CN111939797A - Solid-liquid mixed raw material stirring device - Google Patents

Solid-liquid mixed raw material stirring device Download PDF

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Publication number
CN111939797A
CN111939797A CN202010814643.5A CN202010814643A CN111939797A CN 111939797 A CN111939797 A CN 111939797A CN 202010814643 A CN202010814643 A CN 202010814643A CN 111939797 A CN111939797 A CN 111939797A
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CN
China
Prior art keywords
control mechanism
main
strength control
gas
liquid separation
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CN202010814643.5A
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Chinese (zh)
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隗阳
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Individual
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Individual
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Priority to CN202010814643.5A priority Critical patent/CN111939797A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/90Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with paddles or arms 
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F23/00Mixing according to the phases to be mixed, e.g. dispersing or emulsifying
    • B01F23/50Mixing liquids with solids
    • B01F23/53Mixing liquids with solids using driven stirrers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F33/00Other mixers; Mixing plants; Combinations of mixers
    • B01F33/40Mixers using gas or liquid agitation, e.g. with air supply tubes
    • B01F33/402Mixers using gas or liquid agitation, e.g. with air supply tubes comprising supplementary stirring elements

Abstract

The invention discloses a solid-liquid mixed raw material stirring device which comprises a main bottom shell and a sealing cover, wherein supporting legs are arranged at the bottom of the main bottom shell. According to the invention, the rotating shaft is used for stirring as a main mixing power source, then a strong negative pressure space is generated in the stirring space, the buoyancy generated by the solid raw materials in the liquid is increased due to the reduction of the internal negative pressure space, so that the solid raw materials in the liquid are easier to float upwards, meanwhile, under the action of negative pressure, outside air is sprayed into the bottom of the liquid through the air nozzle at the bottom, and bubbles are generated at the bottom of the liquid under the action of the air, so that the surrounding solid particles are further floated upwards, and the solid raw materials are easier to enter the stirring part due to the upward floating of the bubbles, thereby improving the working efficiency and the quality of finished products.

Description

Solid-liquid mixed raw material stirring device
Technical Field
The invention relates to the technical field of stirring devices, in particular to a solid-liquid mixed raw material stirring device.
Background
At present, the mixed raw materials agitating unit of current solid-liquid is simple rotation axis stirring, and in actual work, because solid gravity leads to being located the raw materials of stirring space bottom can't carry out quick and effectual mixed stirring, leads to stirring inefficiency and finished product quality low.
Disclosure of Invention
The invention aims to provide a solid-liquid mixed raw material stirring device to solve the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a solid-liquid mixed raw material stirring device comprises a main bottom shell and a sealing cover, wherein supporting legs are installed at the bottom of the main bottom shell, a main connecting shaft is arranged on one side of the top of the main bottom shell, a shaft body of the main connecting shaft is installed on one side of the bottom of the sealing cover through a main bearing and a main sealing ring, a stirring space is arranged inside the other side of the top of the main bottom shell, an annular air inlet hole is formed inside the lower structure of the main bottom shell positioned in the stirring space, a main air inlet hole communicated with the external space is formed in the bottom of the annular air inlet hole, a plurality of through holes communicated with the tops of the annular air inlet holes and the bottom surface of the stirring space are formed inside the main bottom shell, an air nozzle is installed inside each through hole, a main driving motor and an auxiliary driving motor are installed at the bottom of the main bottom shell, a motor main shaft of, the shaft body extends to the center inside the stirring space, the motor spindle is provided with stirring blades on the shaft body positioned inside the stirring space, the sealing cover is provided with a main component mounting groove at the top of the stirring space, an air reserved space is arranged at the top of the main component mounting groove, one side space of the air reserved space is communicated with the top end of the main connecting shaft, an air-liquid separation and separation mechanism is arranged inside the main component mounting groove, a turbine mounting space is arranged inside the main bottom shell positioned on one side of the stirring space, an air inlet port of the turbine mounting space is communicated with the air reserved space through a main first vent hole, an air outlet port of the turbine mounting space is communicated with the external space through a main air outlet hole, an auxiliary component mounting space is arranged under the turbine mounting space, and an auxiliary motor spindle in the auxiliary driving motor penetrates through the main bottom shell, and the axis body tip extends to the inside of vice part installation space, a maximum rotation axis intensity control mechanism is installed to the top of vice motor main shaft, a main first rotation axis of rotation axis intensity control mechanism's a rotation axis tip installation, the axis body of main first rotation axis extends to inside the turbine installation space, and a turbine is installed at the one end that is located inside the turbine installation space to main first rotation axis.
