CN214915630U - Environmental protection science and technology type glass cleaner production proportion allotment system - Google Patents

Abstract

The utility model discloses an environmental protection science and technology type glass cleaner production proportion allotment system, which comprises an allotment tank and a plurality of raw material tanks, wherein the discharge port of the raw material tank is communicated with a raw material branch pipe, the feed port of the allotment tank is communicated with a raw material main pipe, and the raw material branch pipe is communicated with the raw material main pipe; an electronic pressure scale is arranged below the raw material tank, and a pump body and an electric regulating valve are arranged on the raw material branch pipe; the raw material main pipe is provided with a raw material mixing pipe, and the raw material mixing pipe comprises a cylindrical sealing shell; sealed shell's top and bottom all are equipped with independent stirring structure, independent stirring structure include sealed cavity, sealed shell's top has the import pipe, and the import pipe is located in the cavity, the raw materials import has on the lateral wall of cavity. The utility model discloses can ensure that the weight ratio of raw materials is in the within range to can accomplish the stirring between each raw materials in the raw materials transfer process, can improve the product output uniformity.

Description

Environmental protection science and technology type glass cleaner production proportion allotment system

Technical Field

The utility model relates to an environmental protection science and technology type glass cleaner production proportion allotment system for preparation glass water, for example glass cleaner such as automobile-used glass water.

Background

The glass cleaning agent is a chemical product for cleaning glass. The glass cleaning agent is widely applied to glass cleaning treatment in various industries of buildings, decorations, automobiles, electronics and optical instruments. At present, part of glass cleaning agents contain a small amount of ammonia water, and the ammonia water is an important chemical raw material and is a reagent commonly used in chemical experiments. Ammonia water (AQUA ammonia) is a colorless transparent liquid with a special strong pungent odor, and because it has a strong exciting effect, it directly contacts skin with specific concentration to make skin red and have burning sensation. Because the environment-friendly scientific and technological type glass cleaning agent does not contain harmful substances, the glass cleaning agent is environment-friendly and nontoxic, and more consumers prefer the environment-friendly scientific and technological type glass cleaning agent. The environment-friendly scientific and technological type glass cleaning agent has higher requirements on the output consistency of products, and various parameters of the products produced by raw materials with different weight ratios have larger differences.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an environmental protection science and technology type glass cleaner production proportion allotment system can ensure that the weight ratio of raw materials is in appointed within range to can accomplish the stirring between each raw materials at the raw materials transfer in-process, can improve the product output uniformity.

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

an environment-friendly scientific and technological type glass cleaning agent production proportion blending system comprises a blending tank and a plurality of raw material tanks, wherein a discharge port of each raw material tank is communicated with a raw material branch pipe, a feed port of each blending tank is communicated with a raw material main pipe, and the raw material branch pipes are communicated with the raw material main pipes; an electronic pressure scale is arranged below the raw material tank, and a pump body and an electric regulating valve are arranged on the raw material branch pipe; the raw material main pipe is provided with a raw material mixing pipe, and the raw material mixing pipe comprises a cylindrical sealing shell; the top and the bottom of the sealed shell are respectively provided with an independent stirring structure, each independent stirring structure comprises a sealed cavity, the top of the sealed shell is provided with an inlet pipe, the inlet pipe is positioned in the cavity, and the side wall of the cavity is provided with a raw material inlet; a flow guide pipe is arranged in the cavity, one end of the flow guide pipe is fixed at the top in the cavity, the inner diameter of the flow guide pipe is larger than the outer diameter of the inlet pipe, and the lower end of the flow guide pipe is sleeved at the upper end of the inlet pipe; the top in the cavity is provided with a first magnetic stirring block and a second magnetic stirring block, and the first magnetic stirring block and the second magnetic stirring block are both positioned between the inner wall of the cavity and the outer wall of the flow guide pipe; the stirring motor is arranged above the cavity, the connecting rod is connected to an output shaft of the stirring motor, the connecting rod is perpendicular to the output shaft of the stirring motor, a first magnetic block is arranged at one end of the connecting rod, a second magnetic block is arranged at the other end of the connecting rod, the first magnetic block is located above the cavity and in a position corresponding to the first magnetic stirring block, and the second magnetic block is located above the cavity and in a position corresponding to the second magnetic stirring block.

