CN110777072A

CN110777072A - Intermittent stirring formula enzymolysis device

Info

Publication number: CN110777072A
Application number: CN201911136683.2A
Authority: CN
Inventors: 涂新霞; 王文国
Original assignee: 涂新霞
Current assignee: Chongqing Jize Biotechnology Co.,Ltd.
Priority date: 2019-11-19
Filing date: 2019-11-19
Publication date: 2020-02-11
Anticipated expiration: 2039-11-19
Also published as: CN110777072B

Abstract

The invention discloses an intermittent stirring type enzymolysis device, which comprises a shell, wherein a stirring cavity is arranged in the shell, the inner wall of the upper side of the stirring cavity is provided with a timing shell, the inner wall of the upper side of the timing cavity is provided with a timing component, the invention adopts the design that whether 3 meshing gears arranged on a groove disc in an annular array are meshed with the stirring gears or not, realizes the timing function of the stirring of the enzymolysis equipment, adopts the design that whether a judgment gear is meshed with a main gear and a secondary gear or not, realizes the transmission function no matter which air pressure is high between the stirring cavity and the judgment cavity, adopts the design of vent holes, when the connecting rod drives the vent plug to move upwards, the circulation of gas is realized, the balance of air pressure is realized, the current situation that most enzymolysis devices do not have an intermittent stirring function at present and do not have the air pressure balance function for ensuring the safety of the enzymolysis devices is improved.

Description

Intermittent stirring formula enzymolysis device

Technical Field

The invention relates to the field of stirring enzymolysis, in particular to an intermittent stirring type enzymolysis device.

Background

The enzymolysis device is widely applied to the fields of textile dyeing and finishing, enzymolysis conversion of protein, biodegradable wastewater and the like because of good enzymolysis environment, high-efficiency enzymolysis rate and excellent catalysis speed, the enzymolysis devices on the market at present have a stirring function, so that the enzymolysis reaction is carried out more quickly and efficiently, but partial enzymolysis reaction does not need to be stirred all the time, intermittent stirring is a better mode, most of the enzymolysis devices do not have the function at present, and also do not have an air pressure balancing function, so that the safety problem of the enzymolysis device cannot be guaranteed.

Disclosure of Invention

The technical problem is as follows:

at present, most enzymolysis devices do not have an intermittent stirring function and an air pressure balancing function for ensuring the safety of the enzymolysis devices.

In order to solve the problems, the intermittent stirring type enzymolysis device is designed in the embodiment and comprises a shell, a stirring cavity is arranged in the shell, a timing shell is arranged on the inner side wall of the upper side of the stirring cavity, a timing cavity is arranged in the timing shell, a timing component is arranged on the inner side wall of the upper side of the timing cavity, the timing component comprises a disc which is rotatably connected with the disc shaft of the inner side wall of the upper side of the timing cavity, a disc arranged at the lower end of the disc shaft, a limiting wheel arranged on the disc, a convex point arranged on the disc, a sheave shaft which is rotatably connected with the inner side wall of the lower side of the timing cavity, a sheave which is arranged on the sheave shaft and can be abutted against the limiting wheel, and a pushing groove which is arranged on the sheave and can be slidably connected with the convex point, a stirring component is arranged on the, A stirring rod arranged at the lower end of the stirring cavity, a stirring sheet arranged at the lower end of the stirring rod, a judging cavity shell arranged at the outer end of the left side of the timing cavity, a judging cavity is arranged in the judging cavity shell, a judging component is arranged on the inner wall of the right side of the judging cavity, the judging component comprises a chute which is arranged on the right side of the judging cavity and communicated with the stirring cavity, a balancing block which is connected to the chute in a sliding way, and an air pressure push plate which is arranged at the right end of the balancing block, the outer end of the upper side of the judgment cavity is provided with a vertical bracket, the vertical bracket is provided with an air pressure balance assembly, the air pressure balancing assembly comprises a rack sliding groove arranged on the vertical support, a rack connected to the rack sliding groove in a sliding mode, a connecting rod arranged on the rack, a vent plug arranged on the connecting rod and capable of being connected with the inner wall of the upper side of the stirring cavity in a sliding mode, and forty vent holes arranged on the vent plug and distributed in an annular array mode.