Further, the maximum rotational shaft strength control mechanism includes a main hollow casing for the maximum rotational shaft strength control mechanism, a main hollow section for the maximum rotational shaft strength control mechanism, a rotary column for the maximum rotational shaft strength control mechanism, a semicircular groove structure for the maximum rotational shaft strength control mechanism, a sub hollow section for the maximum rotational shaft strength control mechanism, a movable plate for the maximum rotational shaft strength control mechanism, a coil spring for the maximum rotational shaft strength control mechanism, and a push rod for the maximum rotational shaft strength control mechanism.
Further, the center of one end face of the main hollow casing for the maximum rotational shaft strength control mechanism is fixedly connected to the end of the main shaft of the secondary motor, the center of the inside of the main hollow casing for the maximum rotational shaft strength control mechanism is a main hollow section for the maximum rotational shaft strength control mechanism, the main hollow casing for the maximum rotational shaft strength control mechanism is sleeved with a rotating column for the maximum rotational shaft strength control mechanism inside the main hollow section for the maximum rotational shaft strength control mechanism, the inside of the main hollow casing for the maximum rotational shaft strength control mechanism is a secondary hollow section for the maximum rotational shaft strength control mechanism, and a movable plate for the maximum rotational shaft strength control mechanism is placed on one end face of the main hollow section for the maximum rotational shaft strength control mechanism inside the secondary hollow section for the maximum rotational shaft strength control mechanism, the auxiliary hollow section for the maximum rotation axis strength control mechanism is positioned between one ends of the movable plates for the maximum rotation axis strength control mechanism, a spiral spring for the maximum rotation axis strength control mechanism is fixed between one ends of the movable plates for the maximum rotation axis strength control mechanism, a push rod for the maximum rotation axis strength control mechanism is arranged on one end face of the movable plate for the maximum rotation axis strength control mechanism and is of an integrated structure with the movable plate, the push rod for the maximum rotation axis strength control mechanism penetrates through the main hollow shell for the maximum rotation axis strength control mechanism and is positioned in the main hollow section for the maximum rotation axis strength control mechanism, the push rod for the maximum rotation axis strength control mechanism is of a semicircular structure at one end of the main hollow section for the maximum rotation axis strength control mechanism, and a semicircular groove structure for the maximum rotation axis strength control mechanism, which is used for placing the end part of the push rod for the maximum rotation axis One end of the rotating column for the maximum rotating shaft strength control mechanism is fixed to the end of the main first rotating shaft.
Further, the initial length of the coil spring for maximum rotational shaft strength control means is longer than the length of the sub hollow section for maximum rotational shaft strength control means.
Furthermore, the structural shape of the end part of the push rod for the maximum rotation shaft strength control mechanism is consistent with the structural shape of the semicircular groove structure for the maximum rotation shaft strength control mechanism.
Further, the gas-liquid separation blocking mechanism comprises a plate-shaped shell for the gas-liquid separation blocking mechanism, a first cylindrical vent hole for the gas-liquid separation blocking mechanism, a conical space for the gas-liquid separation blocking mechanism, a second cylindrical vent hole for the gas-liquid separation blocking mechanism, a third cylindrical vent hole for the gas-liquid separation blocking mechanism, a transverse baffle plate for the gas-liquid separation blocking mechanism and an inclined baffle plate for the gas-liquid separation blocking mechanism.
Furthermore, the bottom of the plate-shaped shell for the gas-liquid separation and separation mechanism is provided with a plurality of first cylindrical vent holes for the gas-liquid separation and separation mechanism, the top of each first cylindrical vent hole for the gas-liquid separation and separation mechanism is provided with a conical space for the gas-liquid separation and separation mechanism, the top of the conical space for the gas-liquid separation and separation mechanism is provided with a second cylindrical vent hole for the gas-liquid separation and separation mechanism, the top of the second cylindrical vent hole for the gas-liquid separation and separation mechanism is provided with a third cylindrical vent hole for the gas-liquid separation and separation mechanism communicated with the top of the plate-shaped shell for the gas-liquid separation and separation mechanism, the side inner walls of the first cylindrical vent hole for the gas-liquid separation blocking mechanism and the second cylindrical vent hole for the gas-liquid separation blocking mechanism are respectively provided with a plurality of transverse baffles for the gas-liquid separation blocking mechanism and inclined baffles for the gas-liquid separation blocking mechanism.
