CN114307735A - Closed mixing stirring system - Google Patents

Abstract

The invention provides a closed mixing and stirring system, which belongs to the field of quantitative mixing, and comprises a temperature control system, a mixing device, a manual valve control system, a reagent a box body, a reagent b box body, an automatic input and output control system, a reagent a pump system and a reagent b pump system, wherein the temperature control system consists of an air conditioner valve a and an air conditioner valve b; the mixing device consists of a stirring cylinder and a stirring auger which is rotatably connected to the inner wall of the stirring cylinder; the manual valve control system consists of a reagent a three-way valve and a reagent b three-way valve. The invention can effectively mix and stir different reagents uniformly in a closed environment, so that a finished product does not contain air bubbles, the labor input is reduced, the pollution of reagent gas leakage to the working environment is avoided, and the safety of reagent mixing is effectively ensured; meanwhile, the invention saves a foam discharging system and an environment-friendly treatment system required by the traditional production line, improves the product quality and has good economic benefit.

Description

Closed mixing stirring system

Technical Field

The invention belongs to the technical field of quantitative mixing, and particularly relates to a closed mixing and stirring system.

Background

The general reagent mixing reaction is basically that two reagent liquids are poured into a container according to a certain proportion, and the two reagent liquids are mixed by a stirrer and then are poured into a sample piece, and in the process, a certain sealing measure is not adopted, the reagent liquids are completely exposed in the air, certain pollution is caused to the environment, and the generated harmful gases relate to the safety and health of human bodies.

Disclosure of Invention

The invention provides a closed mixing and stirring system, which aims to solve the problems in the background technology.

The invention is realized in this way, a closed mixing and stirring system, including temperature control system, compounding device, manual valve control system, reagent a box, reagent b box, automatic input/output control system, reagent a pump system and reagent b pump system, the said temperature control system is made up of air-conditioning valve a and air-conditioning valve b; the mixing device consists of a stirring cylinder and a stirring auger which is rotatably connected to the inner wall of the stirring cylinder; the manual valve control system consists of a reagent a three-way valve and a reagent b three-way valve; the reagent a box body consists of a reagent a heat exchanger, a reagent a vacuum exhaust valve, a reagent a heat exchange control valve and a reagent a box body control valve; the reagent b box body consists of a reagent b vacuum exhaust valve, a reagent b heat exchanger, a reagent b heat exchange control valve and a reagent b box body control valve; the automatic input and output control system consists of a reagent a output control valve, a reagent b output control valve, a reagent a input control valve and a reagent b input control valve; the reagent a pump system consists of a reagent a flow meter and a reagent a stop valve; the reagent b pump system consists of a reagent b flow meter and a reagent b stop valve.

In some embodiments, the inlet end of the mixing device is respectively connected with a manual valve control system and an automatic input and output control system.

In some embodiments, the air conditioning valve a and the air conditioning valve b are respectively connected with a reagent a heat exchanger and a reagent b heat exchanger.

In some embodiments, the reagent a three-way valve and the reagent b three-way valve are connected with an automatic input and output control system, a mixing device, a reagent a pump system and a reagent b pump system in sequence.

In some embodiments, the reagent a output control valve and the reagent b output control valve are respectively connected with a reagent a heat exchange control valve, a reagent b heat exchange control valve and a manual valve control system.

In some embodiments, the reagent a input control valve and the reagent b input control valve are respectively connected with a reagent a pump system and a reagent b pump system.

In some embodiments, the reagent a cut-off valve and the reagent b cut-off valve are connected with an automatic input and output control system.

By adopting the technical scheme, the invention has the following advantages:

1. this closed mixing stirring system can mix the stirring to different reagents effectively under the closed environment for the finished product of production does not contain the air bubble, has reduced the human input moreover, avoids reagent gas to reveal the pollution to operational environment, thereby guarantees the security that reagent mixes effectively, can guarantee the accuracy of reagent measurement simultaneously effectively, and then improves the quality of mixing reagent.

2. Inputting a reagent a into a control valve, and connecting a reagent b input control valve through a reagent a pump system and a reagent b pump system respectively so as to supplement the reagent; the reagent a output control valve and the reagent b output control valve are respectively connected with the temperature control system and the manual valve control system so as to ensure the output of the optimal temperature of the reagent.

3. The reagent a pump system and the reagent b pump system are connected with a manual valve control system, and the manual valve control system is convenient for automatic or manual switching of reagent proportional output so as to achieve the quantitative performance of the reagent.

4. The closed mixing and stirring system is simple to use and operate, has good sealing performance, solves the problem that air enters mixed liquid when pollution gas is generated to be discharged and stirred when the resin is stirred by two fluids in the prior art, has small investment, avoids the condition that the quality of finished products is not thoroughly influenced by bubble discharge, has higher mixed reaction reagent for safety requirement, and has wider practical value.

Drawings

FIG. 1 is a schematic side view of a closed mixing and blending system;

FIG. 2 is a schematic top view of a closed mixing and blending system;

FIG. 3 is a schematic structural diagram of a mixing device of a closed mixing and stirring system;

fig. 4 is a schematic view of the overall structure of a closed mixing and stirring system.