Preferably, it has the motor to judge that chamber rear side inner wall is embedded, power connection has the motor shaft on the motor, motor shaft front end tip is equipped with the driving gear, it is connected with the transmission shaft to judge that chamber rear side inner wall rotates, transmission shaft front end tip is equipped with driven gear, the driving gear with be connected with the belt between the driven gear.

Preferably, it is equipped with the regulation spout to judge chamber rear side inner wall, sliding connection has adjusting block on the regulation spout, rotating on the adjusting block and being connected with the regulation pivot, it is equipped with the regulating wheel to adjust pivot upper end, it is located to judge fixed being equipped with on the chamber rear side inner wall the fixed block on adjusting block right side, rotating on the fixed block and being connected with fixed rotating shaft, the last tight pulley that is equipped with of fixed rotating shaft, the fixed block with be connected with regulating spring between the adjusting block.

Preferably, a bevel gear is arranged on the motor shaft, a through shaft is rotatably connected to the inner wall of the right side of the belt, the through shaft extends to the right side into the timing cavity, a main bevel gear meshed with the bevel gear is arranged at the tail end of the left end of the through shaft, an auxiliary bevel gear is arranged at the tail end of the right end of the through shaft, a linkage shaft is rotatably connected to the inner wall of the upper side of the timing cavity, a linkage gear meshed with the disc is arranged on the linkage shaft, a driven bevel gear meshed with the auxiliary bevel gear is arranged on the linkage shaft, and a gear meshed with the matching gear is arranged on the linkage shaft.

The timing assembly further comprises three timing shafts which are rotatably connected to the groove disc and distributed in an annular array, a matching gear arranged on the timing shafts and an engaging gear arranged on the lower side of the matching gear and meshed with the stirring gear.

The utility model discloses a stirring chamber, including the stirring chamber, the stirring chamber is equipped with the main gear, the main gear is connected with the main gear, the judgement subassembly is still including connect in the atmospheric pressure push pedal with atmospheric pressure balance spring between the inner wall of stirring chamber left side, just atmospheric pressure balance spring longitudinal symmetry, the balancing piece left end is equipped with the horizontal stand, the last rotation of horizontal stand is connected with the judgement pivot, be equipped with main belt pulley in the judgement pivot, be equipped with in the judgement pivot and be located the judgement gear of main belt pulley front end, be equipped with on the motor shaft can with judge the master gear that gear engagement is connected, be equipped with on the transmission.

The air pressure balancing assembly further comprises a belt pulley shaft which is rotatably connected to the vertical support, an air pressure balancing gear which is connected with the rack in a meshed mode is arranged on the belt pulley shaft, an auxiliary belt pulley which is located on the front side of the air pressure balancing gear is arranged on the belt pulley shaft, a tensioning belt is connected between the auxiliary belt pulley and the main belt pulley, the tensioning belt is abutted to the adjusting wheel and the fixed wheel, and a spring is connected between the rack and the outer end of the upper side of the judging cavity.

