the liquid storage tank is prevented from being damaged by severe temperature rise, and production stability is guaranteed.

Description

Cleaning agent production facility

Technical Field

The utility model belongs to the technical field of the cleaner production, concretely relates to cleaner production facility.

Background

The organic cleaning agent and the inorganic cleaning agent are different simply, the organic cleaning agent is a cleaning agent made of carbon-containing compounds, the inorganic cleaning agent is a cleaning agent made of carbon-free compounds, so that the organic cleaning agent and the inorganic cleaning agent belong to inorganic matters, the classification methods of the cleaning agents are different from countries, and the cleaning agents are generally divided into three categories, namely water-based cleaning agents, semi-water-based cleaning agents and non-water-based cleaning agents.

The prior art has the following problems:

1. the existing cleaning agent production equipment has more production equipment due to very complicated production procedures, and the floor area and the purchase cost of the production equipment as well as the equipment maintenance and use cost are higher, so that the production cost of products is not reduced;

2. the heating mode of the existing liquid storage tank directly carries out contact heating on the solution, the rate of temperature change is high, the reaction process of the solution is easy to damage, and the use is not facilitated.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a cleaner production facility has simple, efficient characteristics of process.

The utility model is realized in such a way that a cleaning agent production device comprises a reaction kettle, a liquid storage tank, a circulating shearing kettle, a circulating shearing pump, a sealing heat preservation pipe and a liquid raw material pump, the reaction kettle comprises a pre-liquid reaction kettle A and a liquid forming reaction kettle B, the liquid storage tank comprises a pre-liquid storage tank A and a liquid forming storage tank B, the pre-liquid reaction kettle A, the pre-liquid storage tank A, the circulating shearing kettle, the liquid forming storage tank B and the liquid forming reaction kettle B are sequentially connected in a sealing way through the sealing heat preservation pipe, the liquid raw material pump is hermetically connected on the sealed heat-preservation pipe, the output end of the circulating shear pump is hermetically connected with the input end of the liquid-forming reaction kettle B, the reaction kettle, the liquid storage tank, the circulating shearing kettle, the circulating shearing pump, the sealed heat preservation pipe and the liquid raw material pump are all electrically connected with an external power supply.

Preferably, the quantity of liquid raw material pumps is four, in advance liquid reation kettle A with in advance between the liquid storage pot A establish ties on the sealed insulating tube and have liquid raw material pump, in advance liquid storage pot A with between the circulation shearing cauldron establish ties on the sealed insulating tube and have liquid raw material pump, circulation shearing cauldron with between the liquid storage pot B establish ties on the sealed insulating tube and have liquid raw material pump, become liquid storage pot B with between the liquid reation kettle B establish ties on the sealed insulating tube and have liquid raw material pump.

Preferably, the liquid storage pot includes that liquid storage pot casing and cover establish its inside liquid storage pot inner shell, the inner wall fixedly connected with electric heating layer of liquid storage pot casing, the liquid storage pot casing with the top surface fixedly connected with cover of liquid storage pot inner shell, the liquid storage pot casing with be equipped with liquid between the liquid storage pot inner shell and hold the chamber.

Preferably, the top surface of the tank cover is fixedly provided with a stirring paddle, and the output end of the stirring paddle is positioned in the containing cavity of the inner shell of the liquid storage tank.

Preferably, the bottom end of the liquid storage tank shell is fixedly connected with a support.

Preferably, a connecting pipe is fixedly connected to the middle position of the bottom end of the liquid storage tank shell, and the connecting pipe is communicated with the accommodating cavity of the inner shell of the liquid storage tank.

Preferably, the stirring paddle is located at a vertically central position of the liquid storage tank.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the non-foaming cleaning agent can be produced by the pre-liquid reaction kettle A, the pre-liquid storage tank A, the circulating shearing kettle, the liquid forming liquid storage tank B, the liquid forming reaction kettle B and the circulating shearing pump, the process is simple, the pre-liquid reaction kettle A, the circulating shearing kettle, the liquid forming reaction kettle B and the circulating shearing pump are not stopped for a long time to wait for the previous process by adding the liquid storage tanks, the standby time is shortened, and the production efficiency is improved.

2. Liquid holds the intracavity filling and has water, heats water through the electric heating layer, and water heats the liquid storage pot inner shell again, and the rate of heating comparatively relaxes evenly, prevents to acutely heat up and destroys the reaction process that the liquid storage pot inner shell held the intracavity solution, guarantees the stability of production.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a liquid storage tank of the present invention;

fig. 3 is a schematic structural view of the liquid containing chamber of the present invention.

Fig. 4 is a block flow diagram of the present invention.

