CN113426347A - Full-automatic environment-friendly mixing mechanism for mixing multiple materials and using method thereof - Google Patents

Abstract

The invention discloses a full-automatic environment-friendly mixing mechanism for mixing multiple materials and a using method thereof, relates to the technical field of glaze preparation, and aims to solve the problems that the existing mixing mechanism cannot automatically add and feed dozens of raw materials, and only a metering pump feeding mechanism can be additionally arranged on a storage tank of each raw material if automatic feeding is realized, so that the energy consumption and the cost are high. The utility model discloses a storage tank, including storage tank group, electronic guide rail, sliding plate, pump sending mechanism, defeated material hose, blending tank is installed to the one end of defeated material hose, the both sides of storage tank group all are provided with two support post, both sides all install electronic guide rail between the support post, both sides install the sliding plate between electronic guide rail's the slider, the last surface mounting of sliding plate has pump sending mechanism, and pump sending mechanism is provided with five, five pump sending mechanism's output is linked together through the collection material pipe, the intermediate position department of collection material pipe installs defeated material pipeline, and installs the manometer on the defeated material pipeline, defeated material hose is installed to the one end of defeated material pipeline, the blending tank is installed to the one end of defeated material hose.

Description

Full-automatic environment-friendly mixing mechanism for mixing multiple materials and using method thereof

Technical Field

The invention relates to the technical field of glaze preparation, in particular to a full-automatic environment-friendly mixing mechanism for mixing multiple materials and a using method thereof.

Background

The glaze slip is a porcelain glaze material, is an organic substance composed of soil, rock, dextrin, glycerol and other substances, and is mostly prepared into the glaze slip for convenient hanging. In the process of preparing the glaze slip, dozens of raw materials are required to be mixed and stirred by a mixing mechanism, so that the glaze is uniformly and fully mixed.

However, the existing mixing mechanism cannot automatically add and feed dozens of raw materials, and if automatic feeding is realized, only a metering pump feeding mechanism can be additionally arranged on a storage tank of each raw material, so that the energy consumption and the cost are high; therefore, a fully-automatic environment-friendly mixing mechanism for mixing multiple materials and a using method thereof are provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a full-automatic environment-friendly mixing mechanism for mixing multiple materials and a using method thereof, and aims to solve the problems that the existing mixing mechanism in the background art cannot automatically add and feed dozens of raw materials, and only a metering pump feeding mechanism can be additionally arranged on a storage tank of each raw material if automatic feeding is realized, so that the energy consumption and the cost are high.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a full-automatic environmental protection compounding mechanism for many materials are mixed, includes storage tank group, storage tank group's both sides all are provided with two support post, both sides all install electronic guide rail between the support post, both sides install the slide plate between electronic guide rail's the slider, the last surface mounting of slide plate has pumping mechanism, and pumping mechanism is provided with five, five pumping mechanism's output is linked together through collection material pipe, the intermediate position department of collection material pipe installs the conveying pipeline, and installs the manometer on the conveying pipeline, conveying pipeline's one end is installed the conveying hose, the blending tank is installed to the one end of conveying hose, row's material pipe is installed to one side of blending tank top, and arranges the one end of material pipe and runs through and extend to the inside of blending tank.

Preferably, storage tank group includes storage tank and climbing mechanism, the storage tank is provided with twenty five, and the every five a set of equidistance of twenty five storage tanks distribute, the material mouth department of storage tank installs electric butterfly valve, install the relief valve on the outer wall of storage tank.

Preferably, the lower surface at every storage tank is installed to climbing mechanism, climbing mechanism's lower surface is provided with the bottom plate, climbing mechanism's upper surface is provided with the jacking board, and the bottom fixed connection of jacking board and storage tank, install supplementary lift post between jacking board and the bottom plate, and supplementary lift post is provided with threely, and is adjacent be provided with the hydraulic pressure post between the supplementary lift post, be provided with hydraulic pressure oil pipe on the outer wall of hydraulic pressure post, outside between jacking board and the bottom plate is provided with dustproof telescope tube.