In the figure:

1 temperature control system, 1-1 air-conditioning valve a, 1-2 air-conditioning valve b, 2 mixing device, 2-1 stirring cylinder, 2-2 stirring auger, 3 manual valve control system, 3-1 reagent a three-way valve, 3-2 reagent b three-way valve, 4 reagent a box body, 4-1 reagent a heat exchanger, 4-2 reagent a vacuum exhaust valve, 4-3 reagent a heat exchange control valve, 4-4 reagent a box body control valve, 5 reagent b box body, 5-1 reagent b vacuum exhaust valve, 5-2 reagent b heat exchanger, 5-3 reagent b heat exchange control valve, 5-4 reagent b box body control valve, 6 automatic input and output control system, 6-1 reagent a output control valve, 6-2 reagent b output control valve, 6-3 reagent a input control valve, 6-4 reagent b input control valve, 7 reagent a pump system, 7-1 reagent a flow meter, 7-2 reagent a stop valve, 8 reagent b pump system, 8-1 reagent b flow meter, 8-2 reagent b stop valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further 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 "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Examples

The invention provides a closed mixing and stirring system, which comprises a temperature control system 1, a mixing device 2, a manual valve control system 3, a reagent a box body 4, a reagent b box body 5, an automatic input and output control system 6, a reagent a pump system 7 and a reagent b pump system 8, wherein the temperature control system 1 consists of an air-conditioning valve a1-1 and an air-conditioning valve b 1-2; the mixing device 2 consists of a stirring cylinder body 2-1 and a stirring auger 2-2 which is rotatably connected to the inner wall of the stirring cylinder body 2-1; the inlet end of the mixing device 2 is respectively connected with a manual valve control system 3 and an automatic input and output control system 6; the manual valve control system 3 consists of a reagent a three-way valve 3-1 and a reagent b three-way valve 3-2; the reagent a three-way valve 3-1 and the reagent b three-way valve 3-2 are sequentially connected with an automatic input and output control system 6, a mixing device 2, a reagent a pump system 7 and a reagent b pump system 8.

The reagent a box body 4 consists of a reagent a heat exchanger 4-1, a reagent a vacuum exhaust valve 4-2, a reagent a heat exchange control valve 4-3 and a reagent a box body control valve 4-4; the reagent b box body 5 consists of a reagent b vacuum exhaust valve 5-1, a reagent b heat exchanger 5-2, a reagent b heat exchange control valve 5-3 and a reagent b box body control valve 5-4; the air conditioning valve a1-1 and the air conditioning valve b1-2 are respectively connected with the reagent a heat exchanger 4-1 and the reagent b heat exchanger 5-2; the automatic input and output control system 6 consists of a reagent a output control valve 6-1, a reagent b output control valve 6-2, a reagent a input control valve 6-3 and a reagent b input control valve 6-4; and the reagent a output control valve 6-1 and the reagent b output control valve 6-2 are respectively connected with a reagent a heat exchange control valve 4-3, a reagent b heat exchange control valve 5-3 and a manual valve control system 3.

The reagent a pump system 7 consists of a reagent a flow meter 7-1 and a reagent a stop valve 7-2; the reagent b pump system 8 consists of a reagent b flowmeter 8-1 and a reagent b stop valve 8-2; the reagent a input control valve 6-3 and the reagent b input control valve 6-4 are respectively connected with a reagent a pump system 7 and a reagent b pump system 8; the reagent a stop valve 7-2 and the reagent b stop valve 8-2 are connected with the reagent a box body control valve 4-4 and the reagent b box body control valve 5-4.

When the automatic mixing device works, reagents are controlled and input into the mixing device 2 from the reagent a box body 4 and the reagent b box body 5 through the manual valve control system 3, the reagent a input control valve 6-3 and the reagent b input control valve 6-4, the flow rates of the reagents are monitored through the reagent a flow meter 7-1 and the reagent b flow meter 8-1 respectively during the conveying period, and the automatic input and output control system 6 controls the reagent a stop valve 7-2 or the reagent b stop valve 8-2 to be closed after the set values are reached, so that the two reagents can complete mixing treatment in a closed environment, and the structure is simple; the reagent a is input into a control valve 6-3, and the reagent b input control valve 6-4 is respectively connected through a reagent a pump system 7 and a reagent b pump system 8 so as to supplement the reagent; the reagent a output control valve 6-1 and the reagent b output control valve 6-2 are respectively connected with the temperature control system 1 and the manual valve control system 3 so as to ensure the output of the optimal temperature of the reagent; the reagent a pump system 7 and the reagent b pump system 8 are connected with the manual valve control system 3, and the manual valve control system 3 is convenient for automatic or manual switching of reagent proportional output so as to achieve the quantitative property of the reagent; the mixing device 2 is connected with a manual valve control system 3 (also can be connected with an output control valve of an automatic input and output control system 6), and the reagents a and b are mixed by a mixing auger 2-2 of the mixing device 2, so that the purpose of mixing and stirring is achieved.