Furthermore, every two adjacent transverse baffles for the gas-liquid separation blocking mechanisms are arranged diagonally from top to bottom, two adjacent inclined baffles for the gas-liquid separation blocking mechanisms are arranged diagonally from top to bottom, and the inclined baffles for the gas-liquid separation blocking mechanisms are inclined downwards.
Further, the bottom end of the first cylindrical vent hole for the gas-liquid separation and separation mechanism and the top end of the third cylindrical vent hole for the gas-liquid separation and separation mechanism are respectively communicated with the top of the stirring space and the bottom of the air reserved space.
Compared with the prior art, the invention has the beneficial effects that: according to the invention, the rotating shaft is used for stirring as a main mixing power source, then a strong negative pressure space is generated in the stirring space, the buoyancy generated by the solid raw materials in the liquid is increased due to the reduction of the internal negative pressure space, so that the solid raw materials in the liquid are easier to float upwards, meanwhile, under the action of negative pressure, outside air is sprayed into the bottom of the liquid through the air nozzle at the bottom, and bubbles are generated at the bottom of the liquid under the action of the air, so that the surrounding solid particles are further floated upwards, and the solid raw materials are easier to enter the stirring part due to the upward floating of the bubbles, thereby improving the working efficiency and the quality of finished products.
Drawings
FIG. 1 is a schematic diagram of a full-section structure of a solid-liquid mixed raw material stirring device according to the present invention;
FIG. 2 is a schematic structural diagram of a maximum rotating shaft strength control mechanism in the solid-liquid mixed raw material stirring device according to the present invention;
FIG. 3 is a schematic structural diagram of a gas-liquid separation and isolation mechanism in the solid-liquid mixed raw material stirring device according to the present invention;
in the figure: 1, a main bottom housing, 2, a seal cover, 3, a stirring space, 4, an annular air inlet hole, 5, a main air inlet hole, 6, a shower head, 7, a main part mounting groove, 8, an air reserving space, 9, a main driving motor, 10, a motor spindle, 11, a stirring blade, 12, a main connecting shaft, 13, a main first air vent, 14, a turbine mounting space, 15, a main air outlet hole, 16, an auxiliary part mounting space, 17, an auxiliary driving motor, 18, an auxiliary motor spindle, 19, a maximum rotation shaft strength control mechanism, 191, a main hollow housing for a maximum rotation shaft strength control mechanism, 192, a main hollow section for a maximum rotation shaft strength control mechanism, 193, a rotary column for a maximum rotation shaft strength control mechanism, 194, a semicircular groove structure for a maximum rotation shaft strength control mechanism, 195, an auxiliary hollow section for a maximum rotation shaft strength control mechanism, 196, a movable plate for maximum rotation shaft strength control means 197, a coil spring for maximum rotation shaft strength control means 198, a push rod for maximum rotation shaft strength control means 20, a main first rotation shaft 21, a turbine 22, a gas-liquid separation blocking means 221, a plate-like housing for gas-liquid separation blocking means 222, a first cylindrical vent hole for gas-liquid separation blocking means 223, a tapered space for gas-liquid separation blocking means 224, a second cylindrical vent hole for gas-liquid separation blocking means 225, a third cylindrical vent hole for gas-liquid separation blocking means 226, a lateral baffle for gas-liquid separation blocking means 227, a slope baffle for gas-liquid separation blocking means.