In the figure: 1. a reaction kettle; 1A, a pre-liquid reaction kettle; 1B, a liquid forming reaction kettle; 2. a liquid storage tank; 2A, a liquid storage tank for the pre-liquid; 2B, a finished liquid storage tank; 21. a liquid storage tank shell; 211. a support; 212. a connecting pipe; 22. an inner shell of the liquid storage tank; 221. a liquid holding chamber; 23. an electric heating layer; 24. a can lid; 25. a stirring paddle; 3. circulating the shearing kettle; 4. a circulating shear pump; 5. sealing the heat preservation pipe; 6. a liquid feedstock pump.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Example 1

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a cleaner production facility, including reation kettle 1, the liquid storage pot 2, the cauldron 3 is cuted in the circulation, the pump 4 is cuted in the circulation, sealed insulating tube 5 and liquid raw material pump 6, reation kettle 1 is including liquid reation kettle 1A in advance and becoming liquid reation kettle 1B, liquid storage pot 2 is including liquid storage pot 2A in advance and becoming liquid storage pot 2B, liquid reation kettle 1A in advance, liquid storage pot 2A in advance, cauldron 3 is cuted in the circulation, become liquid storage pot 2B and become liquid reation kettle 1B and loop through sealed insulating tube 5 sealing connection, sealing connection has liquid raw material pump 6 on the sealed insulating tube 5, the output of circulating shear pump 4 and the input sealing connection who becomes liquid reation kettle 1B, reation kettle 1, the liquid storage pot 2, circulating shear cauldron 3, circulating shear pump 4, sealed insulating tube 5 and liquid raw material pump 6 all with external power source electric connection.

In this embodiment: the reaction kettle 1 is used for stirring and heating the solution to promote the solution to react (the model of the reaction kettle 1 is AK-01).

In this embodiment: the solution was transferred to a circulation shear tank 3 for shearing (model 2018090210 of circulation shear tank 3).

In this embodiment: paraffin oil (model BK-BZ1 of the circulation shear pump 4) was slowly added to the liquid-forming reaction tank 1B at a constant speed by the circulation shear pump 4.

In this embodiment: weighing the components according to the weight for later use, putting the weighed water into a pre-liquid reaction kettle 1A, then adding the weighed potassium acetate, uniformly stirring and fully dissolving to obtain a potassium acetate aqueous solution for later use, adding the weighed xanthan gum into the potassium acetate aqueous solution under the stirring condition, heating the pre-liquid reaction kettle 1A to 40-50 ℃, conveying the solution in the heated pre-liquid reaction kettle 1A into a pre-liquid storage tank 2A for storage through a liquid raw material pump 6 and a sealed heat preservation pipe 5, conveying the storage solution in the pre-liquid storage tank 2A into a circulating shearing kettle 3 for shearing at a shearing rate of 150-200s < -1 > through the liquid raw material pump 6 and the sealed heat preservation pipe 5 to obtain a homogeneous liquid, wherein the apparent viscosity of the homogeneous liquid is 35-50mpa · s at 30 ℃, and closing the shearing pump; and (2) conveying the homogeneous liquid in the circulating shearing kettle 3 to a finished liquid storage tank 2B through a liquid raw material pump 6 and a sealed heat preservation pipe 5, conveying the storage solution in the pre-liquid storage tank 2B to a finished liquid reaction kettle 1B through the liquid raw material pump 6 and the sealed heat preservation pipe 5, sequentially adding the reserved cocoanut oil diethanolamide, n-decyl glucoside, polydimethylsiloxane, oleic hydroxyethyl imidazoline and isothiazolinone into the finished liquid reaction kettle 1B under the stirring state, fully stirring at the stirring speed of 180-.

Specifically, the number of the liquid raw material pumps 6 is four, the liquid raw material pump 6 is connected in series to the sealed heat-insulating pipe 5 between the pre-liquid reaction kettle 1A and the pre-liquid storage tank 2A, the liquid raw material pump 6 is connected in series to the sealed heat-insulating pipe 5 between the pre-liquid storage tank 2A and the circulating shearing kettle 3, the liquid raw material pump 6 is connected in series to the sealed heat-insulating pipe 5 between the circulating shearing kettle 3 and the liquid forming storage tank 2B, and the liquid raw material pump 6 is connected in series to the sealed heat-insulating pipe 5 between the liquid forming storage tank 2B and the liquid forming reaction kettle 1B; the solution can be pressurized and pumped by the liquid raw material pump 6, so that the aim of sequential production is fulfilled, and labor is saved.

Specifically, the liquid storage tank 2 comprises a liquid storage tank shell 21 and a liquid storage tank inner shell 22 sleeved in the liquid storage tank shell 21, an electric heating layer 23 is fixedly connected to the inner wall of the liquid storage tank shell 21, a tank cover 24 is fixedly connected to the top surfaces of the liquid storage tank shell 21 and the liquid storage tank inner shell 22, and a liquid containing cavity 221 is arranged between the liquid storage tank shell 21 and the liquid storage tank inner shell 22; the liquid holds and has filled water in the chamber 221, heats water through electric heating layer 23, and water heats liquid storage pot inner shell 22 again, and the rate of heating is comparatively mild even, prevents acutely to heat up the destruction reaction process.

