Cement mixer to vibrations utilization
Technical Field
The invention relates to the field of cement stirring, in particular to a cement stirring machine for vibration utilization.
Background
No. CN201810895036.9 discloses a cement mixer to vibrations utilization, the on-line screen storage device comprises a base and a box body, the damper chamber has been seted up to the inside of base, the spout has all been seted up all around to the lower half of damper chamber, be provided with the slide in the spout, the downside of slide is provided with a plurality of first damping device, the cavity has all been seted up all around to the first half of base, the inside of cavity is provided with the threaded rod, the outer end of threaded rod stretches into in the damper chamber, lie in on the threaded rod on the inside position of cavity and be provided with driven gear, the inside of cavity is provided with and is connected with driven gear complex rack, the lower extreme of rack stretches into in the spout and is connected with the slide, the outer end of threaded rod is provided with the carriage release lever, the inside of carriage release lever is seted up with threaded. The structure of the invention has good damping effect, and can utilize damping force, thereby achieving good damping performance with low cost. The equipment does not provide for the continuous and efficient mixing of cement that needs to be stored and mixed.
Disclosure of Invention
The invention aims to provide a cement mixer for vibration utilization, which has the beneficial effects that a device for storing cement is continuously shaken and stirred in a mode of reciprocating shaking and limiting stretching, so that the cement is prevented from being coagulated into blocks; when the cement is shaken, the cement is promoted to continuously flow by using the deviation of the relative angle between the stirring plates at different layers in the cement, so that the flow and the stirring of the cement are promoted; the occupied space is small, the limiting and damping of shaking are effectively carried out, and the continuous use of cement on a construction site is facilitated.
The purpose of the invention is realized by the following technical scheme:
the invention aims to provide a cement mixer utilizing vibration, which comprises a cement mixing shell rack, a shaking mixing driver, an internal shaking mixing presenting device, a right double-layer pulling mixer and a left single-layer pulling mixer, wherein the shaking mixing driver is fixedly connected in the cement mixing shell rack, the internal shaking mixing presenting device is fixedly connected on the shaking mixing driver and is connected in the cement mixing shell rack in a sliding manner, the right double-layer pulling mixer and the left single-layer pulling mixer are respectively and rotatably connected at two ends of the internal shaking mixing presenting device, and the right double-layer pulling mixer and the left single-layer pulling mixer are both connected on the cement mixing shell rack in a sliding manner.
As a further optimization of the invention, the mud stirring shell frame comprises a frame plate, four frame plates, four inner arc-shaped chutes, two left limiting fixed sliding seats, two right limiting fixed sliding seats, a rack sliding groove and a motor fixing seat, wherein the four frame plates are uniformly and fixedly connected to the front end and the rear end of the frame plate, the inner arc-shaped chutes are respectively arranged at the inner ends of the four frame plates, the left ends of the inner walls of the frame plate are fixedly connected with the two left limiting fixed sliding seats, the right ends of the inner walls of the frame plate are fixedly connected with the two right limiting fixed sliding seats, the rack sliding groove is arranged on the front side of the lower end of the inner walls of the frame plate, and the motor.
As a further optimization of the invention, the shaking and stirring driver comprises a driving motor, a driving turntable, a driving hinge rod and a rack hinge seat, the rack that slides, drive reciprocal rotating gear, drive reciprocal pivot and two pivot fixed stations, driving motor fixed connection is on the motor fixing base, drive carousel fixed connection is on driving motor's transmission shaft, the both ends of drive hinge bar articulate respectively on the eccentric department and the rack hinge seat of drive carousel, rack hinge seat fixed connection is at the left end of slip rack, slip rack sliding connection is in the rack spout, the transmission is engaged with the slip rack to the lower extreme of drive reciprocal rotating gear, drive reciprocal rotating gear fixed connection is at the front end of drive reciprocal pivot, drive reciprocal pivot is rotated and is connected in two pivot fixed stations, the equal fixed connection of two pivot fixed stations is at the lower extreme of frame deckle inner wall.
