Summary of the invention
The purpose of the present invention is to provide a kind of microorganism fermentation reactors, in the prior art above-mentioned scarce for overcoming
It falls into.
A kind of microorganism fermentation reactor according to the present invention, including apparatus main body and it is set to described device main body top
Feed hopper on end surface, described device main body is interior to be equipped with process chamber, and agitating device is equipped in the process chamber, described to add
The discharge gate for the setting that is connected with the external world is equipped in the bottom end wall of work cavity, be equipped in the top end wall of the process chamber with
Cavity in the feed hopper is connected the feed inlet of setting, further includes being set to the intracorporal charging control machine of described device master
Structure, discharging controller and drying linkage mechanism;
Wherein, the feed control mechanism includes the first cavity and the sliding connection being set on the left of the process chamber
It is set to intracorporal first sliding block of first chamber, the second cavity is equipped on the upside of first cavity, is slided in second cavity
Dynamic to be connected with the second sliding block, the right end of second cavity is connected setting with the feed inlet, second chamber
It is connected between body and first cavity and is equipped with connection sliding slot, is slidably connected with and described first in the connection sliding slot
The connection sliding block that sliding block is connected with the second sliding block secure fit, the connection sliding block screw-internal thread fit are connected with the first spiral shell
Bar, the left distal end of first screw rod connect with the first motor power cooperation being connected on the left of sliding slot in end wall is embedded in admittedly
It connects, recessed channel is equipped in the right end face of first sliding block, is rotatably assorted in the female slot and is connected with adjustment gear, it is described
It is installed with the first cone pulley in the front end face of adjustment gear, the second motor, institute are installed in the left end face of first sliding block
It states to be rotatably assorted in the left side end wall of recessed channel and is connected with first rotating shaft, the left distal end of the first rotating shaft and second electricity
The right end power of machine is cooperatively connected, the right end of the first rotating shaft be installed in the female slot and with it is described
Second cone pulley of the first cone pulley engagement connection, the left distal end of second motor, which has been connected by power, stretches out the first sliding block left side
External key axis outside side end face;
Wherein, the drying linkage mechanism is set to the third cavity on the downside of first cavity and is set to the third chamber
The 4th cavity on the left of body, the right end of the third cavity are connected setting with the process chamber, the third cavity
It is inside installed with heating device, is rotatably assorted between the 4th cavity and the third cavity and is connected with the second shaft, described
The left distal end of two shafts is installed with positioned at the intracorporal third cone pulley of the 4th chamber, and the right end of second shaft is solid
Equipped with the intracorporal fan leaf of third chamber is located at, the top end of the 4th cavity is connected with first cavity to be set
It sets, is connected in the left side end wall of the 4th cavity equipped with guide runner, is slidably connected with slider guide in the guide runner,
Extension spring, the right side of the slider guide are installed between the top end surface of the slider guide and the top end wall of the guide runner
Hingedly it is connected with catch bar between end face and the bottom end face of first sliding block, the below the catch bar the described 4th
The support slipper that left end face is connect with the slider guide secure fit is slidably connected in cavity, the support slipper
Third motor is installed in top end surface, the top end of the third motor, which has been connected by power, stretches out at the top of the support slipper
The 4th cone pulley outside end face, the 4th cone pulley are located at the lower position of the third cone pulley.
Further technical solution, the agitating device include being rotatably assorted to be connected in that the processing cavity is intracorporal to be stirred
Moving part and the stirring motor being fixedly arranged in the end wall of the process chamber right side, the right end and the agitation of the agitation part
The left-hand end power of motor is cooperatively connected, and the extended sieve flitch in left and right is equipped on the downside of the agitation part, the sieve flitch
Left and right sides end is connect with the left hand end wall secure fit of the process chamber respectively.
Further technical solution, the right end of first cavity are connected sliding equipped with storage extended up and down
Chamber and sliding connection are set to the sliding intracavitary lifter slide of the storage, the bottom end for storing sliding chamber with it is described
Third cavity is connected setting, and the sliding intracavitary press of the storage at the top of the lifter slide is connected with top pressure spring, institute
It states and is installed with tooth-strip part in the left end face of lifter slide.