The invention has the beneficial effects that: the invention adopts the design that 3 meshing gears arranged on the groove disc in an annular array are meshed with the stirring gear, so that the timing function of stirring of the enzymolysis equipment is realized, the design that whether the judgment gear is meshed with the main gear and the auxiliary gear is adopted, so that the transmission function can be realized no matter which air pressure between the stirring cavity and the judgment cavity is high, the design of the vent hole is adopted, when the vent plug is driven by the connecting rod to move upwards, the circulation of air and the balance of air pressure are realized, and the current situation that most enzymolysis devices do not have an intermittent stirring function and an air pressure balance function for ensuring the safety of the enzymolysis devices is also avoided.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of an intermittent stirring type enzymolysis device of the invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 1;

fig. 6 is a schematic enlarged view of the structure of "E" of fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an intermittent stirring type enzymolysis device, which is mainly applied to the stirring enzymolysis process, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to an intermittent stirring type enzymolysis device, which comprises a shell 11, wherein a stirring cavity 12 is arranged in the shell 11, a timing shell 13 is arranged on the inner side wall of the upper side in the stirring cavity 12, a timing cavity 25 is arranged in the timing shell 13, a timing assembly 901 is arranged on the inner side wall of the upper side of the timing cavity 25, the timing assembly 901 comprises a disk shaft 28 rotatably connected to the inner side wall of the upper side of the timing cavity 25, a disk 29 arranged at the lower end of the disk shaft 28, a limit wheel 27 arranged on the disk 29, a salient point 30 arranged on the disk 29, a sheave shaft 20 rotatably connected to the inner side wall of the lower side of the timing cavity 25, a sheave 24 arranged on the sheave shaft 20 and capable of abutting against the limit wheel 27, a pushing groove 55 arranged on the sheave 24 and capable of slidably connecting with the salient point 30, and a limit wheel 27 which is rotated, when the limit wheel 27 is not abutted against the, the bump 30 drives the groove disc 24 to rotate, so that a timing function is realized, a stirring component 902 is arranged on the inner wall of the lower side of the timing cavity 25, the stirring component 902 comprises a stirring shaft 17 rotatably connected to the inner wall of the lower side of the timing cavity 25, a stirring rod 19 arranged at the lower end of the stirring cavity 12 and a stirring sheet 75 arranged at the lower end of the stirring rod 19, the stirring sheet 75 rotates to stir an enzymolysis reactant in the stirring cavity 12 for accelerated reaction, a judgment cavity shell 47 is arranged at the outer end of the left side of the timing cavity 25, a judgment cavity 46 is arranged in the judgment cavity shell 47, a judgment component 903 is arranged on the inner wall of the right side of the judgment cavity 46, the judgment component 903 comprises a chute 52 arranged at the right side of the judgment cavity 46 and communicated with the stirring cavity 12, a balance block 71 slidably connected to the chute 52 and an air pressure push, when stirring intracavity 12 internal gas pressure changes, judge chamber 46 with the atmospheric pressure difference drive of stirring chamber 12 the atmospheric pressure push pedal 54 removes, realizes judging the function, it is equipped with vertical support 39 to judge 46 upside outer end, be equipped with atmospheric pressure balance subassembly 904 on the vertical support 39, atmospheric pressure balance subassembly 904 including set up in rack chute 37 on the vertical support 39, sliding connection in rack 38 of rack chute 37, set up in connecting rod 36 on the rack 38, set up in on the connecting rod 36 and can with stirring chamber 12 upside inner wall sliding connection's breather plug 35, set up in on the breather plug 35 and forty air vents 72 that the annular array distributes, work as breather plug 35 rebound, inside and outside atmospheric pressure accessible the air vent 72 carries out gas exchange until reaching the equilibrium.

Beneficially, a motor 73 is embedded in the rear inner wall of the judgment cavity 46, a motor shaft 68 is dynamically connected to the motor 73, a driving gear 42 is arranged at the front end of the motor shaft 68, a transmission shaft 70 is rotatably connected to the rear inner wall of the judgment cavity 46, a driven gear 49 is arranged at the front end of the transmission shaft 70, and a belt 48 is connected between the driving gear 42 and the driven gear 49.