As a further optimization of the invention, the internal shaking stirring and carrying device comprises a carrying stirring box, a cement adding frame, four limiting arc-shaped sliding blocks, a left rotating sealing circular groove, two cement discharging pipes with valves, a lower fixed rotary seat, two right rotating sealing circular grooves, two lower buffering spring shafts, two lower sliding tables and two buffering springs, wherein the cement adding frame is fixedly connected and communicated with the center of the upper end of the carrying stirring box, the four limiting arc-shaped sliding blocks are uniformly and fixedly connected with the front end and the rear end of the carrying stirring box, the four limiting arc-shaped sliding blocks are respectively and slidably connected in the four inner arc-shaped sliding grooves, the lower end of the carrying stirring box is fixedly connected and communicated with the two cement discharging pipes with valves, the lower fixed rotary seat is fixedly connected with the center of the lower end of the carrying stirring box, the carrying stirring box is fixedly connected on a driving reciprocating rotary shaft through the lower fixed rotary seat, the left rotating sealing circular groove is communicated and arranged at the left, two right sealed circular slots that rotate all feed through the setting and are being the right-hand member that carries the agitator tank, and two lower buffer spring axle fixed connection respectively are in the left and right sides that is and carry the agitator tank lower extreme, and two lower sliding stand sliding connection respectively are at the outer wall of two lower buffer spring axles, and two buffer spring cup joint respectively under two on the buffer spring axle, and buffer spring sets up and is being between the lower extreme and the lower sliding stand that carry the agitator tank.
As a further optimization of the invention, the right double-layer pulling stirrer comprises a first-layer stirring plate, two first-layer falling grooves, a first-layer connecting seat, two central fixed rotating seats, a third-layer stirring plate, two third-layer falling grooves and a third-layer connecting seat, wherein the two first-layer falling grooves are respectively arranged at two ends of the first-layer stirring plate, the first-layer connecting seat is fixedly connected at the right end of the first-layer stirring plate, the two central fixed rotating seats are respectively and fixedly connected at the front end and the rear end of the center of the inner wall of the stirring box, the middle end of the first-layer stirring plate and the middle end of the third-layer stirring plate are respectively and rotatably connected in the two central fixed rotating seats through rotating shafts, the two third-layer falling grooves are respectively arranged at two ends of the third-layer stirring plate, and the third-layer connecting seat is.
As a further optimization of the invention, the two rotary sealing seats, the two inner rotary shafts, the two inner hinging tables, the two outer hinging tables, the right limiting seat, the right rotary shaft and the two right limiting sliding wheels are respectively connected in the two right rotary sealing circular grooves in a sealing and rotating manner through the two inner rotary shafts, the two inner hinging tables are respectively and fixedly connected with the left ends of the two rotary sealing seats, the two inner hinging tables are respectively hinged with the first layer connecting seat and the third layer connecting seat, the two outer hinging tables are respectively and fixedly connected with the right ends of the two rotary sealing seats, the two outer hinging tables are both hinged on the right limiting seat, the right rotary shaft is fixedly connected on the right limiting seat, and the two right limiting sliding wheels are respectively and rotatably connected on the right rotary shaft.
As a further optimization of the invention, the left single-layer pulling stirrer comprises a second-layer stirring plate, two second-layer falling grooves, a second-layer connecting seat, a left sealing rotating seat, a left inner rotating shaft, a left inner hinging seat, a left outer hinging seat, a left limiting seat, a left rotating shaft and two left limiting sliding wheels, wherein two ends of the second-layer stirring plate are respectively provided with two second-layer falling grooves, the second-layer connecting seat is fixedly connected with the left end of the second-layer stirring plate, the middle end of the second-layer stirring plate is rotatably connected in the two central fixedly rotating seats through the rotating shaft, the left sealing rotating seat is rotatably connected in the left rotating sealing circular groove through a left inner rotating shaft, the left inner hinging seat is fixedly connected with the right end of the left sealing rotating seat, the left inner hinging seat is hinged in the second-layer connecting seat, the left outer hinging seat is fixedly connected with the left end of the left sealing rotating seat, the left sealing rotating seat is hinged in the left limiting seat, the left rotating shaft is fixedly connected in the left limiting seat, and the two left limiting sliding wheels are rotatably connected on the left rotating shaft.
As a further optimization of the invention, the left rotating shaft is connected between the two left limit fixed sliding seats in a sliding manner through the two left limit sliding wheels.
As a further optimization of the invention, the right rotating shaft is connected between the two right limit fixed sliding seats in a sliding manner through the two right limit sliding wheels.
As a further optimization of the invention, the upper end surfaces of the first layer of stirring plate, the second layer of stirring plate and the third layer of stirring plate are all U-shaped surfaces from outside to inside.