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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, an embodiment of the present invention: the bottom-mounted type air conditioner comprises a main bottom shell 1 and a sealing cover 2, wherein supporting legs are mounted at the bottom of the main bottom shell 1, a main connecting shaft 12 is arranged on one side of the top of the main bottom shell 1, a shaft body of the main connecting shaft 12 is mounted on one side of the bottom of the sealing cover 1 through a main bearing and a main sealing ring, a stirring space 3 is arranged inside the other side of the top of the main bottom shell 1, an annular air inlet hole 4 is formed inside the lower structure of the stirring space 3 of the main bottom shell 1, a main air inlet hole 5 communicated with the external space is formed in the bottom of the annular air inlet hole 4, a plurality of through holes communicated with the top of the annular air inlet hole 4 and the bottom surface of the stirring space 3 are formed inside the main bottom shell 1, an air nozzle 6 is mounted inside the through holes, a main driving motor 9 and an auxiliary driving motor 17 are mounted at the bottom of the main bottom, and the shaft body extends to the center inside the stirring space 3, the motor spindle 10 is provided with a stirring blade 11 on the shaft body inside the stirring space 3, the sealing cover 2 is provided with a main component mounting groove 7 on the top of the stirring space 3, an air reserving space 8 is provided on the top of the main component mounting groove 7, a space on one side of the air reserving space 8 is communicated with the top end of the main connecting shaft 12, an air-liquid separation blocking mechanism 22 is provided inside the main component mounting groove 7, the main bottom casing 1 is provided with a turbine mounting space 14 inside one side of the stirring space 3, an air inlet port of the turbine mounting space 14 is communicated with the air reserving space 8 through a main first vent hole 13, an air outlet port of the turbine mounting space 14 is communicated with the outside space through a main air outlet hole 15, and an auxiliary component mounting space 16 is provided under the turbine mounting space 14, an auxiliary motor spindle 18 of the auxiliary driving motor 17 penetrates through the main bottom housing 1, and an end portion of the spindle body extends into the auxiliary component mounting space 16, a maximum rotation shaft strength control mechanism 19 is mounted at a top end of the auxiliary motor spindle 18, a main first rotation shaft 20 is mounted at a rotation shaft end portion of the maximum rotation shaft strength control mechanism 19, a spindle body of the main first rotation shaft 20 extends into the turbine mounting space 14, and a turbine 21 is mounted at one end of the main first rotation shaft 20 located inside the turbine mounting space 14.
Referring to fig. 2, the maximum rotation axis strength control mechanism 19 includes a main hollow housing 191 for the maximum rotation axis strength control mechanism, a main hollow section 192 for the maximum rotation axis strength control mechanism, a rotation column 193 for the maximum rotation axis strength control mechanism, a semicircular groove structure 194 for the maximum rotation axis strength control mechanism, a sub hollow section 195 for the maximum rotation axis strength control mechanism, a movable plate 196 for the maximum rotation axis strength control mechanism, a coil spring 197 for the maximum rotation axis strength control mechanism, and a push rod 198 for the maximum rotation axis strength control mechanism; a center of one end surface of the main hollow housing 191 for the maximum rotational shaft strength control mechanism is fixedly connected to an end portion of the sub motor spindle 18, the center of the inside of the main hollow housing 191 for the maximum rotational shaft strength control mechanism is the main hollow section 192 for the maximum rotational shaft strength control mechanism, the main hollow housing 191 for the maximum rotational shaft strength control mechanism is fitted with a rotational column 193 for the maximum rotational shaft strength control mechanism inside the main hollow section 192 for the maximum rotational shaft strength control mechanism, the inside of the main hollow housing 191 for the maximum rotational shaft strength control mechanism is the sub hollow section 195 for the maximum rotational shaft strength control mechanism, and a movable plate 196 for the maximum rotational shaft strength control mechanism is placed on one end surface of the main hollow section 192 for the maximum rotational shaft strength control mechanism inside the sub hollow section 195 for the maximum rotational shaft strength control mechanism, a coil spring 197 for the maximum rotational shaft strength control mechanism is fixed between one end of the movable plate 196 for the maximum rotational shaft strength control mechanism, a push rod 198 for the maximum rotational shaft strength control mechanism is provided on one end surface of the movable plate 196 for the maximum rotational shaft strength control mechanism, the push rod 198 for the maximum rotational shaft strength control mechanism is integrally formed with the movable plate 196, the push rod 198 for the maximum rotational shaft strength control mechanism penetrates the main hollow housing 191 for the maximum rotational shaft strength control mechanism and is positioned inside the main hollow section 192 for the maximum rotational shaft strength control mechanism, the push rod 198 for the maximum rotational shaft strength control mechanism is semicircular at one end positioned in the main hollow section 192 for the maximum rotational shaft strength control mechanism, and the side surface of the rotary column 193 for the maximum rotational shaft strength control mechanism is provided with a maximum rotational shaft strength control mechanism push rod 198 end portion for placing the maximum rotational shaft strength control mechanism A control mechanism semicircular groove structure 194, one end of the maximum rotation shaft strength control mechanism rotary column 193 being fixed to the end of the main first rotation shaft 20; the initial length of the maximum rotating shaft strength control mechanism coil spring 197 is longer than the length of the maximum rotating shaft strength control mechanism sub hollow section 195; the configuration of the end of the push rod 198 for the maximum rotational shaft strength control mechanism is identical to the configuration of the semicircular groove 194 for the maximum rotational shaft strength control mechanism.