Further technical solution, the discharging controller include being connected to be set on the left of the discharge gate in end wall
Sliding slot, be equipped in the sliding slot and be slidably connected with discharge slide, the left side of the guide runner is equipped with to be extended up and down
The 5th cavity being arranged is rotatably assorted between the 5th cavity and the sliding slot and is connected with the second extended spiral shell of left and right
Bar, the right end of second screw rod protrude into the sliding slot and are threadedly engaged company with the left end face of the discharge slide
It connects, the left distal end of second screw rod is installed with positioned at the intracorporal first pulley of the 5th chamber, the 5th cavity and institute
It states to be rotatably assorted between the first cavity and is connected with internal key external member, the left distal end of the internal key external member is installed with positioned at the described 5th
Intracorporal second belt wheel of chamber, power is connected with transmission belt between the first pulley and second belt wheel.
Further technical solution, the front end face of described device main body is interior to be equipped with the setting that is connected with the third cavity
Air inlet.
Specific embodiment
Below with reference to Fig. 1-2, the present invention is described in detail.
Referring to Fig.1-2, a kind of microorganism fermentation reactor of embodiment according to the present invention, including apparatus main body 6 and
The feed hopper 7 being set in 6 top end surface of described device main body, described device main body 6 is interior to be equipped with process chamber 61, the processing
It is equipped with agitating device in cavity 61, the discharge gate for the setting that is connected with the external world is equipped in the bottom end wall of the process chamber 61
615, the interior feed inlet 611 for being equipped with the setting that is connected with the cavity in the feed hopper 7 of the top end wall of the process chamber 61,
It further include the feed control mechanism being set in described device main body 6, discharging controller and drying linkage mechanism;
Wherein, the feed control mechanism includes being set to first cavity 62 in 61 left side of process chamber and being slidably matched
The first sliding block 621 being connected in first cavity 62 is equipped with the second cavity 68 on the upside of first cavity 62, described
The second sliding block 681, the right end of second cavity 68 and the feed inlet 611 are slidably connected in second cavity 68
Be connected setting, is connected between second cavity 68 and first cavity 62 and is equipped with connection sliding slot 69, and the connection is slided
The connection sliding block connecting with first sliding block 621 and 681 secure fit of the second sliding block is slidably connected in slot 69
691,691 screw-internal thread fit of connection sliding block is connected with the first screw rod 692, the left distal end of first screw rod 692 and solid
693 power of first motor in the connection 69 left side end wall of sliding slot is cooperatively connected, the right-hand end of first sliding block 621
It is equipped with recessed channel 622 in face, is rotatably assorted in the female slot 622 and is connected with adjustment gear 623, the adjustment gear 623
It is installed with the first cone pulley 624 in front end face, the second motor 625 is installed in the left end face of first sliding block 621, it is described
It is rotatably assorted in the left side end wall of recessed channel 622 and is connected with first rotating shaft 626, the left distal end of the first rotating shaft 626 and institute
The right end power for stating the second motor 625 is cooperatively connected, and the right end of the first rotating shaft 626 is installed with positioned at described recessed
Enter the second cone pulley 627 that connection is engaged in slot 622 and with first cone pulley 624, the left distal end of second motor 625 is dynamic
Power is connected with the external key axis 628 stretched out outside 621 left end face of the first sliding block;
Wherein, the drying linkage mechanism is set to the third cavity 64 of 62 downside of the first cavity and is set to described
4th cavity 63 in 64 left side of third cavity, the right end of the third cavity 64 is connected with the process chamber 61 to be set
It sets, heating device 641 is installed in the third cavity 64, rotates and matches between the 4th cavity 63 and the third cavity 64
Conjunction is connected with the second shaft 642, and the left distal end of second shaft 642 is installed with the third in the 4th cavity 63
Cone pulley 643, the right end of second shaft 642 is installed with the fan leaf 644 in the third cavity 64, described
The top end of 4th cavity 63 is connected setting with first cavity 62, is connected in the left side end wall of the 4th cavity 63
It is logical to be equipped with guide runner 67, slider guide 671, the top end surface of the slider guide 671 are slidably connected in the guide runner 67
It is installed with extension spring 672 between the top end wall of the guide runner 67, the right end face of the slider guide 671 and described the
Catch bar 673, the 4th chamber of 673 lower section of catch bar are hingedly connected between the bottom end face of one sliding block 621
The support slipper 631 that left end face is connect with 671 secure fit of slider guide, the support are slidably connected in body 63
Third motor 632 is installed in the top end surface of sliding block 631, the top end of the third motor 632 has been connected by power stretching
The 4th cone pulley 633 outside 631 top end surface of support slipper, the 4th cone pulley 633 are located under the third cone pulley 643
Side position.
