CN110682442A - Composite material coupling vibration mixing device for casting - Google Patents
Composite material coupling vibration mixing device for casting Download PDFInfo
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- CN110682442A CN110682442A CN201910937269.5A CN201910937269A CN110682442A CN 110682442 A CN110682442 A CN 110682442A CN 201910937269 A CN201910937269 A CN 201910937269A CN 110682442 A CN110682442 A CN 110682442A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28C—PREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
- B28C5/00—Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions
- B28C5/48—Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions wherein the mixing is effected by vibrations
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Abstract
The invention relates to the field of casting mixing and stirring, in particular to a composite material coupling vibration mixing device for casting, which comprises a mixing barrel seat, two vibration connecting driving pieces, a mixing driver, a mixing vibration fixing seat and a multilayer mixing vibrator, wherein the two vibration connecting driving pieces are longitudinally and slidably connected to the mixing barrel seat, the mixing driver is fixedly connected to the left end of the mixing barrel seat, the mixing driver is rotatably connected into the mixing barrel seat, the mixing driver is in transmission connection with the two vibration connecting driving pieces, and the upper ends of the two vibration connecting driving pieces are fixedly connected with the multilayer mixing vibrator; the invention has the beneficial effects that the raw materials are greatly shaken through multilayer shaking, so that the shaking of the casting raw materials with high viscosity or mass is promoted, the full contact and mixing of the raw materials and the auxiliary agent are promoted, and the filtration of impurities of the raw materials is realized; and meanwhile, multilayer mixing and stirring are carried out, so that more efficient frequent contact between the difficult-to-dissolve raw materials and the auxiliary agent is promoted.
Description
Technical Field
The invention relates to the field of casting mixing stirring, in particular to a composite material coupling vibration mixing device for casting.
Background
The patent number is CN201510532722.6 discloses super high tenacity cement based composite material mixer and application method thereof, and the mixer includes the support, sets up the both ends at the support upper level and is equipped with the open-ended agitator, and the agitator is rotatory through a actuating mechanism drive, is equipped with a plurality of places lifting blade at the agitator inner wall slope, and the level is equipped with a center pin in the agitator, is equipped with many stirring teeth on the center pin outer wall. The beneficial effects of the invention are: the stirring barrel can be used for stirring common concrete, stirring of the ultra-high toughness cement-based composite material is realized through the arrangement of the stirring teeth and the material raising plates on the central shaft, fibers and the common concrete can be uniformly stirred, and meanwhile, compared with the stirring of other ultra-high toughness concrete, the stirring efficiency is high; the stirring teeth are arranged on the stirring teeth in a plum blossom shape, so that the fibers can be uniformly mixed in the mortar matrix, and the stirring efficiency of the mortar matrix is improved. But the equipment can not shake, mix and filter the raw materials by multi-layer shaking.
Disclosure of Invention
The invention aims to provide a composite material coupling vibration mixing device for casting, which has the advantages that the raw materials are greatly shaken through multilayer shaking, so that the casting raw materials with high viscosity or high mass are promoted to shake, the raw materials and an auxiliary agent are promoted to be fully contacted and mixed, and the raw material impurities are filtered; and meanwhile, multilayer mixing and stirring are carried out, so that more efficient frequent contact between the difficult-to-dissolve raw materials and the auxiliary agent is promoted.
The purpose of the invention is realized by the following technical scheme:
the invention aims to provide a composite material coupling vibration mixing device for casting, which comprises a mixing barrel seat, two vibration connecting driving parts, a mixing driver, a mixing vibration fixing seat and a multilayer mixing vibrator, wherein the two vibration connecting driving parts are longitudinally and slidably connected to the mixing barrel seat, the mixing driver is fixedly connected to the left end of the mixing barrel seat, the mixing driver is rotatably connected into the mixing barrel seat, the mixing driver is in transmission connection with the two vibration connecting driving parts, the upper ends of the two vibration connecting driving parts are fixedly connected with the multilayer mixing vibrator, the multilayer mixing vibrator is longitudinally and slidably connected into the mixing vibration fixing seat, and the mixing vibration fixing seat is fixedly connected to the upper end of the mixing barrel seat.
As a further optimization of the invention, the mixing barrel seat comprises a barrel body, an upper end cover, two fixed nose seats, a lower end cover, a discharge recovery pipe, two extension connecting plates, a motor fixing seat, two fixed sliding seats and two lower T-shaped sliding chutes, wherein the upper end and the lower end of the barrel body are respectively and fixedly connected with the upper end cover and the lower end cover, the two fixed nose seats are uniformly and fixedly connected to the upper side of the outer wall of the barrel body, the discharge recovery pipe is fixedly connected and communicated with the center of the lower end cover, the two extension connecting plates are uniformly and fixedly connected to the lower side of the barrel body, the motor fixing seat is fixedly connected to the extension connecting plate on the left side, the two fixed sliding seats are respectively and fixedly connected to.
As a further optimization of the invention, the two vibration connection driving parts are arranged, each vibration connection driving part comprises a longitudinal sliding rod, a vibration connecting rod and a plurality of conical veneering driving seats, the longitudinal sliding rod is slidably connected in the lower T-shaped sliding groove through the T-shaped sliding groove, the vibration connecting rod is fixedly connected at the upper end of the longitudinal sliding rod, and the plurality of conical veneering driving seats are uniformly and fixedly connected on the longitudinal sliding rod.