By adopting the technical scheme provided by the invention, compared with the prior art, the cement stirring device has the following beneficial effects that the cement stirring shell frame, the shaking stirring driver, the internal shaking stirring presenting carrier, the right double-layer pulling stirrer and the left single-layer pulling stirrer can continuously shake and stir a device for storing cement in a mode of reciprocating shaking and limiting stretching at the same time, so that the cement is prevented from being coagulated into blocks; when the cement is shaken, the cement is promoted to continuously flow by using the deviation of the relative angle between the stirring plates at different layers in the cement, so that the flow and the stirring of the cement are promoted; the occupied space is small, the limiting and damping of shaking are effectively carried out, and the continuous use of cement on a construction site is facilitated.
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 partial first schematic structural view of the present invention;
FIG. 4 is a partial second schematic structural view of the present invention;
FIG. 5 is a schematic structural view of a cement mixer housing frame of the present invention;
FIG. 6 is a schematic structural view of the sloshing mixer drive of the present invention;
FIG. 7 is a first schematic structural view of the internal shaking stirring presenting device of the present invention;
FIG. 8 is a second schematic structural view of the internal shaking stirring presenting device of the present invention;
FIG. 9 is a partial schematic view of the present invention;
FIG. 10 is a first schematic view of the right double-pulling agitator of the present invention;
FIG. 11 is a second schematic structural view of the right double-pulling agitator of the present invention;
FIG. 12 is a schematic view of the structure of the left single-layer pulling agitator of the present invention.
In the figure: a cement mixer housing frame 1; a frame plate 1-1 of the frame; 1-2 of four frame plates; four inner arc chutes 1-3; a left limit fixing sliding seat 1-4; a right limit fixing sliding seat 1-5; 1-6 rack chutes; motor fixing seats 1-7; shaking the stirring driver 2; a driving motor 2-1; driving the turntable 2-2; driving the hinge rod 2-3; 2-4 of a rack hinge seat; 2-5 of a sliding rack; driving the reciprocating rotary gears 2-6; driving the reciprocating rotating shaft 2-7; 2-8 parts of a rotating shaft fixing table; internally shaking and stirring to form a carrier 3; a loading stirring box 3-1; 3-2 of a cement adding frame; four limiting arc-shaped sliding blocks 3-3; rotating the sealing circular groove 3-4 left; 3-5 parts of a cement discharge pipe with a valve; 3-6 parts of a lower fixed swivel base; rotating the sealing circular groove 3-7 at the right side; 3-8 parts of a lower buffer spring shaft; 3-9 parts of a lower sliding table; 3-10 parts of a buffer spring; a right double-layer pulling stirrer 4; a first layer of stirring plate 4-1; a first layer of falling grooves 4-2; a first layer of connecting seats 4-3; 4-4 of a central fixed rotating seat; a third layer of stirring plate 4-5; 4-6 of a third layer of falling groove; a third layer of connecting seats 4-7; 4-8 parts of rotary sealing seat; 4-9 parts of an inner rotating shaft; 4-10 parts of an inner hinged table; 4-11 of an outer hinged table; 4-12 parts of right limiting seat; 4-13 of a right rotating shaft; 4-14 of a right limit sliding wheel; a left single-layer pulling agitator 5; a second layer of stirring plate 5-1; a second layer of drop chutes 5-2; a second layer of connecting seats 5-3; 5-4 parts of a left sealing rotating seat; 5-5 parts of a left inner rotating shaft; 5-6 parts of a left inner hinged seat; 5-7 of a left outer hinged seat; 5-8 parts of a left limiting seat; 5-9 parts of a left rotating shaft; 5-10 parts of left limiting sliding wheel.
