CN106311023B

CN106311023B - Divide storehouse formula mixer

Info

Publication number: CN106311023B
Application number: CN201610960590.1A
Authority: CN
Inventors: 刘桐溪; 刘展赫; 张亦琴
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-11-04
Filing date: 2016-11-04
Publication date: 2022-02-18
Anticipated expiration: 2036-11-04
Also published as: CN106311023A

Abstract

The invention provides a bin-separating stirrer which comprises a main bin body, wherein a power box is arranged below the main bin body, and a power assembly is arranged in the power box; a partition plate assembly is arranged in the main bin body, the main bin body is divided into two sub-bins by the partition plate assembly, and a stirrer is arranged in each sub-bin; a step hole is formed in the bottom of the main bin body, and the step hole is directly communicated with the interior of the power box from the bottom of the main bin body; a main stirring disc is arranged in the step hole, a stirring disc power column is fixed at the bottom of the main stirring disc, and a stirring disc force guide hole assembled with a partition plate switch rod is arranged in the stirring disc power column; the baffle plate switch rod passes through a stirring disc guide hole arranged on the main stirring disc and is arranged in the stirring disc guide hole, a stirring disc guide groove is also arranged in the stirring disc guide hole, and the stirring disc guide groove is assembled with the switch rod guide sheet; the total stirring disc is provided with a communicating groove and a stirrer mounting hole. The invention can realize bin-separated stirring and simultaneous mixing and stirring of all bins on the same stirrer, greatly facilitates use, and can effectively improve preparation efficiency and product yield.

Description

Divide storehouse formula mixer

Technical Field

The invention relates to a stirrer, in particular to a bin-type stirrer.

Background

In the processes of chemical raw material synthesis and compound material preparation, such as special concrete preparation, cosmetic preparation and the like. When the number of the raw materials is multiple, the raw materials are mixed and then stirred to react to obtain respective intermediates, and then the obtained intermediates are mixed and stirred to react, combine and the like, so as to finally obtain the final product to be prepared.

However, most of the existing mixers have only one bin, that is, one mixer can only mix one mixture or compound at a time. When a plurality of intermediates are prepared by stirring and then the intermediates are mixed and stirred, a plurality of stirrers are needed to be used, and all the intermediates are taken out and put into the same stirrer to be stirred and mixed. In this process, since the intermediate is taken out, the environment of the intermediate is greatly changed when the intermediate is taken out, which greatly increases the rejection rate of the product and the failure rate of the preparation.

The applicant has therefore considered that it is possible to design a mixer having a plurality of mixing chambers, which allows the intermediate to be produced simultaneously in the plurality of mixing chambers and to be mixed and stirred directly in the mixer after the intermediate has been produced.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, an object of the present invention is to provide a bin-type agitator having a plurality of agitating bins, which can mix and agitate the respective intermediates directly in the agitator after the intermediates are produced.

In order to achieve the purpose, the invention provides a bin-separating type stirrer which comprises a main bin body, wherein a power box is arranged below the main bin body, and a power assembly is arranged in the power box;

the main bin body is internally provided with a partition plate assembly, the partition plate assembly divides the main bin body into two sub-bins, and each sub-bin is internally provided with a stirrer;

the bottom of the main bin body is provided with a step hole, and the step hole is directly communicated with the interior of the power box from the bottom of the main bin body; a main stirring disc is arranged in the step hole, and the partition plate assembly and the stirrer are both arranged on the main stirring disc;

a stirring disc power column is fixed at the bottom of the main stirring disc, and a stirring disc force guide hole assembled with a partition plate switch rod is formed in the stirring disc power column; the baffle plate switch rod penetrates through a stirring disc guide hole formed in the main stirring disc and is arranged in a stirring disc guide hole, a stirring disc guide groove is further formed in the stirring disc guide hole, the stirring disc guide groove is assembled and matched with a switch rod guide sheet, and the baffle plate switch rod can slide up and down in the stirring disc guide hole;

the diameter of the force guide hole of the stirring disc is not smaller than the diameter of the switch rod of the clapboard, including the guide sheet of the switch rod;

the length of the switch rod guide piece on the partition plate switch rod is not more than the height of the stirring disc guide groove, and the switch rod guide piece is completely separated from the stirring disc guide groove after the movable partition plate completely enters the partition plate installation cavity;

the main stirring disc is provided with a communicating groove and a stirrer mounting hole;

the stirrer comprises a stirring blade part and a stirring installation cylinder; the stirring installation cylinder is arranged in the stirrer installation hole, so that the stirrer is assembled on the main stirring disc;

a stirring power inner hole is formed in the stirring installation cylinder, and a stirring guide groove is formed in the stirring power inner hole;

the stirring power hole lead the assembly of power section of thick bamboo with the stirring, the stirring lead the power section of thick bamboo outer wall on be equipped with stirring guide way complex stirring guide block, the stirring lead the power section of thick bamboo can slide from top to bottom in the stirring power hole.