In the aforementioned production proportion allocation system for environmental protection science and technology type glass cleaning agents, a spiral guide plate is arranged in the sealing shell, and the outer side of the guide plate is fixed on the inner wall of the sealing shell.

In the aforementioned production proportion allocation system for environmental protection science and technology type glass cleaning agents, a limiting sliding groove is formed in the cavity, and the first magnetic stirring block and the second magnetic stirring block are both located in the limiting sliding groove.

In the aforementioned production proportion allocation system for environmental protection science and technology type glass cleaning agents, driving motor is installed at the top of the blending tank, and stirring structure, stirring structure and driving motor's output shaft transmission connection have in the blending tank.

Compared with the prior art, the utility model discloses the weight ratio that can ensure the raw materials is in the within specified limits to can accomplish the stirring between each raw materials at the raw materials transfer in-process, can improve the product output uniformity. The electronic pressure scale is arranged below the raw material tank, the electronic pressure scale can detect and display the total weight of the raw material tank and the raw materials in the raw material tank in real time, and the weight of the appointed raw materials led into the blending tank can be known according to the initial weight and the real-time weight, so that the weight ratio of the raw materials can be known. Each raw materials gets into at first between getting into the blending tank and gets into the raw materials hybrid tube through the raw materials import, drives first magnetism piece and second magnetism piece and uses agitator motor's output shaft to rotate as the axle center through agitator motor in the cavity, drives first magnetism stirring piece and second magnetism stirring piece and rotates under the effect of magnetic force to play the effect of stirring, make each raw materials carry out abundant stirring. Then the raw materials enter the guide pipe and the inlet pipe, the guide pipe and the inlet pipe are arranged to prevent the raw materials which are not uniformly stirred from entering the sealed shell, and the guide plate in the sealed shell can promote the full mixing among the raw materials. Each raw material enters the mixing tank after passing through the raw material mixing pipe, and can be prevented from entering the mixing tank before being fully mixed under the action of the raw material mixing pipe, and enters downstream equipment from the mixing tank.

Drawings

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

FIG. 2 is a cross-sectional view of one embodiment of a raw material mixing tube.

Reference numerals: 1-electronic pressure scale, 2-raw material tank, 3-pump body, 4-raw material branch pipe, 5-raw material mixing pipe, 6-raw material mother pipe, 7-driving motor, 8-stirring structure, 9-blending tank, 10-electric regulating valve, 11-raw material inlet, 12-first magnetic stirring block, 13-first magnetic block, 14-stirring motor, 15-connecting rod, 16-second magnetic block, 17-second magnetic stirring block, 18-guide pipe, 19-cavity, 20-inlet pipe, 21-sealed shell, 22-guide plate and 23-independent stirring structure.

The present invention will be further described with reference to the accompanying drawings and the detailed description.

Detailed Description

Embodiment 1 of the utility model: an environment-friendly scientific and technological type glass cleaning agent production proportion blending system comprises a blending tank 9 and a plurality of raw material tanks 2, wherein a discharge port of each raw material tank 2 is communicated with a raw material branch pipe 4, a feed port of each blending tank 9 is communicated with a raw material main pipe 6, and the raw material branch pipes 4 are communicated with the raw material main pipes 6; an electronic pressure scale 1 is arranged below the raw material tank 2, and a pump body 3 and an electric regulating valve 10 are arranged on the raw material branch pipe 4; the raw material main pipe 6 is provided with a raw material mixing pipe 5, and the raw material mixing pipe 5 comprises a cylindrical sealing shell 21; the top and the bottom of the sealed shell 21 are provided with independent stirring structures 23, each independent stirring structure 23 comprises a sealed cavity 19, the top of the sealed shell 21 is provided with an inlet pipe 20, the inlet pipe 20 is positioned in the cavity 19, and the side wall of the cavity 19 is provided with a raw material inlet 11; a flow guide pipe 18 is arranged in the cavity 19, one end of the flow guide pipe 18 is fixed at the top in the cavity 19, the inner diameter of the flow guide pipe 18 is larger than the outer diameter of the inlet pipe 20, and the lower end of the flow guide pipe 18 is sleeved at the upper end of the inlet pipe 20; the top in the cavity 19 is provided with a first magnetic stirring block 12 and a second magnetic stirring block 17, and the first magnetic stirring block 12 and the second magnetic stirring block 17 are both positioned between the inner wall of the cavity 19 and the outer wall of the draft tube 18; the stirring motor 14 is arranged above the cavity 19, the connecting rod 15 is connected to an output shaft of the stirring motor 14, the connecting rod 15 is perpendicular to the output shaft of the stirring motor 14, the first magnetic block 13 is arranged at one end of the connecting rod 15, the second magnetic block 16 is arranged at the other end of the connecting rod 15, the first magnetic block 13 is located above the cavity 19 and corresponds to the first magnetic stirring block 12, and the second magnetic block 16 is located above the cavity 19 and corresponds to the second magnetic stirring block 17.