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. 1-12, a cement mixer that vibrations were utilized, including cement stirring shell frame 1, rock stirring driver 2, in rock the stirring and be year ware 3, double-deck pulling agitator 4 in right side and left individual layer pulling agitator 5, rock 2 fixed connection of stirring driver in cement stirring shell frame 1, in rock the stirring and be year ware 3 fixed connection and swing joint on rocking stirring driver 2 and in cement stirring shell frame 1, right side double-deck pulling agitator 4 and left individual layer pulling agitator 5 rotate respectively including connecting and rock the stirring and be the both ends of carrying ware 3, right side double-deck pulling agitator 4 and the equal sliding connection of left individual layer pulling agitator 5 are on mud stirring shell frame 1. The cement is added into the inward shaking and stirring presenting carrier 3, the inward shaking and stirring presenting carrier 3 is driven by the shaking and stirring driver 2 to shake left and right in the cement stirring shell rack 1 in a reciprocating manner, the inward shaking and stirring presenting carrier 3 shakes left and right in the cement stirring shell rack 1 in a reciprocating manner in a limiting manner, and the inward shaking and stirring presenting carrier 3 which shakes in a reciprocating manner is controlled by the right double-layer pulling stirrer 4 and the left single-layer pulling stirrer 5 in the cement stirring shell rack 1 in a transverse limiting manner, so that the right double-layer pulling stirrer 4 and the left single-layer pulling stirrer 5 are continuously stirred in the inward shaking and stirring presenting carrier 3; the device for storing cement can be continuously shaken and stirred in a mode of reciprocating shaking and limiting stretching, so that the cement is prevented from being coagulated into blocks; when the cement is shaken, the cement is promoted to continuously flow by using the deviation of the relative angle between the stirring plates at different layers in the cement, so that the flow and the stirring of the cement are promoted; the occupied space is small, the limiting and damping of shaking are effectively carried out, and the continuous use of cement on a construction site is facilitated.
The second embodiment is as follows:
as shown in FIGS. 1 to 12, the present embodiment further illustrates the first embodiment, the mud stirring casing frame 1 includes a frame plate 1-1, four frame plates 1-2, four inner arc chutes 1-3, two left limiting fixed slides 1-4, two right limiting fixed slides 1-5, a rack slide 1-6 and a motor fixing seat 1-7, the four frame plates 1-2 are uniformly and fixedly connected to the front and rear ends of the frame plate 1-1, the inner ends of the four frame plates 1-2 are respectively provided with the inner arc chutes 1-3, the left end of the inner wall of the frame plate 1-1 is fixedly connected with the two left limiting fixed slides 1-4, the right end of the inner wall of the frame plate 1-1 is fixedly connected with the two right limiting fixed slides 1-5, the rack slide 1-6 is arranged at the front side of the lower end of the inner wall of the frame plate 1-1, the motor fixing seat 1-7 is fixedly connected to the lower side of the front end of the frame plate 1-1 of the frame.
The third concrete implementation mode:
as shown in fig. 1 to 12, in this embodiment, a second embodiment is further described, the shaking and stirring driver 2 includes a driving motor 2-1, a driving turntable 2-2, a driving hinge rod 2-3, a rack hinge seat 2-4, a sliding rack 2-5, a driving reciprocating rotation gear 2-6, a driving reciprocating rotation shaft 2-7 and two rotation shaft fixing platforms 2-8, the driving motor 2-1 is fixedly connected to a motor fixing seat 1-7, the driving turntable 2-2 is fixedly connected to a transmission shaft of the driving motor 2-1, two ends of the driving hinge rod 2-3 are respectively hinged to an eccentric portion of the driving turntable 2-2 and the rack hinge seat 2-4, the rack hinge seat 2-4 is fixedly connected to a left end of the sliding rack 2-5, the sliding rack 2-5 is connected in the rack sliding groove 1-6 in a sliding mode, the lower end of the driving reciprocating rotating gear 2-6 is in meshed transmission with the sliding rack 2-5, the driving reciprocating rotating gear 2-6 is fixedly connected to the front end of the driving reciprocating rotating shaft 2-7, the driving reciprocating rotating shaft 2-7 is connected in the two rotating shaft fixing tables 2-8 in a rotating mode, and the two rotating shaft fixing tables 2-8 are fixedly connected to the lower end of the inner wall of the frame plate 1-1 of the rack. The driving motor 2-1 is electrically connected to drive the driving turntable 2-2 to rotate, and the driving hinge rod 2-3 drives the rack hinge seat 2-4 and the sliding rack 2-5 to reciprocate left and right in the rack sliding groove 1-6, so as to drive the driving reciprocating rotating gear 2-6 and the driving reciprocating rotating shaft 2-7 to reciprocate left and right in the two rotating shaft fixing tables 2-8.