Referring to fig. 3, the gas-liquid separation blocking mechanism 22 includes a plate-shaped casing 221 for the gas-liquid separation blocking mechanism, a first cylindrical vent hole 222 for the gas-liquid separation blocking mechanism, a tapered space 223 for the gas-liquid separation blocking mechanism, a second cylindrical vent hole 224 for the gas-liquid separation blocking mechanism, a third cylindrical vent hole 225 for the gas-liquid separation blocking mechanism, a transverse baffle 226 for the gas-liquid separation blocking mechanism, and a slope baffle 227 for the gas-liquid separation blocking mechanism; the bottom of the plate-shaped shell 221 for the gas-liquid separation blocking mechanism is provided with a plurality of first cylindrical vent holes 222 for the gas-liquid separation blocking mechanism, the top of each first cylindrical vent hole 222 for the gas-liquid separation blocking mechanism is provided with a conical space 223 for the gas-liquid separation blocking mechanism, the top of the conical space 223 for the gas-liquid separation and separation mechanism is provided with a second cylindrical vent hole 224 for the gas-liquid separation and separation mechanism, a second cylindrical vent 224 for the gas-liquid separation/separation mechanism, a third cylindrical vent 225 for the gas-liquid separation/separation mechanism provided on the top of the second cylindrical vent 224 for the gas-liquid separation/separation mechanism and communicating with the top of the plate-like casing 221 for the gas-liquid separation/separation mechanism, a plurality of transverse baffles 226 for the gas-liquid separation blocking mechanism and inclined baffles 227 for the gas-liquid separation blocking mechanism are respectively arranged on the inner side wall of the side surface of the first cylindrical vent hole 222 for the gas-liquid separation blocking mechanism and the second cylindrical vent hole 224 for the gas-liquid separation blocking mechanism; every two adjacent gas-liquid separation blocking mechanisms are arranged in a manner of diagonal up and down by a transverse baffle 226, two adjacent gas-liquid separation blocking mechanisms are arranged in a manner of diagonal up and down by a bevel baffle 227, and the structures of the bevel baffles 227 for the gas-liquid separation blocking mechanisms are inclined downwards; the bottom end of the first cylindrical vent hole 222 for the gas-liquid separation and isolation mechanism and the top end of the third cylindrical vent hole 225 for the gas-liquid separation and isolation mechanism are respectively communicated with the top of the stirring space 3 and the bottom of the air reserved space 8.
The specific use mode is as follows: in the operation of the invention, the sealing cover 2 is rotated to open, solid and liquid raw materials to be mixed are poured into the stirring space 3, the main driving motor 9 and the auxiliary driving motor 17 are opened, the stirring blade 11 is rapidly rotated under the driving action of the main driving motor 9 to perform the rotating shaft type mixing and stirring action on the raw materials, at the same time, the turbine 21 is rapidly rotated under the driving and rotating action, the air in the stirring space 3 is pumped out, at the moment, negative pressure is formed in the stirring space 3, the buoyancy generated by the solid raw materials in the liquid is increased due to the reduction of the internal negative pressure space, so that the solid raw materials in the liquid are more easily floated upwards, meanwhile, under the action of the negative pressure, the outside air is sprayed into the bottom of the liquid through the air nozzle 6 at the bottom, under the action of the air, bubbles are generated at the bottom of the liquid, and the bubbles further float the surrounding solid particles upwards, the solid raw material is more easily introduced into the stirring portion due to the upward floating thereof, and the rotation strength of the maximum rotation shaft strength control mechanism 19 should be made smaller than the maximum rotation strength of the sub-driving motor 17 to prevent the occurrence of motor damage due to the overload of the negative pressure.