Valuably or illustratively, the agitating device includes being rotatably assorted to be connected in the process chamber 61
Agitation part 612 and the stirring motor 613 being fixedly arranged in the 61 right side end wall of process chamber, the right side of the agitation part 612
The left-hand end power of end and the stirring motor 613 is cooperatively connected, and is equipped with what left and right was extended on the downside of the agitation part 612
Flitch 614 is sieved, the left and right sides end of the sieve flitch 614 connects with the left hand end wall secure fit of the process chamber 61 respectively
It connects, to realize that automatic control rapidly and uniformly stirs work, greatly improves drying effect.
Valuably or illustratively, the right end of first cavity 62, which is connected, is equipped with storage extended up and down
Sliding chamber 645 and sliding connection are set to the lifter slide 646 stored in sliding chamber 645, the sliding chamber 645 of storage
Bottom end is connected setting with the third cavity 64, press in the sliding chamber 645 of the storage at 646 top of lifter slide
Be connected with top pressure spring 647, be installed with tooth-strip part 648 in the left end face of the lifter slide 646, thus it is convenient into
Backgauge work is carried out before material, prevents the fertilizer of moisture cake from entering in third cavity 64.
Valuably or illustratively, the discharging controller includes being connected to be set to 615 left-hand end of discharge gate
Sliding slot 66 in wall, sliding interior be equipped with of slot 66 are slidably connected with discharge slide 661, the left side of the guide runner 67
Equipped with the 5th extended up and down cavity 65, it is rotatably assorted between the 5th cavity 65 and the sliding slot 66 and is connected with a left side
The second extended screw rod 662 of the right side, the right end of second screw rod 662 protrude into the sliding slot 66 and with the row
The left end face of material sliding block 661 is threadedly engaged connection, and the left distal end of second screw rod 662 is installed with positioned at the 5th chamber
First pulley 653 in body 65 is rotatably assorted between the 5th cavity 65 and first cavity 62 and is connected with internal key external member
651, the left distal end of the internal key external member 651 is installed with the second belt wheel 652 in the 5th cavity 65, and described first
Power is connected with transmission belt 654 between belt wheel 653 and second belt wheel 652, automatically controls quick discharge to realize
Work, greatly improves the working efficiency of discharge.
Valuably or illustratively, it is equipped in the front end face of described device main body 6 and is connected with the third cavity 64
The air inlet 648 of setting.