The fourth concrete implementation mode:
as shown in figures 1 to 12, the third embodiment is further explained in the present embodiment, the internal shaking stirring load-forming device 3 comprises a load-forming stirring box 3-1, a cement adding frame 3-2, four limiting arc-shaped sliding blocks 3-3, a left-turning sealing circular groove 3-4, two cement discharging pipes 3-5 with valves, a lower fixed swivel mount 3-6, two right-turning sealing circular grooves 3-7, two lower buffer spring shafts 3-8, two lower sliding tables 3-9 and two buffer springs 3-10, the cement adding frame 3-2 is fixedly connected and communicated with the center of the upper end of the load-forming stirring box 3-1, the front end and the rear end of the load-forming stirring box 3-1 are uniformly and fixedly connected with the four limiting arc-shaped sliding blocks 3-3, the four limiting arc-shaped sliding blocks 3-3 are respectively and slidably connected in the four inner arc-shaped sliding grooves 1-3, the lower end of a load-bearing stirring box 3-1 is fixedly connected and communicated with two cement discharge pipes 3-5 with valves, a lower fixed rotary seat 3-6 is fixedly connected at the center of the lower end of the load-bearing stirring box 3-1, the load-bearing stirring box 3-1 is fixedly connected on a driving reciprocating rotary shaft 2-7 through the lower fixed rotary seat 3-6, a left rotary sealing circular groove 3-4 is communicated and arranged at the left end of the load-bearing stirring box 3-1, two right rotary sealing circular grooves 3-7 are communicated and arranged at the right end of the load-bearing stirring box 3-1, two lower buffer spring shafts 3-8 are respectively fixedly connected at the left side and the right side of the lower end of the load-bearing stirring box 3-1, two lower sliding tables 3-9 are respectively slidably connected at the outer walls of the two lower buffer spring shafts 3-8, the two buffer springs 3-10 are respectively sleeved on the two lower buffer spring shafts, the buffer spring 3-10 is arranged between the lower end of the stirring box 3-1 and the lower sliding table 3-9. Adding cement into a presenting-carrying stirring box 3-1 through a cement adding frame 3-2, enabling the cement to fall on a first layer stirring plate 4-1 in the presenting-carrying stirring box 3-1, and after the cement is fully stacked, enabling the cement to fall into the presenting-carrying stirring box 3-1 through two first layer falling grooves 4-2, two second layer falling grooves 5-2 and two third layer falling grooves 4-6; the reciprocating rotary driving reciprocating rotary shaft 2-7 is driven by the lower fixing rotary seat 3-6 to move in a left-right reciprocating mode to present a stirring box 3-1, the present stirring box 3-1 is limited to shake in a left-right reciprocating mode to present the stirring box 3-1 through the sliding of the four limiting arc-shaped sliding blocks 3-3 in the four inner arc-shaped sliding grooves 1-3, and the downward present stirring box 3-1 is protected by damping and buffering in the shaking process through the two lower buffering spring shafts 3-8, the two lower sliding tables 3-9 and the two buffering springs 3-10, so that the present stirring box 3-1 is effectively protected.
The fifth concrete implementation mode:
as shown in FIGS. 1 to 12, the fourth embodiment is further illustrated in the present embodiment, the right double-layer pulling agitator 4 includes a first layer agitating plate 4-1, two first layer dropping grooves 4-2, a first layer connecting seat 4-3, two central fixed rotating seats 4-4, a third layer agitating plate 4-5, two third layer dropping grooves 4-6 and a third layer connecting seat 4-7, two first layer dropping grooves 4-2 are respectively disposed at two ends of the first layer agitating plate 4-1, the first layer connecting seat 4-3 is fixedly connected to the right end of the first layer agitating plate 4-1, two central fixed rotating seats 4-4 are respectively fixedly connected to the front and rear ends of the center of the inner wall of the carrying agitating tank 3-1, the middle end of the first layer agitating plate 4-1 and the middle end of the third layer agitating plate 4-5 are rotatably connected to the two central fixed rotating seats 4-4 through a rotating shaft, the two third-layer falling grooves 4-6 are respectively arranged at two ends of the third-layer stirring plate 4-5, and the third-layer connecting seat 4-7 is fixedly connected at the right end of the third-layer stirring plate 4-5.