Preferably, pumping mechanism includes that measuring pump, polytetrafluoroethylene inhale material pipe and discharging pipe, the discharging pipe is installed on the output end of measuring pump, and the one end and the collection material pipe of discharging pipe are linked together, polytetrafluoroethylene inhales the material pipe and installs on the input end of measuring pump, and polytetrafluoroethylene inhales and installs laser range finder on the outer wall of material pipe.

Preferably, the two sides one end of the electric guide rail is fixedly connected with a connecting cross frame, a guide plate is installed in the middle of the upper surface of the connecting cross frame, and the guide plate is connected with a material conveying pipeline in a sliding mode through a linear bearing.

Preferably, the lower surface of blending tank is provided with the base, the lower surface mounting of base has the rubber shock pad, the blending tank is installed to the top of base, the top of blending tank is provided with the material lid, the externally mounted of material lid has the positioning disk, the positioning disk passes through support and base fixed connection, and the support is provided with four, the intermediate position department of positioning disk top installs first asynchronous machine, first asynchronous machine's output runs through the material lid and extends to the inside of blending tank, and installs the shaft coupling, first asynchronous machine's output passes through the shaft coupling and is connected with the (mixing) shaft transmission, the stirring leaf is installed to the one end of (mixing) shaft.

Preferably, the inside of base is provided with the lower part transmission room, the internally mounted of lower part transmission room has the second asynchronous machine, and the output of second asynchronous machine is connected with the transmission of blending tank bottom, install the vortex baffle on the inner wall of blending tank.

Preferably, the periphery of the inner part of the lower transmission chamber is provided with a holding bracket, a plurality of balls are arranged in the holding bracket, and a bearing disc is arranged at the joint of the material cover and the mixing tank.

Preferably, be provided with power row on the outer wall of blending tank, and power row is provided with four, the internally mounted of power row has a plurality of kinetic energy electricity generation balls, be provided with spherical shell on the outer wall of kinetic energy electricity generation ball, the internally mounted of spherical shell has the centrifugal force runner, and the internally mounted of centrifugal force runner has the generator, the centrifugal force runner rotates through pivot and spherical shell and is connected.

Preferably, the use method of the full-automatic environment-friendly mixing mechanism for mixing multiple materials comprises the following steps:

the method comprises the following steps: firstly, classifying raw materials for preparing glaze materials, loading the raw materials into a material storage tank group, and pre-storing the materials before preparation;

step two: after finishing, driving the electric guide rail, and driving the five groups of pumping mechanisms to move to the upper part of the corresponding material storage tank by means of the sliding plate;

step three: after alignment is finished, an electric butterfly valve at the upper end of the storage tank is opened to expose the material taking port, and meanwhile, a jacking mechanism at the bottom of the storage tank drives the material taking port to move upwards by virtue of the telescopic action of a hydraulic column, so that polytetrafluoroethylene material suction pipes of five groups of pumping mechanisms extend into the storage tank, the five groups of materials are conveyed by virtue of a metering pump simultaneously, and the materials are conveyed to a mixing tank along a material conveying pipeline and a hose;

step four: repeating the steps, switching to different material storage tank groups until the feeding work of all required materials is completed, and if a certain material does not need to be added according to different proportions in the process, controlling the metering pump at the corresponding position to stop through a program, stopping the addition of the material and realizing the metering proportion of the corresponding material type;