As a further optimization of the invention, the hybrid driver comprises a servo motor, a central rotating shaft, three semicircular fan-shaped stirrers, a plurality of fan-shaped stirring through grooves, two driving belt pulleys, two eccentric connecting shafts, eccentric connecting rods, a driving compression short shaft, two driven belt pulleys, two driven short shafts, two bevel gears, a conical gear ring and a bottom cross stirring rod, wherein the servo motor is fixedly connected to a motor fixing seat, the left end of the central rotating shaft is connected with the rotating shaft of the servo motor through a coupling, the central rotating shaft is rotatably connected to a barrel body through a bearing seat, the three semicircular fan-shaped stirrers are uniformly and fixedly connected to the central rotating shaft, the semicircular fan-shaped stirrers are uniformly provided with a plurality of penetrating fan-shaped stirring through grooves, the two driving belt pulleys are respectively and fixedly connected to the left end and the right end of the central rotating shaft, the both ends of eccentric connecting axle are the eccentric connecting rod of fixed connection respectively, the equal fixed connection drive compression minor axis in the inner of eccentric connecting rod, drive compression minor axis and a plurality of toper wainscot drive seat are laminated mutually, two drive belt pulleys connect two driven pulley respectively through belt transmission, two driven pulley fixed connection respectively is on two driven minor axes, two driven minor axes rotate the downside of connecting at the barrel both ends through the bearing frame respectively, the equal fixed connection bevel gear in the inner of two driven minor axes, two bevel gear's lower extreme all meshes with the toper ring gear mutually, the downside at the barrel inner wall is connected in the rotation of slider to the outer wall of toper ring gear, bottom cross puddler fixed connection is at the inner wall of toper ring gear.
As a further optimization of the invention, the mixed vibration fixing seat comprises a lower bottom plate, an upper top plate, two connecting and stabilizing sliding seats, two inner T-shaped sliding grooves, a top shaking ring, a fixing sealing cover, a main material adding pipe, an auxiliary agent adding pipe and a bottom shaking ring, wherein the lower bottom plate is fixedly connected and communicated with the upper end of an upper end cover, two ends of the lower bottom plate are connected with the upper top plate through the two connecting and stabilizing sliding seats, the two inner T-shaped sliding grooves are respectively arranged at the middle ends of the inner ends of the two connecting and stabilizing sliding seats, the top shaking ring is fixedly connected in the upper top plate, the fixing sealing cover is fixedly connected in the upper top plate, the main material adding pipe and the auxiliary agent adding pipe are fixedly connected and communicated in the fixing sealing cover, and the bottom shaking ring.
As a further optimization of the present invention, the multi-layer mixing vibrator comprises a central fixed circular plate, a lower rocking circular plate, an upper rocking circular ring, an upper fixed circular plate, a lower fixed circular plate and three rocking filter plates, wherein the upper and lower ends of the central fixed circular plate are respectively slidably connected in the upper rocking circular ring and the lower rocking circular ring, the upper end of the upper rocking circular ring is fixedly connected with the upper fixed circular plate, the upper fixed circular plate is slidably connected in the top rocking circular ring, the lower end of the lower rocking circular ring is fixedly connected with the lower fixed circular plate, the lower end of the lower fixed circular plate is slidably connected in the bottom rocking circular ring, and the three rocking filter plates are respectively and fixedly connected in the central fixed circular plate, the upper fixed circular plate and the.
As a further optimization of the invention, the four central sliding tables, the central connecting ring, the two T-shaped sliding blocks, the four fixed sliding rods, the four upper sliding tables, the four lower sliding tables, the four first springs, the four second springs, the four third springs and the four fourth springs are arranged on the outer wall of the central fixed circular plate, the four central sliding tables are uniformly and fixedly connected with the outer wall of the central connecting ring, the two T-shaped sliding blocks are respectively and slidably connected with the two inner T-shaped sliding grooves, the four fixed sliding rods are uniformly and fixedly connected between the lower bottom plate and the upper top plate, the four upper sliding tables are uniformly and fixedly connected with the outer wall of the upper fixed circular plate, the four lower sliding tables are uniformly and fixedly connected with the outer wall of the lower fixed circular plate, and the central sliding tables, the upper sliding tables and the, first spring, second spring third spring and fourth spring all cup joint on fixed slide bar from last to down, and first spring setting is between last roof and last sliding stand, and the second spring setting is between last sliding stand and central sliding stand, and the third spring setting is between central sliding stand and lower sliding stand, and the fourth spring setting is between lower sliding stand and lower plate.
As a further optimization of the invention, three semicircular fan-shaped stirrers are arranged, and the outer walls of the three semicircular fan-shaped stirrers are all attached to the inner wall of the cylinder body.
As a further optimization of the invention, the upper end surface of the lower end cover is inclined outwards, inwards and downwards.
As a further optimization of the invention, the number of the shaking filter plates is three, and the three shaking filter plates are all provided with a plurality of strip through grooves in a penetrating manner.