As a further improvement of the invention, the clapboard component comprises a fixed clapboard, a clapboard installation cavity is arranged in the fixed clapboard, two movable clapboards are arranged in the clapboard installation cavity, the end surface of one end of the movable clapboard, which is arranged in the clapboard installation cavity, is hinged with one end of a movable pull rod of the clapboard through a hinge, and the other end of the movable pull rod of the clapboard is hinged with the top of a clapboard switch rod; the baffle switch rod is provided with a switch rod guide sheet; and a partition sealing ring is arranged at the contact part of the partition mounting cavity and the movable partition.

As a further improvement of the invention, a mud scraper is arranged in the partition plate mounting cavity in front of an opening at one end of the movable partition plate, a mud scraping inclined plane is arranged on the mud scraper, the mud scraping inclined plane inclines towards the extending direction of the movable partition plate, and the lowest part of the mud scraping inclined plane is tightly attached to the movable partition plate.

As a further improvement of the invention, the bottom of the movable clapboard is provided with a clapboard guide groove which is matched with a clapboard guide block arranged on the main stirring disc.

As a further improvement of the invention, the inner wall of the total bin body is provided with a bin body partition groove, and the movable partition board extends into the bin body partition groove to ensure that the two sub-bins are thoroughly separated and are not communicated with each other.

As a further improvement of the invention, the power assembly comprises a stirring power motor, an extension shaft of the stirring power motor is connected with a first stirring force guide shaft, a first belt wheel is mounted on the first stirring force guide shaft, and the first belt wheel is connected with a second belt wheel mounted on a second stirring force guide shaft through a first belt to form a belt transmission structure;

a twelfth belt wheel is arranged on the second stirring force guide shaft, and the twelfth belt wheel is connected with an eleventh belt wheel arranged on a sixth stirring force guide shaft through a fifth belt to form a belt transmission structure; a ninth belt wheel and an eighth belt wheel are further arranged on the sixth stirring force guide shaft;

the eighth belt wheel is connected with the seventh belt wheel through a third belt to form a belt transmission structure, the seventh belt wheel is arranged on a fifth stirring guide shaft of a stirrer power system, the stirrer power system is used for providing power for a stirrer, and two stirrer power systems which are one-touch-same are arranged;

the ninth belt wheel and the tenth belt wheel are connected through a fourth belt to form a belt transmission structure, and the tenth belt wheel is installed on a fifth stirring force guide shaft of another stirrer power system;

a fifth stirring worm section is arranged on the fifth stirring force guide shaft, the fifth stirring worm section is matched with a stirrer worm wheel to form a worm gear structure, the stirrer worm wheel is arranged on the stirrer force guide rod, worm gear shifting rings are arranged on the stirrer force guide rod on the parts of the upper side and the lower side of the stirrer worm wheel, a shifting power ring is arranged on the worm gear shifting ring, and the shifting power ring is screwed and assembled on the stirrer shifting shaft through threads;

the top of the stirrer guide rod penetrates through a fixing plate mounting hole in the fixing plate, a fixing plate guide groove is formed in the fixing plate mounting hole, and the fixing plate guide groove is assembled with the stirring guide block;

the top of the stirrer force guide rod is provided with a force guide rod threaded section, and the force guide rod threaded section is arranged in an inner hole of the stirring force guide cylinder;

the bottom of the inner hole of the stirring force guide cylinder is provided with an inner hole thread section which can be screwed with the force guide rod thread section, and the length of the force guide rod thread section is at least greater than 2/3 of the inner hole thread section; when the stirrer guide rod drives the stirrer to rotate, the thread section of the inner hole is not mutually screwed with the thread section of the guide rod.