step five: after the batching finishes, drive first asynchronous machine and the second asynchronous machine on the compounding mechanism simultaneously, it is rotatory with the stirring leaf forward to drive the (mixing) shaft of jar internal portion by first asynchronous machine, rely on the vortex baffle reverse rotation of second asynchronous machine drive jar body and inner wall, offset the swirl that produces among the mixing process, rotatory in-process, the power bar of jar external wall is rotatory in coordination, drive the centrifugal motion of inside kinetic energy electricity generation ball, it is high-speed rotatory to rely on centrifugal force to make the inside centrifugal force runner of spheroid, and lean on built-in generator to produce the electric energy, save to external battery, practice thrift the equipment energy consumption.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention realizes the automatic feeding work of the material mixing mechanism by driving five groups of pumping mechanisms by two groups of electric guide rails, the electric guide rails are driven to drive the five groups of pumping mechanisms to move to the positions above corresponding five material storage tanks during operation, after the alignment is finished, the electric butterfly valves at the upper ends of the material storage tanks are opened to expose a material taking port, meanwhile, the jacking mechanism at the bottom of the material storage tanks drives the five groups of pumping mechanisms to move upwards by virtue of the telescopic action of a hydraulic column, so that polytetrafluoroethylene material absorbing pipes of the five groups of pumping mechanisms extend into the material storage tanks, the five types of materials are simultaneously conveyed by virtue of the metering pumps, the materials are conveyed to the mixing tanks along the material conveying pipelines and the hoses, the operation is repeated in such a way, different material storage tank groups are switched, the feeding work of all required materials can be finished, if certain material does not need to be added according to different ratios in the process, the metering pumps at corresponding positions can be controlled by a program to stop, and the addition of the material is stopped, the realization corresponds the measurement ratio of material kind, and the flexibility is high, has solved current compounding mechanism and can't carry out the interpolation material loading work of dozens of raw materialss by oneself, if want to realize automatic feeding, only can add the measuring pump on the storage tank of every kind of raw materials and send the mechanism, power consumption and the higher problem of cost.

2. Through installing first asynchronous machine and second asynchronous machine on compounding mechanism, drive the (mixing) shaft and the stirring leaf forward rotation of jar internal portion by first asynchronous machine, rely on the vortex baffle reverse rotation of second asynchronous machine drive jar body and inner wall, offset the swirl that produces among the mixing process, realize two-way mixing, improved stirring efficiency by a wide margin for the compounding is even more thoroughly.

3. Set up four power rows through the external wall of jar at compounding mechanism, and all install a plurality of kinetic energy electricity generation balls in every power row, at jar rotatory in-process, the power row of external wall of jar can be rotatory in coordination, drives inside kinetic energy electricity generation ball centrifugal motion, relies on centrifugal force to make the inside centrifugal force runner high-speed rotation of spheroid to lean on built-in generator to produce the electric energy, save equipment energy consumption, play energy-concerving and environment-protective effect.

4. Through the material pipe outer wall installation laser range finder that inhales at pumping mechanism, when getting the material, laser range finder can detect the liquid level height in the storage tank, if the liquid level is less than when the default, it can send signal to terminal, reminds personnel reinforced, guarantees the continuity of compounding production process.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of a portion of the pumping mechanism of the present invention;

FIG. 3 is a schematic view of the storage tank group structure of the invention;

FIG. 4 is a schematic diagram of the internal structure of the jacking mechanism of the present invention;

FIG. 5 is a schematic view of the internal structure of the mixing mechanism of the present invention;

FIG. 6 is a schematic diagram of a kinetic energy generating ball according to the present invention;