Specifically, a stirring paddle 25 is fixedly arranged on the top surface of the tank cover 24, and the output end of the stirring paddle 25 is positioned in the cavity of the inner shell 22 of the liquid storage tank; the stirring paddle 25 can stir the solution in the containing cavity of the inner shell 22 of the liquid storage tank, so as to prevent the solution from being uneven in concentration due to precipitation caused by long-time storage.

Specifically, the bottom end of the liquid storage tank shell 21 is fixedly connected with a bracket 211; the liquid storage tank 2 is stably supported.

Specifically, a connecting pipe 212 is fixedly connected to the middle position of the bottom end of the liquid storage tank shell 21, and the connecting pipe 212 is communicated with the accommodating cavity of the liquid storage tank inner shell 22; the solution within the inner housing 22 of the fluid reservoir is delivered.

Specifically, the stirring paddle 25 is positioned at the vertical center of the liquid storage tank 2; so that the action force of the stirring paddle 25 during rotation acts on the central position of the liquid storage tank 2 to prevent the sliding.

The utility model discloses a theory of operation and use flow: weighing the components according to the weight for later use, putting the weighed water into a pre-liquid reaction kettle 1A, then adding the weighed potassium acetate, uniformly stirring and fully dissolving to obtain a potassium acetate aqueous solution for later use, adding the weighed xanthan gum into the potassium acetate aqueous solution under the stirring condition, heating the pre-liquid reaction kettle 1A to 40-50 ℃, conveying the solution in the heated pre-liquid reaction kettle 1A into a pre-liquid storage tank 2A for storage through a liquid raw material pump 6 and a sealed heat preservation pipe 5, conveying the storage solution in the pre-liquid storage tank 2A into a circulating shearing kettle 3 for shearing at a shearing rate of 150-200s < -1 > through the liquid raw material pump 6 and the sealed heat preservation pipe 5 to obtain a homogeneous liquid, wherein the apparent viscosity of the homogeneous liquid is 35-50mpa · s at 30 ℃, and closing the shearing pump; and (2) conveying the homogeneous liquid in the circulating shearing kettle 3 to a finished liquid storage tank 2B through a liquid raw material pump 6 and a sealed heat preservation pipe 5, conveying the storage solution in the pre-liquid storage tank 2B to a finished liquid reaction kettle 1B through the liquid raw material pump 6 and the sealed heat preservation pipe 5, sequentially adding the reserved cocoanut oil diethanolamide, n-decyl glucoside, polydimethylsiloxane, oleic hydroxyethyl imidazoline and isothiazolinone into the finished liquid reaction kettle 1B under the stirring state, fully stirring at the stirring speed of 180-.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. A cleaning agent production facility which characterized in that: including reation kettle, liquid storage pot, circulation shearing cauldron, circulation shearing pump, sealed insulating tube and liquid raw material pump, reation kettle includes liquid reation kettle in advance and becomes liquid reation kettle, the liquid storage pot is including liquid storage pot in advance and becoming the liquid storage pot, liquid reation kettle in advance the liquid storage pot in advance the cauldron is sheared in the circulation become the liquid storage pot with it loops through to become liquid reation kettle sealed insulating tube sealing connection, sealing connection has on the sealed insulating tube liquid raw material pump, the output of circulation shearing pump with become liquid reation kettle's input sealing connection, reation kettle the liquid storage pot the cauldron is sheared in the circulation the pump sealed insulating tube with liquid raw material pump all with external power source electric connection.

2. The cleaning agent production apparatus according to claim 1, wherein: the quantity of liquid raw material pump is four, in advance liquid reation kettle with in advance between the liquid storage pot establish ties on the sealed insulating tube and have liquid raw material pump, in advance the liquid storage pot with between the circulation shearing cauldron establish ties on the sealed insulating tube and have liquid raw material pump, the circulation shearing cauldron with between the liquid storage pot establish ties on the sealed insulating tube and have liquid raw material pump, the liquid storage pot with between the liquid reation kettle establish ties on the sealed insulating tube and have liquid raw material pump.

3. The cleaning agent production apparatus according to claim 1, wherein: the liquid storage pot includes that liquid storage pot casing and cover establish its inside liquid storage pot inner shell, the inner wall fixedly connected with electric heating layer of liquid storage pot casing, the liquid storage pot casing with the top surface fixedly connected with cover of liquid storage pot inner shell, the liquid storage pot casing with be equipped with liquid between the liquid storage pot inner shell and hold the chamber.

4. The cleaning agent production apparatus according to claim 3, wherein: the top surface installation of cover is fixed with the stirring rake, the output of stirring rake is located the appearance intracavity of liquid storage pot inner shell.

5. The cleaning agent production apparatus according to claim 3, wherein: the bottom end of the liquid storage tank shell is fixedly connected with a support.

6. The cleaning agent production apparatus according to claim 3, wherein: the connecting pipe is fixedly connected to the middle position of the bottom end of the liquid storage tank shell and communicated with the containing cavity of the inner shell of the liquid storage tank.

7. The cleaning agent production apparatus according to claim 4, wherein: the stirring paddle is positioned at the vertical center of the liquid storage tank.

Images