By adopting the technical scheme provided by the invention, compared with the prior art, the mixing cylinder seat, the two vibration connection driving parts, the mixing driver, the mixing vibration fixing seat and the multilayer mixing vibrator have the following beneficial effects that the raw materials can be greatly shaken through multilayer shaking, so that the casting raw materials with high viscosity or high quality are promoted to shake, the raw materials and the auxiliary agents are promoted to be fully contacted and mixed, and the raw material impurities are filtered; and meanwhile, multilayer mixing and stirring are carried out, so that more efficient frequent contact between the difficult-to-dissolve raw materials and the auxiliary agent is promoted.
Drawings
FIG. 1 is a first general structural diagram of the present invention;
FIG. 2 is a second overall structural schematic of the present invention;
FIG. 3 is a schematic cross-sectional view of the present invention in its entirety;
FIG. 4 is a first schematic structural view of a mixing cartridge of the present invention;
FIG. 5 is a schematic structural view of a mixing cartridge of the present invention;
FIG. 6 is a first schematic structural diagram of the hybrid drive of the present invention;
FIG. 7 is a second schematic structural diagram of the hybrid drive of the present invention;
FIG. 8 is a schematic structural diagram of the hybrid vibration fixing base of the present invention;
FIG. 9 is a schematic cross-sectional view of the hybrid vibration mounting base of the present invention;
fig. 10 is a schematic structural view of the multi-layer mixing vibrator of the present invention.
In the figure: a mixing cylinder base 1; 1-1 of a cylinder body; 1-2 parts of an upper end cover; 1-3 of a fixed nose seat; 1-4 parts of a lower end cover; 1-5 of a discharge recovery pipe; extending the connection plates 1-6; motor fixing seats 1-7; a fixed slide 1-8; 1-9 of a lower T-shaped chute; the vibration is connected with a driving piece 2; a longitudinal slide bar 2-1; vibrating the connecting rod 2-2; a conical veneering driving seat 2-3; a hybrid drive 3; a servo motor 3-1; a central rotating shaft 3-2; 3-3 of a semicircular fan-shaped stirrer; 3-4 of a fan-shaped stirring through groove; 3-5 of a driving belt pulley; 3-6 of an eccentric connecting shaft; 3-7 of an eccentric connecting rod; driving a compression short shaft 3-8; 3-9 parts of a driven pulley; 3-10 parts of a driven short shaft; bevel gears 3-11; 3-12 parts of a conical gear ring; 3-13 parts of a bottom cross stirring rod; a mixed vibration fixing seat 4; a lower bottom plate 4-1; an upper top plate 4-2; connecting a stable sliding seat 4-3; 4-4 of an inner T-shaped chute; shaking the circular ring 4-5 at the top; fixing a sealing cover 4-6; 4-7 parts of a main material adding pipe; 4-8 parts of an auxiliary agent adding pipe; shaking the circular ring 4-9 at the bottom; a multilayer mixing shaker 5; a central fixed circular plate 5-1; downward shaking the circular ring 5-2; 5-3 of upward shaking the circular ring; 5-4 of an upper fixed circular plate; 5-5 parts of a lower fixed circular plate; shaking the filter plate 5-6: 5-7 of a central sliding table; 5-8 parts of a central connecting ring; 5-9 of a T-shaped sliding block; fixing a sliding rod 5-10; 5-11 parts of an upper sliding table; 5-12 parts of a lower sliding table; a first spring 5-13; a second spring 5-14; 5-15 parts of a third spring; and a fourth spring 5-16.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The fixed connection in the device can be fixed by welding, thread fixing and the like, the rotary connection can be realized by baking the bearing on a shaft, a spring retainer groove or an inter-shaft baffle is arranged on the shaft or a shaft hole, the axial fixation of the bearing is realized by clamping an elastic retainer ring in the spring retainer groove or the inter-shaft baffle, and the rotation is realized by the relative sliding of the bearing; different connection modes are used in combination with different use environments.
The first embodiment is as follows:
as shown in fig. 1-10, a combined material coupling vibrations mixing arrangement for casting, including mixing cylinder seat 1, two vibrations connection driving piece 2, hybrid drive ware 3, mixed vibrations fixing base 4 and multilayer mixed electromagnetic shaker 5, two vibrations connection driving piece 2 equal longitudinal sliding connection on mixing cylinder seat 1, 3 fixed connection of hybrid drive ware is at the left end of mixing cylinder seat 1, hybrid drive ware 3 rotates to be connected in mixing cylinder seat 1, hybrid drive ware 3 transmission is connected two vibrations connection driving piece 2, the equal fixed connection multilayer mixed electromagnetic shaker 5 of upper end of two vibrations connection driving piece 2, the vertical sliding connection of multilayer mixed electromagnetic shaker 5 is in mixed vibrations fixing base 4, mixed vibrations fixing base 4 fixed connection is in the upper end of mixing cylinder seat 1. Adding casting raw materials and auxiliaries into a multilayer mixing vibrator 5 through a mixing vibration fixing seat 4, driving the mixing cylinder seat 1 through a mixing driver 3 to perform multilayer mixing stirring, and driving the multilayer mixing vibrator 5 to perform large-amplitude multilayer shaking on the mixing vibration fixing seat 4 through two vibration connecting driving pieces 2 by the mixing driver 3 so as to promote the contact of the raw materials and the auxiliaries and perform multilayer filtration at the same time; the raw materials can be greatly shaken through multilayer shaking, so that the shaking of the casting raw materials with high viscosity or high mass is promoted, the raw materials and the auxiliary agent are fully contacted and mixed, and the filtration of impurities of the raw materials is realized; and meanwhile, multilayer mixing and stirring are carried out, so that more efficient frequent contact between the difficult-to-dissolve raw materials and the auxiliary agent is promoted.