in the figure: 1. a storage tank group; 101. a material storage tank; 102. an electric butterfly valve; 103. a discharge valve; 104. a jacking mechanism; 114. a base plate; 124. an auxiliary lifting column; 134. a hydraulic column; 144. a hydraulic oil pipe; 154. a jacking plate; 164. a dustproof telescopic sleeve; 2. supporting the upright post; 3. an electric rail; 4. a slide plate; 5. a pumping mechanism; 501. a metering pump; 502. a polytetrafluoroethylene material suction pipe; 503. a discharge pipe; 504. a laser range finder; 6. a material collecting pipe; 7. a delivery pipeline; 8. connecting the transverse frame; 9. a guide plate; 10. a linear bearing; 11. a delivery hose; 12. a material mixing mechanism; 13. a base; 14. a rubber shock pad; 15. positioning a plate; 16. a support; 17. covering the material; 18. a first asynchronous motor; 19. a discharge pipe; 20. a mixing tank; 21. a power row; 22. a kinetic energy power generating ball; 221. a spherical shell; 222. a centrifugal force runner; 223. a rotating shaft; 23. a turbulence baffle; 24. a stirring shaft; 25. a coupling; 26. stirring blades; 27. a bearing disk; 28. a lower transmission chamber; 29. a second asynchronous motor; 30. a holding bracket; 31. and a ball.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, an embodiment of the present invention is shown: the utility model provides a full-automatic environmental protection compounding mechanism for many materials mix, including storage tank group 1, storage tank group 1's both sides all are provided with two support post 2, all install electronic guide rail 3 between the support post 2 of both sides, install slide plate 4 between electronic guide rail 3's of both sides the slider, the last surface mounting of slide plate 4 has pumping mechanism 5, and pumping mechanism 5 is provided with five, five pumping mechanism 5's output is linked together through collection pipe 6, the intermediate position department of collection pipe 6 installs conveying pipeline 7, and install the manometer on the conveying pipeline 7, conveying pipeline 11 is installed to the one end of conveying pipeline 7, blending tank 20 is installed to the one end of conveying pipeline 11, row's material pipe 19 is installed to one side of blending tank 20 top, and arrange the one end of material pipe 19 and run through and extend to the inside of blending tank 20.

Further, storage tank group 1 includes storage tank 101 and climbing mechanism 104, and storage tank 101 is provided with twenty five, and the every five a set of equidistance of twenty five storage tanks 101 distributes, and electric butterfly valve 102 is installed to the material mouth department of storage tank 101, installs relief valve 103 on the outer wall of storage tank 101, and electric butterfly valve 102 can guarantee the leakproofness of storage tank 101 when daily placing, avoids the dust to get into and influences the material quality.

Further, the jacking mechanism 104 is installed on the lower surface of each storage tank 101, the lower surface of the jacking mechanism 104 is provided with the bottom plate 114, the upper surface of the jacking mechanism 104 is provided with the jacking plate 154, the jacking plate 154 is fixedly connected with the bottom of the storage tank 101, the auxiliary lifting columns 124 are installed between the jacking plate 154 and the bottom plate 114, three auxiliary lifting columns 124 are provided, a hydraulic column 134 is arranged between adjacent auxiliary lifting columns 124, a hydraulic oil pipe 144 is arranged on the outer wall of the hydraulic column 134, a dustproof telescopic sleeve 164 is arranged outside the space between the jacking plate 154 and the bottom plate 114, the jacking mechanism 104 is driven by the hydraulic column 134 as the main power to drive the storage tank 101 to ascend to be in butt joint with the polytetrafluoroethylene suction pipe 502 of the pumping mechanism 5, during jacking, the three sets of auxiliary lifting columns 124 cooperate with the hydraulic column 134 to improve the lifting stability and avoid deviation, and the dustproof telescopic sleeve 164 on the periphery of the jacking mechanism 104 is made of flexible rubber, dust can be prevented from contacting the hydraulic part, and the service life of the hydraulic component is prolonged.

Further, pumping mechanism 5 includes measuring pump 501, polytetrafluoroethylene inhales material pipe 502 and discharging pipe 503, discharging pipe 503 is installed on the output of measuring pump 501, and the one end and the collection pipe 6 of discharging pipe 503 are linked together, polytetrafluoroethylene inhales material pipe 502 and installs on the input of measuring pump 501, and polytetrafluoroethylene inhales and installs laser range finder 504 on the outer wall of material pipe 502, the input of each raw materials can the accurate control of measuring pump 501, adopt polytetrafluoroethylene to inhale material pipe 502 and absorb the material, the characteristic of not being stained with of polytetrafluoroethylene has been utilized, the last material of adhesion when avoiding switching different storage tanks 101, the circumstances that leads to the storage tank 101 impure material takes place.