As a further improvement of the invention, the power assembly further comprises a gear shifting assembly, the gear shifting assembly comprises a gear shifting power motor, an output shaft of the gear shifting power motor is connected with a gear shifting power shaft, a fifth belt wheel, a fourth belt wheel and a thirteenth belt wheel are mounted on the gear shifting power shaft, and the top of the gear shifting power shaft penetrates through a power column inner hole of the stirring disc power column and is assembled with a switch rod inner hole of the partition plate switch rod in a screwing manner through threads;

the fourth belt wheel is connected with the third belt wheel through a second belt to form a belt transmission structure, and the third belt wheel is arranged on a stirrer shift shaft of a stirrer power system;

the fifth belt wheel is connected with a sixth belt wheel through a sixth belt to form a belt transmission structure, and the sixth belt wheel is installed on another stirrer shifting shaft of the stirrer power system;

the thirteenth belt wheel is connected with the fourteenth belt wheel through a seventh belt to form a belt transmission structure, the fourteenth belt wheel is installed on a push plate driving shaft, the push plate driving shaft is matched with a push plate power shaft worm wheel on a push plate power shaft through a push plate driving shaft worm section to form a worm and gear transmission structure, and the outer wall of the push plate power shaft is provided with threads, penetrates through the gear shifting push plate and is screwed with the gear shifting push plate through the threads;

the second stirring force guide shaft also penetrates through the gear shifting baffle, a thrust ball bearing and a main stirring disc driving worm wheel are further mounted on the second stirring force guide shaft, and two outer rings of the thrust ball bearing are respectively connected and fixed with the main stirring disc driving worm wheel and the gear shifting baffle;

the total stirring disk driving worm wheel is matched with a worm section of the stirring disk power column on the stirring disk power column to form a worm and gear transmission structure.

As a further improvement of the invention, two fixed plates are provided with induction half-tanks, and two induction blocks are arranged at the positions of the total stirring disc corresponding to the induction half-tanks;

the two induction blocks are provided with induction through holes, the positions of the induction through holes on the two induction blocks are different, the side wall of the induction half-groove is provided with a laser inductor, and light beams of the laser inductor can directly pass through the induction through holes;

the laser sensor is connected with a central control host, and the central control host is used for controlling the electric system, the stirring power motor, the gear shifting power motor and the laser sensor.

As a further improvement of the invention, a high-pressure gas hood is arranged on the main stirring disc, the high-pressure gas hood completely covers the communicating groove and is communicated with the communicating groove, the high-pressure gas hood is communicated with a gas valve assembly through a gas pipe, and the gas valve assembly is communicated with the high-pressure gas bag through the gas pipe.

As a further improvement of the invention, the high-pressure air bag, the air valve assembly and the high-pressure air cover are all fixed on the general stirring plate.

As a further improvement of the invention, the gas in the high-pressure air bag can be protective gas or inert gas, and is used for preventing parts in the clapboard mounting cavity from rusting, corroding and the like.

As a further improvement of the invention, the assembly structure of the thread section of the force guide rod and the stirring force guide cylinder can be replaced by: the top of the thread section of the force guide rod is provided with a screwing head, the bottom of the stirring force guide cylinder is provided with a screwing convex ring, the thread section of the force guide rod penetrates through an inner hole of the stirring force guide cylinder, and the screwing head is arranged in the stirring force guide cylinder;

the screwing head is assembled with the inner hole thread section in a screwing mode through threads, and the screwing convex ring is assembled with the force guide rod thread section in a screwing mode through threads.

The invention has the beneficial effects that:

1. the invention can realize bin-separated stirring and mixing and stirring of each bin on the same stirrer, greatly facilitates the use of users, can also effectively improve the preparation efficiency, the product yield and the product quality, and has higher economic value and market promotion prospect.

The power assembly can realize automatic switching between sub-bin stirring and total bin stirring, so that the product is more convenient and rapid to use, and is particularly suitable for a stirring process in a compound preparation process.

The movable partition plate of the partition plate assembly can automatically stretch and retract along with the stirring switching of the sub-bin body and the main bin body, the product automation is high, and the operation efficiency can be greatly improved.

The high-pressure gas hood is additionally arranged, liquid materials in the partition board mounting cavity are prevented from entering the partition board mounting cavity by improving the air pressure in the partition board mounting cavity, the liquid invasion prevention effect of the partition board mounting cavity is greatly improved, and the service life of each part in the partition board mounting cavity is effectively prolonged.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a bin-divided blender according to the present invention.

FIG. 2 is a schematic structural diagram of an embodiment of the bin-divided blender of the present invention.

FIG. 3 is a schematic diagram of a baffle assembly of an embodiment of the bin-divided blender of the present invention.

Fig. 4 is an enlarged view of fig. 3 at F1.

FIG. 5 is a schematic structural diagram of an embodiment of the bin-divided blender of the present invention.

FIG. 6 is a schematic diagram of a power assembly of an embodiment of the bin-divided blender of the present invention.

FIG. 7 is a schematic diagram of a power assembly of an embodiment of the bin-divided blender of the present invention.

FIG. 8 is a schematic diagram of a power assembly of an embodiment of the bin-divided blender of the present invention.