When original state, connection sliding block 691 is set to be located at the left-most position in connection sliding slot 69, at this point, by connection sliding block
691 the second sliding blocks 681 of drive are fully located in the second cavity 68, and make connection sliding block 691 that the first sliding block 621 be driven to be located at first
Left-most position in cavity 62 at this point, external key axis 628 and the complete power of internal key external member 651 is made to be cooperatively connected, and is slided by connection
Catch bar 673 on block 691 drives slider guide 671 to overcome the drawing force of extension spring 672, and slider guide 671 is made to be located at guide runner
Lowest position in 67, and drive support slipper 631 to be located at the lowest position in the 4th cavity 63 by slider guide 671, this
When, make the 4th cone pulley 633 utmostly far from third cone pulley 643, in addition, press of the lifter slide 646 by top pressure spring 647
Power protrudes into the bottom end of lifter slide 646 utmostly in third cavity 64, is in close state third cavity 64,
It realizes tentative in use, preventing extraneous moist cavity from entering in process chamber 61;
When it is desired to be used, the fertilizer of dampness is poured into feed hopper 7 and is fallen into process chamber 61 through feed inlet 611, at this point,
The rotation of the first screw rod 692 is controlled by first motor 693, drives connection sliding block 691 to slide into connection sliding slot by the first screw rod 692
Right-most position in 69, and then drive the right end of the second sliding block 681 utmostly to protrude into feed inlet by connection sliding block 691
The closing work of feed inlet 611 is realized in 611, and drives the first sliding block 621 to slide into the first cavity 62 by connection sliding block 691
Right-most position, at this point, making external key axis 628 far from internal key external member 651, and make the top of adjustment gear 623 Yu tooth-strip part 648
Section engagement connection, the drawing force of spring 672 is stretched additionally, due to slider guide 671, slides into slider guide 671 utmostly
Top position in guide runner 67, at this point, driving the 4th cone pulley 633 at 631 top of support slipper to bore with third by slider guide 671
643 at a fully engaged connections are taken turns, the second cone pulley 627 and the rotation of the first cone pulley 624 are then driven by the second motor 625 of control, into
And lifter slide 646 is driven to overcome the pressure on top surface of top pressure spring 647 towards the top side stored in sliding chamber 645 by adjustment gear 623
To sliding, until lifter slide 646 is slid completely into the sliding chamber 645 of storage, at this point, passing through third motor 632 and heating device 641
It opens, rotates the 4th cone pulley 633 of the control of third motor 632 with third cone pulley 643, and then drive fan by the second shaft 642
Leaf 644 rotates, and then the heat that heating device 641 generates is rapidly input in process chamber 61, then by 613 band of stirring motor
Dynamic agitation part 612 rotates, and so that agitation part 612 is smashed and carry out agitation work for the dampness fertilizer in process chamber 61, passes through sieve
The setting of flitch 614 makes bulk dampness fertilizer continue to smash agitation work;After the completion of drying, pass through the second electricity of control
Machine 625 inverts, and makes adjustment gear 623 that lifter slide 646 be driven smoothly to restore to initial position, then passes through first motor
693 control the first screw rod 692 reversions, until connection sliding block 691 restores to initial position, and then make external key axis 628 and internal key set
The fully mated connection again of part 651 is subsequently led at this point, making slider guide 671 that support slipper 631 be driven to restore to initial position
Crossing the second motor 625 drives external key axis 628 to rotate, and then drives the second belt wheel 652 and the second screw rod by internal key external member 651
662, make the second screw rod 662 that discharge slide 661 be driven to be slid completely into sliding slot 66, and then realize the unlatching row of discharge gate 615
Expect work.
The beneficial effects of the present invention are: the configuration of the present invention is simple, easy to operate, the second cone is driven by the second motor of control
Wheel and the first cone pulley positive and negative rotation, and then drive lifter slide to slide towards the sliding intracavitary up and down direction of storage by adjustment gear, energy
That realizes third cavity opens and closes automatically work, facilitates the unlatching and protection work of drying work, passes through first motor control
The first screw rod positive and negative rotation is made, realizes and drives connection sliding block to slide towards the left and right directions in connection sliding slot by the first screw rod, in turn
Realize the open and close work of feed inlet, moreover it is possible to realize that drying linkage mechanism and discharging controller being connected by power and drive
Work, greatly improves work efficiency, alleviates worker's amount of labour.
Those skilled in the art can define, can in the case of not departing from overall spirit of the invention and design
To make the various modifications for above embodiments.It falls within the scope of protection of the present invention.Protection scheme of the invention
It is subject to claims appended hereto.