Beneficially, it is equipped with the regulation spout 62 to judge chamber 46 rear side inner wall, sliding connection has adjusting block 61 on adjusting spout 62, rotating connection has the regulation pivot 63 on adjusting block 61, it is equipped with regulating wheel 56 to adjust pivot 63 upper end, it is located to judge fixed being equipped with on the chamber 46 rear side inner wall fixed block 60 on adjusting block 61 right side, rotating connection has fixed pivot 59 on fixed block 60, be equipped with fixed round 58 on the fixed pivot 59, fixed block 60 with be connected with regulating spring 57 between the adjusting block 61.

Beneficially, a bevel gear 44 is arranged on the motor shaft 68, a through shaft 34 is rotatably connected to the inner wall of the right side of the belt 48, the through shaft 34 extends to the right into the timing cavity 25, a main bevel gear 26 engaged with the bevel gear 44 is arranged at the end of the left end of the through shaft 34, an auxiliary bevel gear 14 is arranged at the end of the right end of the through shaft 34, a linkage shaft 32 is rotatably connected to the inner wall of the upper side of the timing cavity 25, a linkage gear 31 engaged with the disc 29 is arranged on the linkage shaft 32, a driven bevel gear 16 engaged with the auxiliary bevel gear 14 is arranged on the linkage shaft 32, and a gear 15 engaged with the mating gear 22 is arranged on the linkage shaft 32.

According to an embodiment, the timing assembly 901 will be described in detail below, the timing assembly 901 further includes three timing shafts 23 rotatably connected to the fluted disc 24 and distributed in an annular array, a mating gear 22 disposed on the timing shafts 23, and an engaging gear 21 disposed below the mating gear 22 and engaged with the stirring gear 18.

According to the embodiment, the determining component 903 is described in detail below, the determining component 903 further includes a pneumatic balance spring 53 connected between the pneumatic push plate 54 and the inner wall of the left side of the stirring chamber 12, the pneumatic balance spring 53 is vertically symmetrical, a horizontal bracket 51 is disposed at the left end of the balance weight 71, a determining rotating shaft 69 is rotatably connected to the horizontal bracket 51, a main pulley 67 is disposed on the determining rotating shaft 69, a determining gear 45 disposed at the front end of the main pulley 67 is disposed on the determining rotating shaft 69, a main gear 43 capable of being engaged with the determining gear 45 is disposed on the motor shaft 68, a sub gear 50 capable of being engaged with the determining gear 45 is disposed on the transmission shaft 70, the left and right movement of the pneumatic balance spring 53 sequentially passes through the balance weight 71, the horizontal bracket 51, and the determining rotating shaft 69 to drive the determining gear 45 to be engaged with the main gear 43 or the sub gear 50, and realizing the judgment function.

According to the embodiment, the air pressure balancing assembly 904 is described in detail below, the air pressure balancing assembly 904 further includes a pulley shaft 66 rotatably connected to the vertical bracket 39, the pulley shaft 66 is provided with an air pressure balancing gear 40 engaged with the rack 38, the pulley shaft 66 is provided with a secondary pulley 64 located in front of the air pressure balancing gear 40, a tension belt 41 is connected between the secondary pulley 64 and the primary pulley 67, the tension belt 41 abuts against the adjusting wheel 56 and the fixed wheel 58, the tension belt 41 is always kept in a tension state under the elastic force of the adjusting spring 57, and a spring 74 is connected between the rack 38 and the upper outer end of the determination chamber 46.

The following detailed description of the steps of the intermittent stirring type enzymolysis device in the present disclosure is provided with reference to fig. 1 to 6:

initial state: the judging gear 45 is not meshed with the main gear 43, the judging gear 45 is not meshed with the auxiliary gear 50, the vent plug 35 is hermetically connected with the stirring cavity 12, and the adjusting slide block 61 is positioned at the leftmost end.