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 (9)

1. The utility model provides a raw materials agitating unit is mixed to solid-liquid, includes main bottom casing (1) and sealed lid (2), its characterized in that: the bottom of the main bottom shell (1) is provided with supporting legs, one side of the top of the main bottom shell (1) is provided with a main connecting shaft (12), a shaft body of the main connecting shaft (12) is arranged on one side of the bottom of the sealing cover (1) through a main bearing and a main sealing ring, a stirring space (3) is arranged inside the other side of the top of the main bottom shell (1), the main bottom shell (1) is internally provided with an annular air inlet hole (4) in a structure below the stirring space (3), the bottom of the annular air inlet hole (4) is provided with a main air inlet hole (5) communicated with the external space, the main bottom shell (1) is internally provided with a plurality of through holes communicated with the tops of the annular air inlet holes (4) and the bottom surface of the stirring space (3), an air jet head (6) is arranged inside the through holes, and a main driving motor (9) and an auxiliary driving motor (17) are, a motor spindle (10) of the main driving motor (9) penetrates through the bottom structure of the main bottom shell (1), the shaft body extends to the center inside the stirring space (3), the motor spindle (10) is arranged on the shaft body inside the stirring space (3) and is provided with a stirring blade (11), the sealing cover (2) is arranged on the top of the stirring space (3) and is provided with a main component mounting groove (7), the top of the main component mounting groove (7) is provided with an air reserved space (8), one side space of the air reserved space (8) is communicated with the top end of the main connecting shaft (12), an air-liquid separation and separation mechanism (22) is arranged inside the main component mounting groove (7), and a turbine mounting space (14) is arranged inside the main bottom shell (1) on one side of the stirring space (3), the air inlet port of the turbine installation space (14) is communicated with the air reserved space (8) through a main first vent hole (13), the exhaust port of the turbine installation space (14) is communicated with the external space through a main exhaust hole (15), an auxiliary component mounting space (16) is arranged right below the turbine mounting space (14), an auxiliary motor main shaft (18) in the auxiliary driving motor (17) penetrates through the main bottom shell (1), the end part of the shaft body extends into the auxiliary component mounting space (16), the top end of the auxiliary motor main shaft (18) is provided with a maximum rotating shaft strength control mechanism (19), a main first rotating shaft (20) is arranged at one rotating shaft end part of the maximum rotating shaft strength control mechanism (19), the shaft body of the main first rotary shaft (20) extends into the turbine installation space (14), and the main first rotating shaft (20) is provided with a turbine (21) at an end located inside the turbine mounting space (14).
2. The solid-liquid mixed raw material stirring device according to claim 1, characterized in that: the maximum rotation shaft strength control mechanism (19) comprises a main hollow shell (191) for the maximum rotation shaft strength control mechanism, a main hollow section (192) for the maximum rotation shaft strength control mechanism, a rotating column (193) for the maximum rotation shaft strength control mechanism, a semicircular groove structure (194) for the maximum rotation shaft strength control mechanism, an auxiliary hollow section (195) for the maximum rotation shaft strength control mechanism, a movable plate (196) for the maximum rotation shaft strength control mechanism, a coil spring (197) for the maximum rotation shaft strength control mechanism and a push rod (198) for the maximum rotation shaft strength control mechanism.