Further, one end of each electric guide rail 3 on two sides is fixedly connected with a connecting cross frame 8, a guide plate 9 is installed at the middle position of the upper surface of the connecting cross frame 8, the guide plates 9 are in sliding connection with the material conveying pipeline 7 through linear bearings 10, when the electric guide rails 3 run, the material conveying pipeline 7 can be driven to move in a coordinated mode, when the pipeline moves, one end of each electric guide rail can slide with the linear bearings 10 in the guide plates 9, and the stability in the moving process is improved.

Further, the lower surface of blending tank 20 is provided with base 13, the lower surface mounting of base 13 has rubber shock pad 14, blending tank 20 is installed to the top of base 13, the top of blending tank 20 is provided with material lid 17, the externally mounted of material lid 17 has positioning disk 15, positioning disk 15 passes through support 16 and base 13 fixed connection, and support 16 is provided with four, first asynchronous machine 18 is installed to the intermediate position department of positioning disk 15 top, the output of first asynchronous machine 18 runs through material lid 17 and extends to the inside of blending tank 20, and install shaft coupling 25, the output of first asynchronous machine 18 passes through shaft coupling 25 and is connected with the transmission of (mixing) shaft 24, stirring leaf 26 is installed to the one end of (mixing) shaft 24, first asynchronous machine 18 can drive the stirring shaft 24 and the stirring leaf 26 forward rotation of the internal portion of jar, play the effect of mixing stirring to the material.

Further, the inside of base 13 is provided with lower part transmission room 28, and the internally mounted of lower part transmission room 28 has second asynchronous machine 29, and the output of second asynchronous machine 29 is connected with the transmission of blending tank 20 bottom, installs vortex baffle 23 on the inner wall of blending tank 20, and second asynchronous machine 29 can drive the jar body and the vortex baffle 23 reverse rotation of inner wall, offsets the swirl that produces among the mixing process, makes the stirring more even thorough.

Furthermore, a holding bracket 30 is arranged on the periphery inside the lower transmission chamber 28, a plurality of balls 31 are arranged inside the holding bracket 30, a bearing disc 27 is arranged at the joint of the material cover 17 and the mixing tank 20, and the holding bracket 30 can be matched with the tank body to rotate by means of the structure of the balls 31 to effectively support the tank body.

Further, the outer wall of the mixing tank 20 is provided with the power row 21, the number of the power rows 21 is four, the plurality of kinetic energy power generation balls 22 are mounted inside the power row 21, the outer wall of each kinetic energy power generation ball 22 is provided with the spherical shell 221, the centrifugal force rotating wheel 222 is mounted inside the spherical shell 221, the generator is mounted inside the centrifugal force rotating wheel 222, the centrifugal force rotating wheel 222 is rotatably connected with the spherical shell 221 through the rotating shaft 223, when the tank body rotates, the power row 21 on the outer wall of the tank body cooperatively rotates to drive the internal kinetic energy power generation balls 22 to do centrifugal motion, the centrifugal force rotating wheel 222 inside the ball rotates at a high speed by means of centrifugal force, electric energy is generated by the built-in generator and is stored in the external storage battery, and energy consumption of equipment is saved.

Further, a use method of the full-automatic environment-friendly mixing mechanism for mixing multiple materials comprises the following steps:

the method comprises the following steps: firstly, raw materials for preparing glaze are loaded into a storage tank group 1 in a classified manner, and pre-storage work before preparation is carried out;

step two: after finishing, driving the electric guide rail 3, and driving the five groups of pumping mechanisms 5 to move to the upper part of the corresponding material storage tank 101 by means of the sliding plate 4;

step three: after the alignment is finished, the electric butterfly valve 102 at the upper end of the storage tank 101 is opened to expose the material taking port, and meanwhile, the jacking mechanism 104 at the bottom of the storage tank 101 is driven to move upwards by virtue of the telescopic action of the hydraulic column 134, so that the polytetrafluoroethylene material suction pipes 502 of the five groups of pumping mechanisms 5 extend into the storage tank 101, the conveying work of five types of materials is completed by virtue of the metering pump 501 at the same time, and the materials are conveyed to the mixing tank 20 along the material conveying pipeline 7 and the hose;