The second embodiment is as follows:
as shown in FIGS. 1 to 10, the first embodiment is further illustrated in the present embodiment, the mixing barrel holder 1 includes a barrel 1-1, an upper end cap 1-2, two fixed nose holders 1-3, a lower end cap 1-4, a discharge recovery pipe 1-5, two extension connection plates 1-6, a motor fixing holder 1-7, two fixed sliding seats 1-8 and two lower T-shaped sliding chutes 1-9, wherein the upper and lower ends of the barrel 1-1 are respectively and fixedly connected with the upper end cap 1-2 and the lower end cap 1-4, the two fixed nose holders 1-3 are uniformly and fixedly connected to the upper side of the outer wall of the barrel 1-1, the discharge recovery pipe 1-5 is fixedly connected and communicated with the center of the lower end cap 1-4, the two extension connection plates 1-6 are uniformly and fixedly connected to the lower side of the barrel 1-1, the motor fixing seats 1-7 are fixedly connected to the left extending connecting plates 1-6, the two fixing sliding seats 1-8 are respectively and fixedly connected to the two extending connecting plates 1-6, and the two lower T-shaped sliding grooves 1-9 are respectively arranged on the two fixing sliding seats 1-8.
The third concrete implementation mode:
as shown in fig. 1 to 10, in the second embodiment, two vibration connection driving elements 2 are provided, each vibration connection driving element 2 includes a longitudinal sliding rod 2-1, a vibration connecting rod 2-2 and a plurality of conical facing driving seats 2-3, the longitudinal sliding rod 2-1 is slidably connected in a lower T-shaped sliding groove 1-9 through a T-shaped sliding groove, the vibration connecting rod 2-2 is fixedly connected to the upper end of the longitudinal sliding rod 2-1, and the plurality of conical facing driving seats 2-3 are uniformly and fixedly connected to the longitudinal sliding rod 2-1.
The fourth concrete implementation mode:
as shown in fig. 1 to 10, in the third embodiment, the hybrid driver 3 further includes a servo motor 3-1, a central rotating shaft 3-2, three semicircular sector mixers 3-3, a plurality of sector mixing through slots 3-4, two driving pulleys 3-5, two eccentric connecting shafts 3-6, eccentric connecting rods 3-7, driving compression short shafts 3-8, two driven pulleys 3-9, two driven short shafts 3-10, two bevel gears 3-11, a conical gear ring 3-12 and a bottom cross mixing rod 3-13, the servo motor 3-1 is fixedly connected to a motor fixing seat 1-7, the left end of the central rotating shaft 3-2 is connected to the rotating shaft of the servo motor 3-1 through a coupling, a central rotating shaft 3-2 is rotationally connected on the cylinder body 1-1 through a bearing seat, three semicircular fan-shaped stirrers 3-3 are uniformly and fixedly connected on the central rotating shaft 3-2, a plurality of penetrating fan-shaped stirring through grooves 3-4 are uniformly arranged on the semicircular fan-shaped stirrers 3-3, two driving belt pulleys 3-5 are respectively and fixedly connected at the left end and the right end of the central rotating shaft 3-2, two eccentric connecting shafts 3-6 are respectively and fixedly connected at the eccentric parts of the two driving belt pulleys 3-5, two ends of the eccentric connecting shafts 3-6 are respectively and fixedly connected with eccentric connecting rods 3-7, the inner ends of the eccentric connecting rods 3-7 are respectively and fixedly connected with driving compression short shafts 3-8, the driving compression short shafts 3-8 are jointed with a plurality of conical veneering driving, two driving belt pulleys 3-5 are respectively connected with two driven belt pulleys 3-9 through belt transmission, the two driven belt pulleys 3-9 are respectively and fixedly connected with two driven short shafts 3-10, the two driven short shafts 3-10 are respectively and rotatably connected with the lower sides of the two ends of the cylinder body 1-1 through bearing seats, the inner ends of the two driven short shafts 3-10 are respectively and fixedly connected with bevel gears 3-11, the lower ends of the two bevel gears 3-11 are respectively meshed with a bevel gear ring 3-12, the outer wall of the bevel gear ring 3-12 is rotatably connected with the lower side of the inner wall of the cylinder body 1-1 through a sliding block, and a cross stirring rod 3-13 at the bottom is fixedly connected with the inner wall. A servo motor 3-1 is connected with electricity to drive a central rotating shaft 3-2 to rotate, so as to drive three semicircular fan-shaped stirrers 3-3 to longitudinally rotate in a cylinder 1-1, meanwhile, the central rotating shaft 3-2 drives two driving belt pulleys 3-5 to rotate, two rotating eccentric connecting shafts 3-6 continuously extrude a plurality of conical veneering driving seats 2-3 through eccentric connecting rods 3-7 and driving compression short shafts 3-8, the conical veneering driving seats 2-3 continuously reciprocate through the sliding of the longitudinal sliding rods 2-1 in fixed sliding seats 1-8 and the acting force of a plurality of springs, and the rotating driving compression short shafts 3-8 continuously extrude the conical veneering driving seats 2-3; the two driving belt pulleys 3-5 drive the two driven belt pulleys 3-9, the two driven short shafts 3-10 and the two bevel gears 3-11 to rotate, and further drive the bottom cross stirring rods 3-13 to finally mix and stir the raw materials and the auxiliary agents in the cylinder body 1-1 through the conical gear rings 3-12.