3. The solid-liquid mixed raw material stirring device according to claim 2, characterized in that: the center of one end face of a main hollow shell (191) for the maximum rotating shaft strength control mechanism is fixedly connected with the end part of a main shaft (18) of an auxiliary motor, the center of the inside of the main hollow shell (191) for the maximum rotating shaft strength control mechanism is a main hollow section (192) for the maximum rotating shaft strength control mechanism, the main hollow shell (191) for the maximum rotating shaft strength control mechanism is sleeved with a rotating column (193) for the maximum rotating shaft strength control mechanism in the main hollow section (192) for the maximum rotating shaft strength control mechanism, the inside of the main hollow shell (191) for the maximum rotating shaft strength control mechanism is an auxiliary hollow section (195) for the maximum rotating shaft strength control mechanism, and a movable plate (196) for the maximum rotating shaft strength control mechanism is arranged in one end face of the main hollow section (192) for the maximum rotating shaft strength control mechanism in the auxiliary hollow section (195) for the maximum rotating shaft strength control mechanism ) A coil spring (197) for the maximum rotation axis strength control mechanism is fixed between one ends of the movable plates (196) for the maximum rotation axis strength control mechanism in the auxiliary hollow section (195) for the maximum rotation axis strength control mechanism, a push rod (198) for the maximum rotation axis strength control mechanism of an integrated structure with the movable plates (196) for the maximum rotation axis strength control mechanism is arranged on one end surface of the movable plates (196), the push rod (198) for the maximum rotation axis strength control mechanism penetrates through the main hollow shell (191) for the maximum rotation axis strength control mechanism and is arranged in the main hollow section (192) for the maximum rotation axis strength control mechanism, the push rod (198) for the maximum rotation axis strength control mechanism is of a semicircular structure at one end of the main hollow section (192) for the maximum rotation axis strength control mechanism, and a rotary column (193) for the maximum rotation axis strength control mechanism is arranged on the side surface of the rotary column (193) for placing the maximum And a semicircular groove structure (194) for maximum rotation shaft strength control mechanism at the end of a push rod (198) for large rotation shaft strength control mechanism, wherein one end of a rotation column (193) for maximum rotation shaft strength control mechanism is fixed with the end of the main first rotation shaft (20).
4. A solid-liquid mixed raw material stirring apparatus according to claim 3, characterized in that: the initial length of the coil spring (197) for the maximum rotational shaft strength control mechanism is longer than the length of the sub hollow section (195) for the maximum rotational shaft strength control mechanism.
5. A solid-liquid mixed raw material stirring apparatus according to claim 3, characterized in that: the structural shape of the end of the push rod (198) for the maximum rotation shaft strength control mechanism is consistent with the structural shape of the semicircular groove structure (194) for the maximum rotation shaft strength control mechanism.
6. The solid-liquid mixed raw material stirring device according to claim 1, characterized in that: the gas-liquid separation blocking mechanism (22) comprises a plate-shaped shell (221) for the gas-liquid separation blocking mechanism, a first cylindrical vent hole (222) for the gas-liquid separation blocking mechanism, a conical space (223) for the gas-liquid separation blocking mechanism, a second cylindrical vent hole (224) for the gas-liquid separation blocking mechanism, a third cylindrical vent hole (225) for the gas-liquid separation blocking mechanism, a transverse baffle (226) for the gas-liquid separation blocking mechanism and an inclined baffle (227) for the gas-liquid separation blocking mechanism.
7. The solid-liquid mixed raw material stirring device according to claim 6, characterized in that: the bottom of the plate-shaped shell (221) for the gas-liquid separation blocking mechanism is provided with a plurality of first cylindrical vent holes (222) for the gas-liquid separation blocking mechanism, the top of each first cylindrical vent hole (222) for the gas-liquid separation blocking mechanism is provided with a conical space (223) for the gas-liquid separation blocking mechanism, the top of each conical space (223) for the gas-liquid separation blocking mechanism is provided with a second cylindrical vent hole (224) for the gas-liquid separation blocking mechanism, the top of each second cylindrical vent hole (224) for the gas-liquid separation blocking mechanism is provided with a third cylindrical vent hole (225) for the gas-liquid separation blocking mechanism, the third cylindrical vent hole is communicated with the top of the plate-shaped shell (221) for the gas-liquid separation blocking mechanism, and the inner side walls of the first cylindrical vent holes (222) for the gas-liquid separation blocking mechanism and the second cylindrical vent holes (224) for the gas-liquid separation blocking mechanism are respectively provided (226) And a slope baffle (227) for the gas-liquid separation blocking mechanism.
8. The solid-liquid mixed raw material stirring device according to claim 7, characterized in that: every two adjacent gas-liquid separation blocking mechanisms are arranged in a vertical diagonal mode through a transverse baffle (226), every two adjacent gas-liquid separation blocking mechanisms are arranged in a vertical diagonal mode through a bevel baffle (227), and the structures of the bevel baffles (227) for the gas-liquid separation blocking mechanisms are inclined downwards.