When the enzymolysis reaction mixture is put into the stirring cavity 12, the motor 73 is started, the motor shaft 68 rotates clockwise, the secondary bevel gear 14 is driven to rotate by the bevel gear 44 and the primary bevel gear 26 in sequence, the matching gear 22 in meshed connection with the gear 15 is driven to rotate by the driven bevel gear 16, the linkage shaft 32 and the gear 15 in sequence, the matching gear 22 rotates by the timing shaft 23 to drive the meshing gear 21 to rotate, the stirring shaft 17 is driven to rotate by the stirring gear 18 in sequence, the stirring blade 75 is driven to rotate by the stirring rod 19 to stir the enzymolysis reaction mixture, the salient points 30 drive the groove disc 24 to rotate sixty degrees along with the rotation of the disc 29 when the salient points 30 are in sliding connection with the pushing groove 55, so that the timing shaft 23 changes the position, the matching gear 22 is not in meshed connection with the gear 15 any more, and the meshing gear 21 is not in meshed connection with the stirring gear 18 any more, stirring gear 18, the (mixing) shaft 17, puddler 19 loses power stall, when bump 30 once more with promote groove 55 sliding connection, bump 30 drives fluted disc 24 and rotates sixty degrees, thereby make the change of timing shaft 23 position, and then make adjacent cooperation gear 22 be connected with gear 15 meshing, adjacent meshing gear 21 is connected with stirring gear 18 meshing, thereby cooperation gear 22's rotation drives meshing gear 21 through timing shaft 23 and rotates, thereby loop through stirring gear 18 and drive (mixing) shaft 17 and rotate, and then drive stirring piece 75 through puddler 19 and rotate, stir enzymolysis reaction mixture, repeat above step, realize regularly stirring function.

When the air pressure in the stirring cavity 12 is greater than the air pressure in the judgment cavity 46, the air pressure difference pushes the air pressure push plate 54 to move leftward, and then the air pressure push plate moves leftward through the balance weight 71, the horizontal bracket 51 and the judgment rotating shaft 69 to drive the judgment gear 45 to move leftward until the judgment gear 45 is meshed with the main gear 43, in the process, the air pressure balance spring 53 accumulates elastic potential energy, the left tensioning belt 41 drives the adjusting wheel 56 to move rightward, the left tensioning shaft 63 drives the adjusting slider 61 to move rightward through the adjusting rotating shaft 63, the adjusting spring 57 accumulates elastic potential energy, the motor 73 drives the motor shaft 68 to rotate clockwise and drives the main gear 43 to rotate clockwise, the rotation of the main gear 43 drives the main belt pulley 67 to rotate counterclockwise through the judgment gear 45 and the judgment rotating shaft 69, the rotation of the main belt pulley 67 drives the secondary belt pulley 64 to rotate counterclockwise through, the rack 38 is driven by the rotation of the air pressure balance gear 40 to move upwards, the spring 74 accumulates elastic potential energy and drives the vent plug 35 to move upwards through the connecting rod 36, the air in the stirring cavity 12 is exhausted to the outside through the vent hole 72 on the vent plug 35, the air pressure in the stirring cavity 12 is reduced, the air pressure balance spring 53 releases the elastic potential energy to push the air pressure balance spring 53 to move rightwards, and therefore the air pressure balance spring passes through the balance block 71, the horizontal bracket 51 and the judgment rotating shaft 69 to drive the judgment gear 45 to move rightwards until the judgment gear 45 is not meshed with the main gear 43, at the moment, the adjustment spring 57 releases the elastic potential energy to drive the adjustment slide block 61 to move leftwards, meanwhile, the spring 74 releases the elastic potential energy to drive the rack.