The fifth concrete implementation mode:
as shown in fig. 1 to 10, in the fourth embodiment, the mixed vibration fixing seat 4 further includes a lower bottom plate 4-1, an upper top plate 4-2, two connecting stable sliding seats 4-3, two inner T-shaped sliding grooves 4-4, a top shaking ring 4-5, a fixed sealing cover 4-6, a main material adding pipe 4-7, an auxiliary agent adding pipe 4-8 and a bottom shaking ring 4-9, the lower bottom plate 4-1 is fixedly connected and communicated with the upper end of the upper end cover 1-2, two ends of the lower bottom plate 4-1 are connected with the upper top plate 4-2 through the two connecting stable sliding seats 4-3, the two inner T-shaped sliding grooves 4-4 are respectively arranged at the middle ends of the inner ends of the two connecting stable sliding seats 4-3, the top shaking ring 4-5 is fixedly connected in the upper top plate 4-2, the fixed sealing cover 4-6 is fixedly connected in the upper top plate 4-2, the main material adding pipe 4-7 and the auxiliary agent adding pipe 4-8 are fixedly connected and communicated in the fixed sealing cover 4-6, and the bottom shaking ring 4-9 is fixedly connected in the lower bottom plate 4-1. Casting raw materials and additives are added to the three shaking filter plates 5-6 through the main material adding pipes 4-7 and the additive adding pipes 4-8; the conical veneering driving seats 2-3 are continuously extruded by the rotary driving compression short shaft 3-8, then the four central sliding tables 5-7 continuously extrude the four third springs 5-15 and the four fourth springs 5-16 through the vibration connecting rod 2-2 and the central fixed circular plate 5-1, when the conical veneering driving seats 2-3 are separated from the rotary driving compression short shaft 3-8, the vibration connecting rod 2-2 and the central fixed circular plate 5-1 are reset by the four third springs 5-15 and the four fourth springs 5-16, the four first springs 5-13 and the four second springs 5-14 are extruded, and then the central fixed circular plate 5-1, the lower shaking circular ring 5-2 and the upper shaking circular ring 5-3 are extruded, The upper fixed circular plate 5-4 and the lower fixed circular plate 5-5 continuously shake up and down in a large range, and further the three shaking filter plates 5-6 are driven to continuously shake up and down to filter impurities on the three shaking filter plates 5-6, and raw materials and auxiliaries are in contact and mixed with each other and fall into the barrel 1-1 through multilayer shaking.
The sixth specific implementation mode:
as shown in FIGS. 1 to 10, the multi-layer mixing vibrator 5 of the fifth embodiment further comprises a central fixed circular plate 5-1, a lower shaking circular ring 5-2, an upper shaking circular ring 5-3, an upper fixed circular plate 5-4, a lower fixed circular plate 5-5, and three shaking filter plates 5-6, wherein the upper and lower ends of the central fixed circular plate 5-1 are slidably connected in the upper shaking circular ring 5-3 and the lower shaking circular ring 5-2, respectively, the upper end of the upper shaking circular ring 5-3 is fixedly connected with the upper fixed circular plate 5-4, the upper fixed circular plate 5-4 is slidably connected in the top shaking circular ring 4-5, the lower end of the lower shaking circular ring 5-2 is fixedly connected with the lower fixed circular plate 5-5, the lower end of the lower fixed circular plate 5-5 is slidably connected in the bottom shaking circular ring 4-9, the three shaking filter plates 5-6 are respectively and fixedly connected in the central fixed circular plate 5-1, the upper fixed circular plate 5-4 and the lower fixed circular plate 5-5.