9. The solid-liquid mixed raw material stirring device according to claim 7, characterized in that: the bottom end of the first cylindrical vent hole (222) for the gas-liquid separation and isolation mechanism and the top end of the third cylindrical vent hole (225) for the gas-liquid separation and isolation mechanism are respectively communicated with the top of the stirring space (3) and the bottom of the air reserved space (8).
CN202010814643.5A 2020-08-14 2020-08-14 Solid-liquid mixed raw material stirring device Pending CN111939797A (en)

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Application Number Priority Date Filing Date Title
CN202010814643.5A CN111939797A (en) 2020-08-14 2020-08-14 Solid-liquid mixed raw material stirring device

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Application Number Priority Date Filing Date Title
CN202010814643.5A CN111939797A (en) 2020-08-14 2020-08-14 Solid-liquid mixed raw material stirring device

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CN111939797A true CN111939797A (en) 2020-11-17

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Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10310327A1 (en) * 2003-03-06 2004-09-16 EKATO Rühr- und Mischtechnik GmbH Vertical mixing vessel with rotary agitator, for solids, high viscosity materials, powders, bulk materials and granules, includes stirrer blades curved in plane transverse to drive shaft
CN104097875A (en) * 2014-06-20 2014-10-15 南京晨光森田环保科技有限公司 Splash prevention recovery device used for vehicle-mounted tank body
CN205570234U (en) * 2016-03-15 2016-09-14 崇州市隆兴孔学梅家庭农场 A agitating unit for pig feed mixing
CN206082225U (en) * 2016-08-31 2017-04-12 北京迦南莱米特科技有限公司 Material mixing equipment
CN207187726U (en) * 2017-06-29 2018-04-06 江苏欣舟化工科技有限公司 A kind of chemical industry solid-liquid material hybrid reactor
CN207270777U (en) * 2017-09-26 2018-04-27 江苏新美星包装机械股份有限公司 A kind of degassing tank
CN208642249U (en) * 2018-04-10 2019-03-26 安徽华塑股份有限公司 A kind of VCM drying device
CN209501494U (en) * 2019-02-20 2019-10-18 新余市力科达科技有限公司 A kind of solid-liquid mixing disperser
CN111111595A (en) * 2020-01-09 2020-05-08 泉州市嘉鑫信息服务有限公司 Differential stirring chemical reaction kettle
CN111282481A (en) * 2020-02-27 2020-06-16 张兆菊 Solid-liquid raw materials uses multi-functional agitating unit of integral type

Patent Citations (10)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10310327A1 (en) * 2003-03-06 2004-09-16 EKATO Rühr- und Mischtechnik GmbH Vertical mixing vessel with rotary agitator, for solids, high viscosity materials, powders, bulk materials and granules, includes stirrer blades curved in plane transverse to drive shaft
CN104097875A (en) * 2014-06-20 2014-10-15 南京晨光森田环保科技有限公司 Splash prevention recovery device used for vehicle-mounted tank body
CN205570234U (en) * 2016-03-15 2016-09-14 崇州市隆兴孔学梅家庭农场 A agitating unit for pig feed mixing
CN206082225U (en) * 2016-08-31 2017-04-12 北京迦南莱米特科技有限公司 Material mixing equipment
CN207187726U (en) * 2017-06-29 2018-04-06 江苏欣舟化工科技有限公司 A kind of chemical industry solid-liquid material hybrid reactor
CN207270777U (en) * 2017-09-26 2018-04-27 江苏新美星包装机械股份有限公司 A kind of degassing tank
CN208642249U (en) * 2018-04-10 2019-03-26 安徽华塑股份有限公司 A kind of VCM drying device
CN209501494U (en) * 2019-02-20 2019-10-18 新余市力科达科技有限公司 A kind of solid-liquid mixing disperser
CN111111595A (en) * 2020-01-09 2020-05-08 泉州市嘉鑫信息服务有限公司 Differential stirring chemical reaction kettle
CN111282481A (en) * 2020-02-27 2020-06-16 张兆菊 Solid-liquid raw materials uses multi-functional agitating unit of integral type

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
达道安: "《真空设计手册》", 31 July 2004, 国防工业出版社 *

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