FIG. 9 is a schematic diagram of a power assembly of an embodiment of the bin-divided blender of the present invention.

FIG. 10 is a sectional view of a bin-type blender according to an embodiment of the present invention.

FIG. 11 is a partial cross-sectional view of a bin-type blender according to an embodiment of the present invention.

FIG. 12 is a front view of an embodiment of a split-bin blender of the present invention.

FIG. 13 is a schematic view of the overall structure of the bin-divided blender according to the embodiment of the present invention.

FIG. 14 shows an improved structure of the force-guiding rod thread segment and the stirring force-guiding barrel of the embodiment of the invention.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

referring to fig. 1, the bin-split blender comprises a main bin body 101, wherein a power box 102 is arranged below the main bin body 101, and a power assembly 400 is arranged in the power box 102;

the total bin body 101 is internally provided with a partition plate assembly 200, the total bin body is divided into two sub-bins by the partition plate assembly 200, and each sub-bin is internally provided with a stirrer 300.

Referring to fig. 2 to 5, the partition assembly 200 includes a fixed partition 201, a partition mounting cavity 2011 is formed in the fixed partition 201, two movable partitions 203 are mounted in the partition mounting cavity 2011, the end faces of the movable partitions mounted in one end of the partition mounting cavity 2011 are respectively hinged to one end of a partition movable pull rod 204 through hinges, the other end of the partition movable pull rod 204 is hinged to the top of a partition switch rod 206, and when the partition switch rod 206 moves up and down, the movable partitions 203 can be driven to slide in the partition mounting cavity 2011;

the partition switch rod 206 is provided with a switch rod guide sheet 2061;

to prevent the stirred liquid from entering diaphragm mounting cavity 2011, diaphragm seal 207 may be disposed in diaphragm mounting cavity 2011 at the location where it contacts movable diaphragm 203.

Further, in order to prevent the movable partition 203 from bringing an externally stirred particle object, viscous object, or the like to the partition sealing ring 207 when retracting into the partition mounting cavity 2011, the scraper 202 may be mounted in the partition mounting cavity 2011 before the opening at the end where the movable partition 203 is mounted, the scraper 202 is provided with a sludge scraping slope 2021, and the sludge scraping slope 2021 is inclined in the extending direction of the movable partition 203 and the lowest portion of the sludge scraping slope 2021 is tightly attached to the movable partition 203. Before the movable partition board retracts into the partition board installation cavity 2011, foreign matters on the movable partition board 203 are scraped by the mud scraping slope 2021.

Further, in order to prevent the movable partition from deviating when it stretches, a partition guide groove 2031 may be provided at the bottom of the movable partition 203, and the partition guide groove 2031 cooperates with a partition guide block 1031 provided on the main agitator disk 103. When in use, the movable partition 203 can be stretched and retracted on a straight line all the time under the action of the partition guide block 1031.

Further, in order to make the movable partition plate 203 more thoroughly divide the two sub-compartments and prevent the two sub-compartments from being communicated with each other, a compartment body partition groove 1011 may be provided on the inner wall of the main compartment body 101, and the movable partition plate 203 extends into the compartment body partition groove 1011 to completely separate the two sub-compartments without being communicated with each other.

The bottom of the main bin body 101 is provided with a step hole 1012, and the step hole 1012 is directly communicated with the interior of the power box 102 from the bottom of the main bin body 101;

the general stirring disc 103 is installed in the stepped hole 1012, and the partition plate assembly 200 and the stirrer 300 are both installed on the general stirring disc 103.

A stirring disc power column 401 is fixed at the bottom of the main stirring disc 103, and a stirring disc force guide hole 4011 assembled with the partition plate switch rod 206 is formed in the stirring disc power column 401; the partition switch rod 206 passes through the stirring disk guide holes 1037 arranged on the main stirring disk 103 and is installed in the stirring disk guide holes 4011, the stirring disk guide holes 1037 are also provided with stirring disk guide grooves 10371, the stirring disk guide grooves 10371 are assembled and matched with the switch rod guide sheet 2061, and the partition switch rod 206 can slide up and down in the stirring disk guide holes 1037;

the diameter of the stirring disc force guide hole 4011 is not less than the diameter of the partition plate switch rod 206 comprising the switch rod guide sheet 2061;

the length of the switch rod guide 2061 on the partition switch rod 206 should not be greater than the height of the agitator disk guide 10371, and the switch rod guide 2061 should be completely separated from the agitator disk guide 10731 after the movable partition 203 completely enters the partition installation cavity 2011.