The seventh embodiment:
as shown in fig. 1 to 10, in this embodiment, a sixth embodiment is further described, wherein the four central sliding tables 5-7, the central connecting ring 5-8, two T-shaped sliders 5-9, four fixed sliding rods 5-10, four upper sliding tables 5-11, four lower sliding tables 5-12, four first springs 5-13, four second springs 5-14, four third springs 5-15 and four fourth springs 5-16 are arranged on the central fixed circular plate 5-1, the outer wall of the central fixed circular plate 5-1 is uniformly and fixedly connected with the four central sliding tables 5-7, the four central sliding tables 5-7 are connected through the central connecting ring 5-8, the two T-shaped sliders 5-9 are uniformly and fixedly connected to the outer wall of the central connecting ring 5-8, the two T-shaped sliders 5-9 are respectively and slidably connected to the two inner T-shaped sliding grooves 4-4, four fixed sliding rods 5-10 are uniformly and fixedly connected between a lower bottom plate 4-1 and an upper top plate 4-2, the outer wall of an upper fixed circular plate 5-4 is uniformly and fixedly connected with four upper sliding tables 5-11, the outer wall of a lower fixed circular plate 5-5 is uniformly and fixedly connected with four lower sliding tables 5-12, a central sliding table 5-7, an upper sliding table 5-11 and a lower sliding table 5-12 are all slidably connected in the fixed sliding rods 5-10, a first spring 5-13, a second spring 5-14, a third spring 5-15 and a fourth spring 5-16 are all sleeved on the fixed sliding rods 5-10 from top to bottom, the first spring 5-13 is arranged between the upper top plate 4-2 and the upper sliding table 5-11, the second spring 5-14 is arranged between the upper sliding table 5-11 and the central sliding table 5-7, the third spring 5-15 is arranged between the central sliding table 5-7 and the lower sliding table 5-12, and the fourth spring 5-16 is arranged between the lower sliding table 5-12 and the lower bottom plate 4-1.
The specific implementation mode is eight:
as shown in fig. 1 to 10, in the seventh embodiment, three semicircular fan-shaped stirrers 3-3 are provided, and the outer walls of the three semicircular fan-shaped stirrers 3-3 are all attached to the inner wall of the cylinder 1-1. Fully mixing and stirring.
The specific implementation method nine:
as shown in fig. 1 to 10, in the eighth embodiment, the upper end surface of the lower end cap 1-4 is inclined downward inward and outward. The mixed thick and large materials can flow out more easily.
The detailed implementation mode is ten:
as shown in fig. 1 to 10, in the present embodiment, a ninth embodiment is further described, three shaking filter plates 5 to 6 are provided, and a plurality of strip through grooves are formed through each of the three shaking filter plates 5 to 6. Fully mixing and stirring
The working principle of the invention is as follows: casting raw materials and additives are added to the three shaking filter plates 5-6 through the main material adding pipes 4-7 and the additive adding pipes 4-8; a servo motor 3-1 is connected with electricity to drive a central rotating shaft 3-2 to rotate, so as to drive three semicircular fan-shaped stirrers 3-3 to longitudinally rotate in a cylinder 1-1, meanwhile, the central rotating shaft 3-2 drives two driving belt pulleys 3-5 to rotate, two rotating eccentric connecting shafts 3-6 continuously extrude a plurality of conical veneering driving seats 2-3 through eccentric connecting rods 3-7 and driving compression short shafts 3-8, the conical veneering driving seats 2-3 continuously reciprocate through the sliding of the longitudinal sliding rods 2-1 in fixed sliding seats 1-8 and the acting force of a plurality of springs, and the rotating driving compression short shafts 3-8 continuously extrude the conical veneering driving seats 2-3; the two driving belt pulleys 3-5 drive the two driven belt pulleys 3-9, the two driven short shafts 3-10 and the two bevel gears 3-11 to rotate, and further drive the bottom cross stirring rods 3-13 to finally mix and stir the raw materials and the auxiliary agents in the cylinder body 1-1 through the conical gear rings 3-12; the conical veneering driving seats 2-3 are continuously extruded by the rotary driving compression short shaft 3-8, then the four central sliding tables 5-7 continuously extrude the four third springs 5-15 and the four fourth springs 5-16 through the vibration connecting rod 2-2 and the central fixed circular plate 5-1, when the conical veneering driving seats 2-3 are separated from the rotary driving compression short shaft 3-8, the vibration connecting rod 2-2 and the central fixed circular plate 5-1 are reset by the four third springs 5-15 and the four fourth springs 5-16, the four first springs 5-13 and the four second springs 5-14 are extruded, and then the central fixed circular plate 5-1, the lower shaking circular ring 5-2 and the upper shaking circular ring 5-3 are extruded, The upper fixed circular plate 5-4 and the lower fixed circular plate 5-5 continuously shake up and down in a large range, so that the three shaking filter plates 5-6 are driven to continuously shake up and down to filter impurities on the three shaking filter plates 5-6, and raw materials and auxiliaries are in contact and mixed with each other and fall into the barrel 1-1 through multilayer shaking; then the mixture is mixed and stirred by three semicircular fan-shaped stirrers 3-3 and a bottom cross stirring rod 3-1, falls onto a lower end cover 1-4, and flows out and is recycled by a discharge recycling pipe 1-5; the raw materials can be greatly shaken through multilayer shaking, so that the shaking of the casting raw materials with high viscosity or high mass is promoted, the raw materials and the auxiliary agent are fully contacted and mixed, and the filtration of impurities of the raw materials is realized; and meanwhile, multilayer mixing and stirring are carried out, so that more efficient frequent contact between the difficult-to-dissolve raw materials and the auxiliary agent is promoted.
The above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions and substitutions which may be made by those skilled in the art within the spirit of the present invention are within the scope of the present invention.