The invention saves a foam discharging system and an environment-friendly treatment system required by the traditional production line, improves the product quality and has good economic benefit.

Application example

Input material function description:

the invention provides a feeding description of a closed mixing and stirring system, as shown in figures 1-4, a reagent a output control valve 6-1 and a reagent b output control valve 6-2 of an automatic input and output control system 6 are respectively connected into a corresponding reagent a box body 4 and a corresponding reagent b box body 5, a manual valve control system 3 or the reagent a input control valve 6-3 and the reagent b input control valve 6-4 are used for controlling and starting a reagent a pump system 7 and a reagent b pump system 8, meanwhile, a reagent a vacuum exhaust valve 4-2 and a reagent b vacuum exhaust valve 5-1 are opened for exhausting, a reagent a box body control valve 4-4 and a reagent b box body control valve 5-4 are also opened simultaneously, reagents a and b are input into the corresponding box bodies through reagent pumps, a certain amount of reagents are filled according to the display of the volume of the box bodies, then the reagent pumps and the reagent a input control valves 6-3 are closed, Reagent b is input into a control valve 6-4, a reagent a vacuum exhaust valve 4-2 and a reagent b vacuum exhaust valve 5-1.

Description of material mixing function:

the invention provides a material mixing description of a closed mixing and stirring system, which comprises two stages:

the first stage is as follows: the heating cycle stage of the reagent temperature of the box body aims to make the reagent reach a certain dilution temperature uniformly.

As shown in fig. 1-2, the temperature control system 1 and the reagent pump are first started to perform a temperature control cycle by the control valve of the manual valve control system 3 or the automatic input/output control system 6:

the temperature heating cycle as shown in fig. 1-2 is as follows:

the temperature cycle process between the reagent a box body 4 and the reagent b box body 5 is as follows: 1-2 → b → d → g → i → 1-1

And (3) temperature heating cycle process of the reagent a: 1-2 → b → e → 4-3 → a → 4-4 → 7 → 3-1 → 6-1 → c

And (3) temperature heating cycle process of the reagent b: 1-1 → i → 5-3 → f → 5-4 → 8 → 3-2 → 6-2 → h

And a second stage: after the heating temperature of the reagent reaches the dilution stage, an output valve of the manual valve control system 3 or the automatic input and output control system 6 is opened, and the mixing is carried out in proportion through the mixing device 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a closed mixing stirring system, includes temperature control system (1), compounding device (2), manual valve control system (3), reagent a box (4), reagent b box (5), automatic input/output control system (6), reagent a pump system (7) and reagent b pump system (8), its characterized in that: the temperature control system (1) consists of an air conditioner valve a (1-1) and an air conditioner valve b (1-2); the mixing device (2) consists of a stirring cylinder body (2-1) and a stirring auger (2-2) which is rotatably connected to the inner wall of the stirring cylinder body (2-1); the manual valve control system (3) consists of a reagent a three-way valve (3-1) and a reagent b three-way valve (3-2); the reagent a box body (4) consists of a reagent a heat exchanger (4-1), a reagent a vacuum exhaust valve (4-2), a reagent a heat exchange control valve (4-3) and a reagent a box body control valve (4-4); the reagent b box body (5) consists of a reagent b vacuum exhaust valve (5-1), a reagent b heat exchanger (5-2), a reagent b heat exchange control valve (5-3) and a reagent b box body control valve (5-4); the automatic input and output control system (6) consists of a reagent a output control valve (6-1), a reagent b output control valve (6-2), a reagent a input control valve (6-3) and a reagent b input control valve (6-4); the reagent a pump system (7) consists of a reagent a flow meter (7-1) and a reagent a stop valve (7-2); the reagent b pump system (8) is composed of a reagent b flowmeter (8-1) and a reagent b stop valve (8-2).

2. The closed mixing and stirring system according to claim 1, wherein: and the inlet end of the mixing device (2) is respectively connected with the manual valve control system (3) and the automatic input and output control system (6).

3. The closed mixing and stirring system according to claim 2, wherein: and the air conditioning valve a (1-1) and the air conditioning valve b (1-2) are respectively connected with the reagent a heat exchanger (4-1) and the reagent b heat exchanger (5-2).

4. The closed mixing and stirring system according to claim 3, wherein: the reagent a three-way valve (3-1) and the reagent b three-way valve (3-2) are sequentially connected with the automatic input and output control system (6), the mixing device (2), the reagent a pump system (7) and the reagent b pump system (8).

5. The closed mixing and stirring system according to claim 1, wherein: and the reagent a output control valve (6-1) and the reagent b output control valve (6-2) are respectively connected with the reagent a heat exchange control valve (4-3), the reagent b heat exchange control valve (5-3) and the manual valve control system (3).

6. The closed mixing and stirring system according to claim 5, wherein: and the reagent a input control valve (6-3) and the reagent b input control valve (6-4) are respectively connected with a reagent a pump system (7) and a reagent b pump system (8).

7. The closed mixing and stirring system according to claim 6, wherein: and the reagent a stop valve (7-2) and the reagent b stop valve (8-2) are connected with the automatic input and output control system (6).

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