Referring to fig. 2, 5 and 10, the general stirring board 103 is provided with a communication groove 1032 and a stirrer mounting hole 1033;

the stirrer 300 comprises a stirring blade part 301 and a stirring installation cylinder 302; the agitator mounting cylinder 302 is fitted into the agitator mounting hole 1033 so that the agitator 300 is fitted to the overall agitator disk 103.

A stirring power inner hole 3021 is formed in the stirring mounting cylinder 302, and a stirring guide groove 3022 is formed in the stirring power inner hole 3021;

the stirring power inner hole 3021 is assembled with the stirring power guide cylinder 303, the outer side wall of the stirring power guide cylinder 303 is provided with a stirring guide block 3031 matched with the stirring guide groove 3022, and the stirring power guide cylinder 303 can slide up and down in the stirring power inner hole 3021.

Referring to fig. 2, 5-13, the power assembly 400 includes a stirring power motor 501, an extending shaft of the stirring power motor 501 is connected to a first stirring power guiding shaft 601, a first pulley 701 is mounted on the first stirring power guiding shaft 601, and the first pulley 701 is connected to a second pulley 702 mounted on a second stirring power guiding shaft 602 through a first belt 801 to form a belt transmission structure;

a twelfth belt wheel 712 is mounted on the second stirring force guiding shaft 602, and the twelfth belt wheel 712 is connected with an eleventh belt wheel 711 mounted on the sixth stirring force guiding shaft 606 through a fifth belt 805 to form a belt transmission structure; a ninth belt wheel 709 and an eighth belt wheel 708 are further mounted on the sixth stirring force guide shaft 606;

the eighth belt wheel 708 is connected with a seventh belt wheel 707 through a third belt 803 to form a belt transmission structure, the seventh belt wheel 707 is installed on a fifth stirring guide shaft 605 of a stirrer power system, the stirrer power system is used for providing power for the stirrer 300, and two stirrers are provided, so that two stirrer power systems are provided;

the ninth belt wheel 709 and the tenth belt wheel 710 are connected through a fourth belt 804 to form a belt transmission structure, and the tenth belt wheel 710 is installed on a fifth stirring force guiding shaft 605 of another stirrer power system;

the fifth stirring force guide shaft 605 is provided with a fifth stirring worm section 6051, the fifth stirring worm section 6051 is matched with a stirrer worm wheel A02 to form a worm gear structure, the stirrer worm wheel A02 is installed on the stirrer force guide rod 403, worm gear shifting toggle rings 903 are arranged on the parts of the upper side and the lower side of the stirrer worm wheel A02 on the stirrer force guide rod 403, a shifting power ring 9031 is arranged on the worm gear shifting toggle ring 903, and the shifting power ring 9031 is screwed and assembled on the stirrer shifting shaft 404 through threads. When the mixer shift shaft 404 rotates, the shift power ring 9031 can be driven to move in the axial direction of the mixer shift shaft 404, which can control the mixer worm wheel a02 to engage with or disengage from the mixer force guiding rod 403, that is, can control the on/off of the driving force of the fifth mixer force guiding shaft 605 on the mixer force guiding rod 403.

The top of the stirrer guide rod 403 passes through a fixing plate mounting hole 1042 on the fixing plate 104, a fixing plate guide slot 1043 is arranged in the fixing plate mounting hole 1042, and the fixing plate guide slot 1043 can be assembled with the stirring guide block 3031;

a force guide rod thread section 4031 is arranged at the top of the stirrer force guide rod 403, and the force guide rod thread section 4031 is installed in a stirring force guide cylinder inner hole 3033 of the stirring force guide cylinder 303;

an inner hole thread section 3032 which can be screwed with the force guide rod thread section 4031 is arranged at the bottom of an inner hole 3033 of the stirring force guide cylinder, and the length of the force guide rod thread section 4031 is at least greater than 2/3 of the inner hole thread section 3032. When the stirrer force guide rod 403 drives the stirrer 300 to rotate, the internal bore thread segment 3032 and the force guide rod thread segment 4031 are not screwed with each other. When the stirrer 300 is not used, the stirrer force guide rod 403 can be rotated in the opposite direction, the rotation direction of the stirrer force guide rod 403 should be the mutual screwing direction of the internal threaded bore segment 3032 and the force guide rod threaded segment 4031, and at this time, the stirring force guide cylinder 303 falls under the action of gravity and enables the internal threaded bore segment 3032 to be in contact with and screwed to the force guide rod threaded segment 4031. When the internal bore thread segment 3032 and the force guide rod thread segment 4031 are completely screwed, the stirring force guide cylinder 303 is completely separated from the stirring power internal bore 3021 and is installed in the fixing plate installation hole 1042. The main stirring disc 103 can be driven by the stirring disc power column 401 to rotate.