Claims (10)
1. The utility model provides a be used for as cast combined material coupling vibrations mixing arrangement, includes mixed bobbin base (1), two vibrations connection driving piece (2), hybrid drive ware (3), mixed vibrations fixing base (4) and the mixed electromagnetic shaker of multilayer (5), its characterized in that: two vibrations connect equal longitudinal sliding of driving piece (2) and connect on mixing barrel seat (1), hybrid drive ware (3) fixed connection is at the left end of mixing barrel seat (1), hybrid drive ware (3) rotate to be connected in mixing barrel seat (1), hybrid drive ware (3) transmission is connected two vibrations and is connected driving piece (2), the equal fixed connection multilayer mixed electromagnetic shaker (5) in upper end of driving piece (2) is connected in two vibrations, multilayer mixed electromagnetic shaker (5) longitudinal sliding connects in mixing vibrations fixing base (4), mix vibrations fixing base (4) fixed connection in the upper end of mixing barrel seat (1).
2. The composite material coupled vibratory mixing apparatus for casting of claim 1, wherein: the mixing cylinder seat (1) comprises a cylinder body (1-1), an upper end cover (1-2), two fixed nose seats (1-3), a lower end cover (1-4), a discharge recovery pipe (1-5), two extension connecting plates (1-6), a motor fixing seat (1-7), two fixed sliding seats (1-8) and two lower T-shaped sliding chutes (1-9), wherein the upper end and the lower end of the cylinder body (1-1) are respectively fixedly connected with the upper end cover (1-2) and the lower end cover (1-4), the two fixed nose seats (1-3) are uniformly and fixedly connected with the upper side of the outer wall of the cylinder body (1-1), the discharge recovery pipe (1-5) is fixedly connected and communicated with the center of the lower end cover (1-4), and the two extension connecting plates (1-6) are uniformly and fixedly connected with the lower side of the cylinder body (1-1), the motor fixing seats (1-7) are fixedly connected to the left extending connecting plates (1-6), the two fixing sliding seats (1-8) are respectively and fixedly connected to the two extending connecting plates (1-6), and the two lower T-shaped sliding grooves (1-9) are respectively arranged on the two fixing sliding seats (1-8).
3. A composite material coupled vibratory mixing apparatus for casting as claimed in claim 2 wherein: the vibration connection driving piece (2) is provided with two, the vibration connection driving piece (2) comprises a longitudinal sliding rod (2-1), a vibration connecting rod (2-2) and a plurality of conical veneering driving seats (2-3), the longitudinal sliding rod (2-1) is connected in a lower T-shaped sliding groove (1-9) in a sliding mode through a T-shaped sliding groove, the vibration connecting rod (2-2) is fixedly connected to the upper end of the longitudinal sliding rod (2-1), and the conical veneering driving seats (2-3) are uniformly and fixedly connected to the longitudinal sliding rod (2-1).
4. A composite material coupled vibratory mixing apparatus for casting as claimed in claim 3 wherein: the hybrid driver (3) comprises a servo motor (3-1), a central rotating shaft (3-2), three semicircular fan-shaped stirrers (3-3), a plurality of fan-shaped stirring through grooves (3-4), two driving belt pulleys (3-5), two eccentric connecting shafts (3-6), eccentric connecting rods (3-7), driving compression short shafts (3-8), two driven belt pulleys (3-9), two driven short shafts (3-10), two bevel gears (3-11), a conical gear ring (3-12) and a bottom cross stirring rod (3-13), wherein the servo motor (3-1) is fixedly connected to a motor fixing seat (1-7), the left end of the central rotating shaft (3-2) is connected with the rotating shaft of the servo motor (3-1) through a coupling, the central rotating shaft (3-2) is rotatably connected to the barrel body (1-1) through a bearing seat, three semicircular fan-shaped stirrers (3-3) are uniformly and fixedly connected to the central rotating shaft (3-2), a plurality of penetrating fan-shaped stirring through grooves (3-4) are uniformly formed in the semicircular fan-shaped stirrers (3-3), two driving belt pulleys (3-5) are respectively and fixedly connected to the left end and the right end of the central rotating shaft (3-2), two eccentric connecting shafts (3-6) are respectively and fixedly connected to the eccentric positions of the two driving belt pulleys (3-5), two ends of each eccentric connecting shaft (3-6) are respectively and fixedly connected with an eccentric connecting rod (3-7), the inner ends of the eccentric connecting rods (3-7) are respectively and fixedly connected with driving compression short shafts (3-8), and the driving compression short shafts (3-8) are attached to a plurality of conical attaching surface driving seats (2- The two driving belt pulleys (3-5) are respectively connected with two driven belt pulleys (3-9) through belt transmission, the two driven belt pulleys (3-9) are respectively and fixedly connected to two driven short shafts (3-10), the two driven short shafts (3-10) are respectively and rotatably connected to the lower sides of the two ends of the cylinder body (1-1) through bearing seats, the inner ends of the two driven short shafts (3-10) are respectively and fixedly connected with bevel gears (3-11), the lower ends of the two bevel gears (3-11) are respectively meshed with the bevel gear rings (3-12), the outer walls of the bevel gear rings (3-12) are rotatably connected to the lower sides of the inner walls of the cylinder body (1-1) through sliders, and the bottom cross stirring rods (3-13) are fixedly connected to the inner walls of the bevel gear rings (.