Example 2: an environment-friendly scientific and technological type glass cleaning agent production proportion blending system comprises a blending tank 9 and a plurality of raw material tanks 2, wherein a discharge port of each raw material tank 2 is communicated with a raw material branch pipe 4, a feed port of each blending tank 9 is communicated with a raw material main pipe 6, and the raw material branch pipes 4 are communicated with the raw material main pipes 6; an electronic pressure scale 1 is arranged below the raw material tank 2, and a pump body 3 and an electric regulating valve 10 are arranged on the raw material branch pipe 4; the raw material main pipe 6 is provided with a raw material mixing pipe 5, and the raw material mixing pipe 5 comprises a cylindrical sealing shell 21; the top and the bottom of the sealed shell 21 are provided with independent stirring structures 23, each independent stirring structure 23 comprises a sealed cavity 19, the top of the sealed shell 21 is provided with an inlet pipe 20, the inlet pipe 20 is positioned in the cavity 19, and the side wall of the cavity 19 is provided with a raw material inlet 11; a flow guide pipe 18 is arranged in the cavity 19, one end of the flow guide pipe 18 is fixed at the top in the cavity 19, the inner diameter of the flow guide pipe 18 is larger than the outer diameter of the inlet pipe 20, and the lower end of the flow guide pipe 18 is sleeved at the upper end of the inlet pipe 20; the top in the cavity 19 is provided with a first magnetic stirring block 12 and a second magnetic stirring block 17, and the first magnetic stirring block 12 and the second magnetic stirring block 17 are both positioned between the inner wall of the cavity 19 and the outer wall of the draft tube 18; the stirring motor 14 is arranged above the cavity 19, the connecting rod 15 is connected to an output shaft of the stirring motor 14, the connecting rod 15 is perpendicular to the output shaft of the stirring motor 14, the first magnetic block 13 is arranged at one end of the connecting rod 15, the second magnetic block 16 is arranged at the other end of the connecting rod 15, the first magnetic block 13 is located above the cavity 19 and corresponds to the first magnetic stirring block 12, and the second magnetic block 16 is located above the cavity 19 and corresponds to the second magnetic stirring block 17.

The sealed housing 21 has a spiral flow guide plate 22 therein, and the outer side of the flow guide plate 22 is fixed to the inner wall of the sealed housing 21. A limiting sliding groove is formed in the cavity 19, and the first magnetic stirring block 12 and the second magnetic stirring block 17 are both located in the limiting sliding groove. Driving motor 7 is installed at the top of blending tank 9, has stirring structure 8 in the blending tank 9, and stirring structure 8 and driving motor 7's output shaft transmission are connected.

The utility model discloses a theory of operation of embodiment: the system can be used for producing glass cleaning agents and also can be used for producing products such as solar media, vehicle antifreeze and the like. The system will now be described by taking the production of glass cleaning agents as an example. Raw materials for producing the environment-friendly scientific and technological type glass cleaning agent comprise: water, ethylene glycol, alcohol, etc. are stored in the stock tank 2, and ethylene glycol is a colorless, transparent, slightly sweet and hygroscopic viscous liquid, which is soluble in water in any ratio. When the concentration of the ethylene glycol is different, the freezing point is also different. The raw materials of the environmental-friendly scientific and technological type glass cleaning agent do not contain toxic and harmful substances such as ammonia water, sodium metasilicate pentahydrate and the like, so that the skin can not be burnt, and the glass cleaning agent can not be poisoned by being taken by mistake.