Referring to fig. 14, the structure shown is an improved structure of a force guide rod thread section 4031 and a stirring force guide cylinder 303, a screwing head 4032 is arranged at the top of the force guide rod thread section 4031, a screwing convex ring 3033 is arranged at the bottom of the stirring force guide cylinder 303, and the force guide rod thread section 4031 penetrates through an inner hole of the stirring force guide cylinder 303 and the screwing head 4032 is installed in the stirring force guide cylinder 303;

the screwing head 4032 and the inner hole thread section 3032 are assembled in a screwing mode through threads, the screwing convex ring 3033 and the force guide rod thread section 4031 are assembled in a screwing mode through threads, and the screwing directions of the threads are the same.

When the stirring force guide cylinder 303 needs to be lifted, the force guide rod thread section 4031 and the stirring force guide cylinder 303 only need to be screwed and closed through the thread to move up and down by rotating the force guide rod thread section 4031. When the mixing guide 303 drives the mixer 300, the guide screw thread 4031 and the mixing guide 303 are screwed together, so that the guide screw thread 4031 can completely drive the mixing guide 303.

Further, in order to prevent the situation that the stirring force guiding cylinder 303 and the stirring force inner hole 3021 are not aligned with each other after the total stirring disk rotates, so that the stirring force guiding cylinder 303 cannot be inserted into the stirring force inner hole 3021, and the stirrer 300 cannot be driven by the stirrer force guiding rod 403. An induction half-tank 1041 can be arranged on the two fixing plates 104, and two induction blocks 107 are arranged at the positions of the total stirring plate 103 corresponding to the induction half-tank 1041;

the two induction blocks 107 are provided with induction through holes 1071, the positions of the induction through holes on the two induction blocks 107 are different, the side wall of the induction half-groove 1041 is provided with a laser inductor 105, and the light beam of the laser inductor can directly pass through the induction through holes 1071;

the laser sensor 105 is connected to a central control host, which is used to control the electrical system, the stirring power motor 501, the gear shifting power motor 502, the laser sensor, etc. of the present invention.

When the total agitator disk 103 rotates, the total agitator disk stops rotating only when both the light beams of the two laser sensors 105 can pass through the sensing through-hole 1071. Because the two sensing through holes are different in position, the position of the total stirring disc 103 is unique when the light beams of the two laser sensors 1071 pass through the sensing through holes 1071, and the stirring force guide cylinder 303 and the stirring power inner hole 3021 can be just opposite to each other, so that the stirring force guide cylinder 303 can be installed in the stirring power inner hole 3021 again.

The power assembly 400 further comprises a gear shifting assembly, the gear shifting assembly comprises a gear shifting power motor 502, an output shaft of the gear shifting power motor 502 is connected with a gear shifting power shaft 402, a fifth belt pulley 705, a fourth belt pulley 704 and a thirteenth belt pulley 713 are mounted on the gear shifting power shaft 402, and the top of the gear shifting power shaft 402 penetrates through a power column inner hole 4012 of the stirring disc power column 401 and is assembled with a switch rod inner hole of the partition plate switch rod 206 in a screwing mode through threads. When the shifting power motor 502 rotates, if the rotation direction is the screwing direction of the shifting power shaft 402 and the switch rod inner hole, the partition switch rod 206 will move downward under the action of the shifting power shaft 402, otherwise, the partition switch rod 206 moves upward.

The fourth belt pulley 704 is connected with a third belt pulley 703 through a second belt 802 to form a belt transmission structure, and the third belt pulley 703 is installed on a stirrer shift shaft 404 of a stirrer power system;

the fifth belt wheel 705 is connected with a sixth belt wheel 706 through a sixth belt 806 to form a belt transmission structure, and the sixth belt wheel 706 is installed on the other stirrer shifting shaft 404 of the stirrer power system;

the thirteenth belt wheel 713 is connected with the fourteenth belt wheel 714 through a seventh belt 807 to form a belt transmission structure, the fourteenth belt wheel 714 is installed on the push plate driving shaft 405, the push plate driving shaft 405 is matched with a push plate power shaft worm wheel 6041 on the push plate power shaft 604 through a push plate driving shaft worm section to form a worm and gear transmission structure, and the outer wall of the push plate power shaft 604 is provided with threads, penetrates through the gear shifting push plate 901 and is screwed with the gear shifting push plate 901 through the threads;

the second stirring force guiding shaft 602 also penetrates through the shifting baffle 901, a thrust ball bearing 902 and a total stirring disk driving worm wheel A01 are further mounted on the second stirring force guiding shaft 602, and two outer rings of the thrust ball bearing 902 are respectively connected and fixed with the total stirring disk driving worm wheel A01 and the shifting baffle 901;

the total stirring disk driving worm wheel A01 is matched with the stirring disk power column worm section on the stirring disk power column 401 to form a worm gear transmission structure.