The sixth specific implementation mode:
as shown in fig. 1 to 12, in this embodiment, a fifth embodiment is further described, wherein the two rotary seal bases 4-8, the two inner rotary shafts 4-9, the two inner hinge tables 4-10, the two outer hinge tables 4-11, the right limit bases 4-12, the right rotary shafts 4-13 and the two right limit sliding wheels 4-14 are respectively and rotatably connected in the two right rotary seal circular grooves 3-7 through the two inner rotary shafts 4-9, the two inner hinge tables 4-10 are respectively and fixedly connected to the left ends of the two rotary seal bases 4-8, the two inner hinge tables 4-10 are respectively and rotatably connected to the first layer of connecting bases 4-3 and the third layer of connecting bases 4-7, the two outer hinge tables 4-11 are respectively and fixedly connected to the right ends of the two rotary seal bases 4-8, the two outer hinged platforms 4-11 are hinged on the right limiting seat 4-12, the right rotating shaft 4-13 is fixedly connected on the right limiting seat 4-12, and the two right limiting sliding wheels 4-14 are respectively and rotatably connected on the right rotating shaft 4-13. In the process that the left and right reciprocating shaking type on-load stirring box 3-1 moves rightwards, the on-load stirring box 3-1 pushes a right rotating shaft 4-13 and two right limiting sliding wheels 4-14 to move rightwards in two right limiting fixed sliding seats 1-5 through two central fixed rotating seats 4-4, so that a right limiting seat 4-12 moves rightwards, two outer hinged platforms 4-11 are stretched to move upwards, two rotating sealing seats 4-8 rotate in two right rotating sealing circular grooves 3-7, two inner hinged platforms 4-10 drive a first layer of connecting seats 4-3 and a third layer of connecting seats 4-7 to move downwards, and a first layer of stirring plate 4-1 and a third layer of stirring plate 4-5 rotate in the two central fixed rotating seats 4-4, the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 are higher left and lower right, and the cement is stirred by the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 and flows on the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 through gravity; on the contrary, when the right-and-left reciprocating shaking type right-and-left carrying stirring box 3-1 moves leftwards, the left-and-right stretching is carried out, so that the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 are higher at the right side and lower at the left side, and further the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 stir and flow the cement in the right-and-left reciprocating shaking type left-and-right carrying stirring box 3-1.
The seventh embodiment:
as shown in fig. 1 to 12, in this embodiment, to further explain the sixth embodiment, the left single-layer pulling agitator 5 includes a second-layer agitating plate 5-1, two second-layer dropping grooves 5-2, a second-layer connecting seat 5-3, a left sealing rotating seat 5-4, a left inner rotating shaft 5-5, a left inner hinge seat 5-6, a left outer hinge seat 5-7, a left limiting seat 5-8, a left rotating shaft 5-9, and two left limiting sliding wheels 5-10, two second-layer dropping grooves 5-2 are respectively disposed at two ends of the second-layer agitating plate 5-1, the second-layer connecting seat 5-3 is fixedly connected to the left end of the second-layer agitating plate 5-1, the middle end of the second-layer agitating plate 5-1 is rotatably connected to two central fixed rotating seats 4-4 through the rotating shaft, the left sealing rotating seat 5-4 is connected in the left rotating sealing circular groove 3-4 in a sealing and rotating mode through the left inner rotating shaft 5-5, the left inner hinging seat 5-6 is fixedly connected at the right end of the left sealing rotating seat 5-4, the left inner hinging seat 5-6 is hinged in the second layer connecting seat 5-3, the left outer hinging seat 5-7 is fixedly connected at the left end of the left sealing rotating seat 5-4, the left sealing rotating seat 5-4 is hinged in the left limiting seat 5-8, the left rotating shaft 5-9 is fixedly connected in the left limiting seat 5-8, and the two left limiting sliding wheels 5-10 are rotatably connected on the left rotating shaft 5-9. Similarly, when the right-and-left reciprocating shaking type load-bearing stirring box 3-1 moves rightwards, the angle of the second layer of stirring plate 5-1 is opposite to that of the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5, the second layer of stirring plate 5-1 is low at the left and high at the right, and when the left-and-right reciprocating shaking type load-bearing stirring box 3-1 moves leftwards, the second layer of stirring plate 5-1 is high at the left and low at the right, so that cement is continuously stirred and flows in the left-and-right reciprocating shaking type load-bearing stirring box 3-1.
The specific implementation mode is eight:
as shown in fig. 1 to 12, in the present embodiment, to further explain the seventh embodiment, the left rotating shaft 5-9 is slidably connected between the two left limit fixed sliders 1-4 through two left limit sliding wheels 5-10. The sliding during the convenient spacing pin-down avoids interfering.