step four: repeating the steps, switching to different material storage tank groups 1 until the feeding work of all required materials is completed, and if a certain material does not need to be added according to different proportions in the process, controlling the metering pump 501 at the corresponding position to stop through a program, stopping the addition of the material, and realizing the metering proportion of the corresponding material type;

step five: after the material mixing is finished, the first asynchronous motor 18 and the second asynchronous motor 29 on the material mixing mechanism 12 are driven simultaneously, the first asynchronous motor 18 drives the stirring shaft 24 and the stirring blades 26 in the tank body to rotate in the forward direction, the second asynchronous motor 29 drives the turbulence baffle 23 of the tank body and the inner wall to rotate in the reverse direction, vortexes generated in the mixing process are offset, in the rotating process, the power row 21 on the outer wall of the tank body rotates in a coordinated mode to drive the kinetic energy generating balls 22 in the tank body to move centrifugally, the centrifugal force rotating wheel 222 in the ball body rotates at a high speed by means of centrifugal force, electric energy is generated by the built-in generator and stored in the external storage battery, and the energy consumption of equipment is saved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (11)

1. The utility model provides a full-automatic environmental protection compounding mechanism for many materials are mixed, includes storage tank group (1), its characterized in that: two supporting upright posts (2) are arranged on two sides of the storage tank group (1), electric guide rails (3) are arranged between the supporting upright posts (2) on the two sides, a sliding plate (4) is arranged between sliding blocks of the electric guide rails (3) on the two sides, a pumping mechanism (5) is arranged on the upper surface of the sliding plate (4), and five pumping mechanisms (5) are arranged, the output ends of the five pumping mechanisms (5) are communicated through a material collecting pipe (6), a material conveying pipeline (7) is arranged in the middle of the material collecting pipe (6), a pressure gauge is arranged on the material conveying pipeline (7), a material conveying hose (11) is arranged at one end of the material conveying pipeline (7), one end of the delivery hose (11) is provided with a mixing tank (20), one side above the mixing tank (20) is provided with a discharge pipe (19), and one end of the discharge pipe (19) penetrates and extends to the interior of the mixing tank (20).

2. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: storage tank group (1) is including storage tank (101) and climbing mechanism (104), storage tank (101) are provided with twenty five, and twenty five storage tank (101) per five a set of equidistance distribute, the material mouth department of storage tank (101) installs electric butterfly valve (102), install relief valve (103) on the outer wall of storage tank (101).

3. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 2, wherein: the lower surface at every storage tank (101) is installed in climbing mechanism (104), the lower surface of climbing mechanism (104) is provided with bottom plate (114), the upper surface of climbing mechanism (104) is provided with jacking plate (154), and the bottom fixed connection of jacking plate (154) and storage tank (101), install supplementary lift post (124) between jacking plate (154) and bottom plate (114), and supplementary lift post (124) are provided with threely, and are adjacent be provided with hydraulic pressure post (134) between supplementary lift post (124), be provided with hydraulic pressure oil pipe (144) on the outer wall of hydraulic pressure post (134), outside between jacking plate (154) and bottom plate (114) is provided with dustproof flexible cover (164).

4. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: pumping mechanism (5) inhale material pipe (502) and discharging pipe (503) including measuring pump (501), polytetrafluoroethylene, discharging pipe (503) are installed on the output of measuring pump (501), and the one end and the collection pipe (6) of discharging pipe (503) are linked together, polytetrafluoroethylene inhales material pipe (502) and installs on the input of measuring pump (501), and installs laser range finder (504) on the outer wall that polytetrafluoroethylene inhaled material pipe (502).

5. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: both sides the one end of electronic guide rail (3) is through connecting crossbearer (8) fixed connection, connect the intermediate position department of crossbearer (8) upper surface and install deflector (9), deflector (9) are through linear bearing (10) and conveying pipeline (7) sliding connection.

6. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: a base (13) is arranged on the lower surface of the mixing tank (20), a rubber shock pad (14) is arranged on the lower surface of the base (13), a mixing tank (20) is arranged above the base (13), a material cover (17) is arranged above the mixing tank (20), a positioning disc (15) is arranged outside the material cover (17), the positioning disc (15) is fixedly connected with the base (13) through a bracket (16), four brackets (16) are arranged, a first asynchronous motor (18) is arranged in the middle position above the positioning disc (15), the output end of the first asynchronous motor (18) penetrates through the material cover (17) and extends to the interior of the mixing tank (20), and a coupler (25) is installed, the output end of the first asynchronous motor (18) is in transmission connection with a stirring shaft (24) through the coupler (25), and a stirring blade (26) is installed at one end of the stirring shaft (24).

7. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: the inside of base (13) is provided with lower part transmission room (28), the internally mounted of lower part transmission room (28) has second asynchronous machine (29), and the output of second asynchronous machine (29) is connected with blending tank (20) bottom transmission, install vortex baffle (23) on the inner wall of blending tank (20).

8. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: the novel mixing tank is characterized in that a retaining bracket (30) is installed on the periphery inside the lower transmission chamber (28), a plurality of balls (31) are installed inside the retaining bracket (30), and a bearing disc (27) is installed at the joint of the material cover (17) and the mixing tank (20).

9. The full-automatic environment-friendly mixing mechanism for multi-material mixing as claimed in claim 1, wherein: be provided with on the outer wall of blending tank (20) power row (21), and power row (21) is provided with four, the internally mounted of power row (21) has a plurality of kinetic energy electricity generation balls (22), be provided with spherical shell (221) on the outer wall of kinetic energy electricity generation ball (22), the internally mounted of spherical shell (221) has centrifugal force runner (222), and the internally mounted of centrifugal force runner (222) has the generator, centrifugal force runner (222) rotate with spherical shell (221) through pivot (223) and are connected.

10. The use method of the full-automatic environment-friendly mixing mechanism for multi-material mixing according to any one of claims 1 to 9 is characterized by comprising the following steps:

the method comprises the following steps: firstly, raw materials for preparing glaze are loaded into a storage tank group (1) in a classified manner, and pre-storage work before preparation is carried out;

step two: after finishing, driving the electric guide rail (3), and driving the five groups of pumping mechanisms (5) to move to the upper part of the corresponding storage tank (101) by means of the sliding plate (4);

step three: after the alignment is finished, an electric butterfly valve (102) at the upper end of a storage tank (101) is opened to expose a material taking port, meanwhile, a jacking mechanism (104) at the bottom of the storage tank (101) is driven to move upwards by virtue of the telescopic action of a hydraulic column (134), so that polytetrafluoroethylene material suction pipes (502) of five groups of pumping mechanisms (5) extend into the storage tank (101), the conveying work of five types of materials is finished by virtue of a metering pump (501), and the materials are conveyed to a mixing tank (20) along a material conveying pipeline (7) and a hose;

step four: repeating the steps, switching to different storage tank groups (1) until the loading work of all required materials is completed, and if a certain material does not need to be added according to different proportions in the process, stopping the metering pump (501) at the corresponding position through program control, stopping the addition of the material, and realizing the metering proportion of the corresponding material type.

11. Step five: after the batching is finished, a first asynchronous motor (18) and a second asynchronous motor (29) on a material mixing mechanism (12) are driven simultaneously, the first asynchronous motor (18) drives a stirring shaft (24) and a stirring blade (26) in a tank body to rotate in the forward direction, the second asynchronous motor (29) drives a turbulence baffle (23) of the tank body and an inner wall to rotate in the reverse direction, vortexes generated in the mixing process are offset, in the rotating process, a power row (21) on the outer wall of the tank body rotates in a coordinated mode to drive a kinetic energy power generation ball (22) in the tank body to move centrifugally, a centrifugal force rotating wheel (222) in the ball body rotates at a high speed by means of centrifugal force, electric energy is generated by a built-in generator and is stored in an external storage battery, and the energy consumption of equipment is saved.

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