During the use, drive push pedal power axle 604 through push pedal drive axle 405 and rotate, can drive the axial of push pedal power axle 604 of push pedal 901 removal of shifting when push pedal power axle 604 rotates, will drive always stir a set drive worm wheel A01 and remove when the push pedal 901 that shifts removes, this just can realize that second stirring guide shaft 602 is to stirring the cutting off and the intercommunication of set power column 401 drive power with the rotation of control total agitator disk 103.

In an initial state, the movable partition plate 203 is matched with the bin body partition groove 1011 to divide the total bin body 101 into two parts, the power system of the stirrer operates, and the total stirring disk drives the worm gear A01 to be separated from the stirring disk power column 401, namely, the driving force of the second stirring guide shaft 602 on the stirring disk power column 401 is cut off; at this time, the five agitator worm segments 6051 cooperate with the agitator worm gear a02 to form a worm gear drive. Then the stirring power motor 501 rotates, the stirring power motor 501 drives the second stirring force guiding shaft 602 to rotate through the first belt 701, the second stirring force guiding shaft 602 drives the sixth stirring force guiding shaft 606 to rotate through the fifth belt 805, the sixth stirring force guiding shaft 606 drives the fifth stirring force guiding shaft 605 of the stirrer power system to rotate through the third belt 803 and the fourth belt 804, the fifth stirring force guiding shaft 605 drives the stirrer force guiding rod 403 to rotate through the cooperation of the fifth stirring worm section 6051 and the stirrer worm wheel a02, the stirrer force guiding rod 403 drives the stirrer 300 to rotate through the stirring force guiding cylinder 303, and when the stirrer 300 rotates, the materials in the sub-bins are stirred.

When two sub-bins need to be combined, namely, when the main stirring plate 103 is used for stirring, firstly, the central control host controls the stirring power motor 501 to reversely rotate, at this time, the stirring force guide cylinder 303 is screwed on the force guide rod thread section 4031 through threads and is separated from the stirring power inner hole 3021, after the stirring force guide cylinder 303 is separated from the stirring power inner hole 3021, the central control host controls the shifting power motor 502 to rotate, and the shifting power motor 502 respectively drives the two stirrer shifting shafts 404 and the push plate driving shaft 405 to rotate through the second belt 802, the sixth belt 806 and the seventh belt 807;

when the stirrer shifting shaft 404 rotates, the worm gear shifting ring 903 is driven to axially move, and finally the worm gear shifting ring 903 drives the stirrer worm gear a02 to separate from the fifth stirring guide shaft 605, so that the power transmitted from the fifth stirring guide shaft 605 to the stirrer guide rod 403 is cut off;

meanwhile, the push plate driving shaft 405 drives the push plate power shaft 604 to rotate, and the push plate power shaft 604 can push the main stirring disk driving worm wheel a01 to be matched with the stirring disk power column worm section on the stirring disk power column 401, namely, the power of the second stirring guide shaft 602 to the stirring disk power column 401 is communicated;

meanwhile, the shifting power shaft 402 drives the partition switch rod 206 to move downwards until the movable partition 203 is completely retracted into the partition mounting cavity 2011.

And finally, the fixed partition plate is equivalent to the stirring blade of the total bin body, and the fixed partition plate is driven to rotate by the rotation of the total stirring disc, so that the materials in the total bin body are stirred.

Referring to fig. 13, further, in order to prevent materials such as liquid in the main bin body from breaking through the partition sealing ring 207 and entering the partition mounting cavity 2011, a high-pressure air hood a11 may be disposed on the main stirring board 103, the high-pressure air hood a11 completely covers the communication groove 1032 and is communicated with the communication groove 1032, the high-pressure air hood is communicated with an air valve assembly a10 through an air pipe, and the air valve assembly is communicated with a high-pressure air bag a12 through an air pipe;

the high-pressure air bag A12, the air valve assembly A10 and the high-pressure air cover A11 are all fixed on the general stirring plate 103.

During the use, high-pressure gas in the high-pressure gasbag A12 passes through air valve assembly A10 and gets into high-pressure gas cover A11, because high-pressure gas cover A11 and intercommunication groove 1032 intercommunication, so high-pressure gas can fill in whole baffle installation cavity 2011 to make the atmospheric pressure in the baffle installation cavity 2011 need be greater than the atmospheric pressure outside the baffle installation cavity 2011 or the hydraulic pressure of liquid material, this material that just makes outside the baffle installation cavity 2011 can't get into baffle installation cavity 2011.