5. The composite material coupled vibratory mixing apparatus of claim 4, wherein: the mixed vibration fixing seat (4) comprises a lower bottom plate (4-1), an upper top plate (4-2), two connection stable sliding seats (4-3), two inner T-shaped sliding grooves (4-4), a top shaking circular ring (4-5), a fixed sealing cover (4-6), a main material adding pipe (4-7), an auxiliary agent adding pipe (4-8) and a bottom shaking circular ring (4-9), wherein the lower bottom plate (4-1) is fixedly connected and communicated with the upper end of the upper end cover (1-2), two ends of the lower bottom plate (4-1) are connected with the upper top plate (4-2) through the two connection stable sliding seats (4-3), the two inner T-shaped sliding grooves (4-4) are respectively arranged at the middle ends of the inner ends of the two connection stable sliding seats (4-3), the top shaking circular ring (4-5) is fixedly connected in the upper top plate (4-2), the fixed sealing cover (4-6) is fixedly connected in the upper top plate (4-2), the main material adding pipe (4-7) and the auxiliary agent adding pipe (4-8) are fixedly connected and communicated in the fixed sealing cover (4-6), and the bottom shaking ring (4-9) is fixedly connected in the lower bottom plate (4-1).
6. The composite material coupled vibratory mixing apparatus of claim 5, wherein: the multilayer mixing vibrator (5) comprises a central fixed circular plate (5-1), a lower shaking circular plate (5-2), an upper shaking circular ring (5-3), an upper fixed circular plate (5-4), a lower fixed circular plate (5-5) and three shaking filter plates (5-6), wherein the upper end and the lower end of the central fixed circular plate (5-1) are respectively connected in the upper shaking circular plate (5-3) and the lower shaking circular ring (5-2) in a sliding manner, the upper end of the upper shaking circular plate (5-3) is fixedly connected with the upper fixed circular plate (5-4), the upper fixed circular plate (5-4) is connected in the top shaking circular ring (4-5) in a sliding manner, the lower end of the lower shaking circular plate (5-2) is fixedly connected with the lower fixed circular plate (5-5), the lower end of the lower fixed circular plate (5-5) is connected in the bottom shaking circular ring (4-9) in a sliding manner, the three shaking filter plates (5-6) are respectively and fixedly connected in the central fixed circular plate (5-1), the upper fixed circular plate (5-4) and the lower fixed circular plate (5-5).
7. The composite material coupled vibratory mixing apparatus of claim 6, wherein: the four central sliding tables (5-7), the central connecting ring (5-8), the two T-shaped sliding blocks (5-9), the four fixed sliding rods (5-10), the four upper sliding tables (5-11), the four lower sliding tables (5-12), the four first springs (5-13), the four second springs (5-14), the four third springs (5-15) and the four fourth springs (5-16) are arranged in sequence, the outer wall of the central fixed circular plate (5-1) is uniformly and fixedly connected with the four central sliding tables (5-7), the four central sliding tables (5-7) are connected through the central connecting ring (5-8), the two T-shaped sliding blocks (5-9) are uniformly and fixedly connected with the outer wall of the central connecting ring (5-8), the two T-shaped sliding blocks (5-9) are respectively and slidably connected in the two inner T-shaped sliding grooves (4-4), four fixed sliding rods (5-10) are uniformly and fixedly connected between a lower bottom plate (4-1) and an upper top plate (4-2), the outer wall of an upper fixed circular plate (5-4) is uniformly and fixedly connected with four upper sliding tables (5-11), the outer wall of a lower fixed circular plate (5-5) is uniformly and fixedly connected with four lower sliding tables (5-12), a central sliding table (5-7), an upper sliding table (5-11) and a lower sliding table (5-12) are all slidably connected in the fixed sliding rods (5-10), a first spring (5-13), a second spring (5-14), a third spring (5-15) and a fourth spring (5-16) are all sleeved on the fixed sliding rods (5-10) from top to bottom, the first spring (5-13) is arranged between the upper top plate (4-2) and the upper sliding tables (5-11), the second springs (5-14) are arranged between the upper sliding table (5-11) and the central sliding table (5-7), the third springs (5-15) are arranged between the central sliding table (5-7) and the lower sliding table (5-12), and the fourth springs (5-16) are arranged between the lower sliding table (5-12) and the lower bottom plate (4-1).
8. The composite material coupled vibratory mixing apparatus of claim 7, wherein: the number of the semicircular fan-shaped stirrers (3-3) is three, and the outer walls of the three semicircular fan-shaped stirrers (3-3) are all attached to the inner wall of the barrel body (1-1).
9. The composite material coupled vibratory mixing apparatus of claim 8, wherein: the upper end surface of the lower end cover (1-4) is inclined outwards, inwards and downwards.
10. The composite material coupled vibratory mixing apparatus for casting of claim 9, wherein: the number of the shaking filter plates (5-6) is three, and the three shaking filter plates (5-6) are all provided with a plurality of strip through grooves in a penetrating mode.
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