The specific implementation method nine:
as shown in fig. 1 to 12, in the present embodiment, to further describe the eighth embodiment, the right rotating shaft 4-13 is slidably connected between the two right limit fixed sliders 1-5 through two right limit sliding wheels 4-14.
The detailed implementation mode is ten:
as shown in fig. 1 to 12, in the ninth embodiment, the upper end surfaces of the first layer stirring plate 4-1, the second layer stirring plate 5-1 and the third layer stirring plate 4-5 are all U-shaped surfaces from outside to inside. The cement can flow conveniently, and the caking in the flow process is avoided.
The working principle of the invention is as follows: adding cement into a presenting-carrying stirring box 3-1 through a cement adding frame 3-2, enabling the cement to fall on a first layer stirring plate 4-1 in the presenting-carrying stirring box 3-1, and after the cement is fully stacked, enabling the cement to fall into the presenting-carrying stirring box 3-1 through two first layer falling grooves 4-2, two second layer falling grooves 5-2 and two third layer falling grooves 4-6; the driving motor 2-1 is electrically connected to drive the driving turntable 2-2 to rotate, and the driving hinge rod 2-3 drives the rack hinge seat 2-4 and the sliding rack 2-5 to reciprocate left and right in the rack sliding groove 1-6, so as to drive the driving reciprocating rotating gear 2-6 and the driving reciprocating rotating shaft 2-7 to reciprocate left and right in the two rotating shaft fixing tables 2-8; the reciprocating rotary driving reciprocating rotary shaft 2-7 drives the load-bearing stirring box 3-1 to reciprocate left and right through the lower fixed rotary seat 3-6, the load-bearing stirring box 3-1 limits the left and right reciprocating shaking of the load-bearing stirring box 3-1 through the sliding of the four limiting arc-shaped sliding blocks 3-3 in the four inner arc-shaped sliding grooves 1-3, and the downward load-bearing stirring box 3-1 simultaneously receives the protection of shock absorption and buffering in the shaking process through the two lower buffering spring shafts 3-8, the two lower sliding tables 3-9 and the two buffering springs 3-10, so that the device is effectively protected; in the process that the left and right reciprocating shaking type on-load stirring box 3-1 moves rightwards, the on-load stirring box 3-1 pushes a right rotating shaft 4-13 and two right limiting sliding wheels 4-14 to move rightwards in two right limiting fixed sliding seats 1-5 through two central fixed rotating seats 4-4, so that a right limiting seat 4-12 moves rightwards, two outer hinged platforms 4-11 are stretched to move upwards, two rotating sealing seats 4-8 rotate in two right rotating sealing circular grooves 3-7, two inner hinged platforms 4-10 drive a first layer of connecting seats 4-3 and a third layer of connecting seats 4-7 to move downwards, and a first layer of stirring plate 4-1 and a third layer of stirring plate 4-5 rotate in the two central fixed rotating seats 4-4, the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 are higher left and lower right, and the cement is stirred by the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 and flows on the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 through gravity; on the contrary, when the left-and-right reciprocating shaking type load-bearing stirring box 3-1 moves leftwards, the reverse stretching is carried out, so that the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 are higher at the right side and lower at the left side, and further the first layer of stirring plate 4-1 and the third layer of stirring plate 4-5 stir and flow the cement in the left-and-right reciprocating shaking type load-bearing stirring box 3-1; similarly, when the right-and-left reciprocating shaking type load-bearing stirring box 3-1 moves rightwards, the angle between the second layer of stirring plate 5-1 and the first layer of stirring plate 4-1 is opposite to that between the third layer of stirring plate 4-5 and the second layer of stirring plate 5-1 is lower left and higher right, and when the left-and-right reciprocating shaking type load-bearing stirring box 3-1 moves leftwards, the second layer of stirring plate 5-1 is higher left and lower right, so that cement is continuously stirred and flows in the left-and-right reciprocating shaking type load-bearing stirring box 3-1; the device for storing cement is continuously shaken and stirred in a mode of reciprocating shaking and limiting stretching, so that the cement is prevented from being coagulated into blocks; when the cement is shaken, the cement is promoted to continuously flow by using the deviation of the relative angle between the stirring plates at different layers in the cement, so that the flow and the stirring of the cement are promoted; the occupied space is small, the limiting and damping of shaking are effectively carried out, and the continuous use of cement on a construction site is facilitated.
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.