The air valve assembly A10 has the function that when the air pressure in the high-pressure air cover A11 is smaller than the air pressure in the high-pressure air bag A12, the air valve assembly A10 is opened, so that the high-pressure air in the high-pressure air bag A12 enters the high-pressure air cover to supplement the air pressure in the high-pressure air cover. When the air pressure in the high-pressure air cover is not less than the air pressure in the high-pressure air bag, the air valve assembly is closed. The air valve assembly can be replaced by a pressure stabilizing valve or a pressure reducing valve.

The foregoing detailed description of the preferred embodiments of the invention has been presented. It should be understood that numerous modifications and variations could be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions available to those skilled in the art through logic analysis, reasoning and limited experiments based on the prior art according to the concept of the present invention should be within the scope of protection defined by the claims.

Claims

1. A bin-separating stirrer comprises a main bin body, wherein a power box is arranged below the main bin body, and a power assembly is arranged in the power box; the method is characterized in that:

the stirring power inner hole is assembled with the stirring force guide cylinder, the outer side wall of the stirring force guide cylinder is provided with a stirring guide block matched with the stirring guide groove, and the stirring force guide cylinder can slide up and down in the stirring power inner hole;

the partition plate assembly comprises a fixed partition plate, a partition plate installation cavity is formed in the fixed partition plate, two movable partition plates are installed in the partition plate installation cavity, the end face of one end, installed in the partition plate installation cavity, of each movable partition plate is hinged to one end of a partition plate movable pull rod through a hinge, and the other end of each partition plate movable pull rod is hinged to the top of a partition plate switch rod; the baffle switch rod is provided with a switch rod guide sheet; a partition plate sealing ring is arranged at the contact part of the partition plate mounting cavity and the movable partition plate;

the inner wall of the main bin body is provided with a bin body partition groove, and the movable partition board extends into the bin body partition groove to enable the two sub-bins to be thoroughly separated and not communicated with each other.

2. The bin-type mixer of claim 1 wherein: install the mud scraper before the opening of installing movable partition one end at the baffle installation cavity, the mud scraper on be equipped with and scrape the mud inclined plane, scrape the mud inclined plane and stretch out the slope and the lower department pastes tight movable partition to the movable partition.

3. The bin-type mixer of claim 1 wherein: and a partition guide groove is formed in the bottom of the movable partition and is matched with a partition guide block arranged on the main stirring disc.

4. The bin-type mixer of claim 1 wherein: the power assembly comprises a stirring power motor, an extension shaft of the stirring power motor is connected with a first stirring force guide shaft, a first belt wheel is mounted on the first stirring force guide shaft, and the first belt wheel is connected with a second belt wheel mounted on a second stirring force guide shaft through a first belt to form a belt transmission structure;

5. The bin-type mixer of claim 4 wherein: the power assembly further comprises a gear shifting assembly, the gear shifting assembly comprises a gear shifting power motor, an output shaft of the gear shifting power motor is connected with a gear shifting power shaft, a fifth belt wheel, a fourth belt wheel and a thirteenth belt wheel are mounted on the gear shifting power shaft, and the top of the gear shifting power shaft penetrates through an inner hole of a power column of the stirring disc power column and is assembled with an inner hole of a switch rod of the partition plate switch rod in a screwing mode through threads;

6. A bin-type agitator as claimed in claim 4 or 5, wherein: an induction half groove is arranged on the two fixed plates, and two induction blocks are arranged at the positions of the main stirring disc corresponding to the induction half groove;

the laser sensor is connected with the central control host which is used for controlling the stirring power motor, the gear shifting power motor and the laser sensor.

7. A bin-type agitator as claimed in claim 4 or 5, wherein: the main stirring disc is provided with a high-pressure gas cover, the high-pressure gas cover completely covers the communicating groove and is communicated with the communicating groove, the high-pressure gas cover is communicated with the air valve assembly through an air pipe, and the air valve assembly is communicated with the high-pressure air bag through the air pipe.

8. The bin-type mixer of claim 4 wherein: the assembly structure of the thread section of the force guide rod and the stirring force guide cylinder can be replaced by: the top of the thread section of the force guide rod is provided with a screwing head, the bottom of the stirring force guide cylinder is provided with a screwing convex ring, the thread section of the force guide rod penetrates through an inner hole of the stirring force guide cylinder, and the screwing head is arranged in the stirring force guide cylinder;