The electronic pressure scale 1 is provided below the material tank 2, and the electronic pressure scale 1 can detect and display the total weight of the material tank 2 and the raw material therein in real time, and can know the weight of the specified raw material introduced into the tempering tank 9 from the initial weight and the real-time weight, thereby knowing the weight ratio of each raw material. Each raw material firstly enters the raw material mixing pipe 5 through the raw material inlet 11 before entering the mixing tank 9, the first magnetic block 13 and the second magnetic block 16 are driven by the stirring motor 7 to rotate by taking the output shaft of the stirring motor 7 as the axis in the cavity, and the first magnetic stirring block 12 and the second magnetic stirring block 17 are driven to rotate under the action of magnetic force, so that the stirring effect is achieved, and each raw material is fully stirred. The raw materials then enter the draft tube 18 and the inlet tube 20, and the draft tube 18 and the inlet tube 20 are arranged to prevent the raw materials that are not uniformly stirred from entering the sealed housing 21, and the baffle plate 22 in the sealed housing 21 also promotes the thorough mixing of the raw materials. The raw materials pass through the raw material mixing pipe 5 and then enter the mixing tank 9, and under the action of the raw material mixing pipe 5, the raw materials can be prevented from entering the mixing tank 9 before being fully mixed and entering downstream equipment from the mixing tank 9.

Claims (4)

1. The production proportion blending system of the environment-friendly scientific and technological type glass cleaning agent is characterized by comprising a blending tank (9) and a plurality of raw material tanks (2), wherein the discharge ports of the raw material tanks (2) are communicated with raw material branch pipes (4), the feed ports of the blending tank (9) are communicated with a raw material main pipe (6), and the raw material branch pipes (4) are communicated with the raw material main pipe (6); an electronic pressure scale (1) is arranged below the raw material tank (2), and a pump body (3) and an electric regulating valve (10) are arranged on the raw material branch pipe (4); the raw material main pipe (6) is provided with a raw material mixing pipe (5), and the raw material mixing pipe (5) comprises a cylindrical sealing shell (21); independent stirring structures (23) are arranged at the top and the bottom of the sealed shell (21), each independent stirring structure (23) comprises a sealed cavity (19), an inlet pipe (20) is arranged at the top of the sealed shell (21), the inlet pipe (20) is located in the cavity (19), and a raw material inlet (11) is formed in the side wall of the cavity (19); a flow guide pipe (18) is arranged in the cavity (19), one end of the flow guide pipe (18) is fixed at the top in the cavity (19), the inner diameter of the flow guide pipe (18) is larger than the outer diameter of the inlet pipe (20), and the lower end of the flow guide pipe (18) is sleeved at the upper end of the inlet pipe (20); a first magnetic stirring block (12) and a second magnetic stirring block (17) are arranged at the top in the cavity (19), and the first magnetic stirring block (12) and the second magnetic stirring block (17) are both positioned between the inner wall of the cavity (19) and the outer wall of the draft tube (18); stirring motor (14) have in the top of cavity (19), be connected with connecting rod (15) on the output shaft of stirring motor (14), the output shaft of connecting rod (15) perpendicular to stirring motor (14), the one end of connecting rod (15) is equipped with first magnetism piece (13), the other end of connecting rod (15) is equipped with second magnetism piece (16), first magnetism piece (13) are located the position that cavity (19) top and first magnetism stirring piece (12) correspond, second magnetism piece (16) are located the position that cavity (19) top and second magnetism stirring piece (17) correspond.

2. The environmental protection technology type glass cleaning agent production proportion blending system of claim 1, wherein the sealing shell (21) is provided with a spiral guide plate (22), and the outer side of the guide plate (22) is fixed on the inner wall of the sealing shell (21).

3. The system for proportioning production of environmentally friendly scientific type glass cleaning agents as claimed in claim 2, wherein a limiting chute is provided in the cavity (19), and the first magnetic stirring block (12) and the second magnetic stirring block (17) are both provided in the limiting chute.

4. The environmental protection science and technology type glass cleaner production proportion allotment system of claim 3, characterized by, driving motor (7) is installed at the top of blending tank (9), has stirring structure (8) in blending tank (9), and stirring structure (8) and driving motor (7)'s output shaft transmission are connected.

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