When the air pressure in the stirring cavity 12 is smaller than the air pressure in the judgment cavity 46, the air pressure difference pushes the air pressure push plate 54 to move rightwards, the air pressure push plate drives the judgment gear 45 to move rightwards through the balance weight 71, the horizontal bracket 51 and the judgment rotating shaft 69 sequentially until the judgment gear 45 is meshed and connected with the auxiliary gear 50, in the process, the air pressure balance spring 53 accumulates elastic potential energy, the left tensioning belt 41 drives the adjusting wheel 56 to move rightwards, the left tensioning shaft 63 drives the adjusting slider 61 to move rightwards sequentially, the adjusting spring 57 accumulates elastic potential energy, the motor 73 drives the motor shaft 68 to rotate clockwise, the driving shaft 70 drives the driving gear 42, the belt 48 and the driven gear 49 sequentially to rotate clockwise, the driving shaft 70 drives the auxiliary gear 50 to rotate clockwise, the rotation of the auxiliary gear 50 sequentially drives the judgment gear 45 and the judgment rotating shaft 69 to drive the main belt pulley, the belt pulley shaft 66 drives the air pressure balance gear 40 to rotate anticlockwise, the rack 38 is driven to move upwards by the rotation of the air pressure balance gear 40, the spring 74 accumulates elastic potential energy, the vent plug 35 is driven to move upwards by the connecting rod 36, outside air is sucked into the stirring cavity 12 through the vent hole 72 in the vent plug 35, the air pressure in the stirring cavity 12 is increased, the air pressure balance spring 53 releases the elastic potential energy to drive the air pressure balance spring 53 to move leftwards, the judgment gear 45 is driven to move leftwards by the judgment rotating shaft 69 through the balance block 71, the horizontal support 51 and the judgment rotating shaft 69 until the judgment gear is not meshed with the auxiliary gear 50, at the moment, the adjustment spring 57 releases the elastic potential energy to drive the adjustment slide block 61 to move leftwards, meanwhile, the spring 74 releases the elastic potential energy to drive the rack 38 to move.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. An intermittent stirring type enzymolysis device comprises a shell, wherein a stirring cavity is arranged in the shell, a timing shell is arranged on the inner wall of the upper side in the stirring cavity, and a timing cavity is arranged in the timing shell;

a timing assembly is arranged on the inner wall of the upper side of the timing cavity, and comprises a disc shaft which is rotatably connected to the inner wall of the upper side of the timing cavity, a disc arranged at the lower end of the disc shaft, a limiting wheel arranged on the disc, a convex point arranged on the disc, a sheave shaft rotatably connected to the inner wall of the lower side of the timing cavity, a sheave arranged on the sheave shaft and capable of abutting against the limiting wheel, and a pushing groove arranged on the sheave and capable of being in sliding connection with the convex point;

a stirring assembly is arranged on the inner wall of the lower side of the timing cavity, the stirring assembly comprises a stirring shaft rotatably connected to the inner wall of the lower side of the timing cavity, a stirring rod arranged at the lower end of the stirring cavity and a stirring sheet arranged at the lower end of the stirring rod, a judgment cavity shell is arranged at the outer end of the left side of the timing cavity, and a judgment cavity is arranged in the judgment cavity shell;

judge the chamber right side inner wall and be equipped with the judgement subassembly, judge the subassembly including set up in judge the chamber right side and in the communicating spout of stirring chamber, sliding connection in balancing piece on the spout, set up in the atmospheric pressure push pedal of balancing piece right-hand member, it is equipped with vertical support to judge chamber upside outer end, be equipped with the atmospheric pressure balance subassembly on the vertical support, the atmospheric pressure balance subassembly including set up in rack spout, sliding connection on the vertical support in the rack of rack spout, set up in connecting rod on the rack, set up in on the connecting rod and can with stirring chamber upside inner wall sliding connection's breather plug, set up in on the breather plug and annular array distributes forty air vents.

2. An intermittent stirring type enzymolysis device as claimed in claim 1, characterized in that: judge that chamber rear side inner wall is embedded to have a motor, power connection has the motor shaft on the motor, motor shaft front end tip is equipped with the driving gear, it is connected with the transmission shaft to judge that chamber rear side inner wall rotates, transmission shaft front end tip is equipped with driven gear, the driving gear with be connected with the belt between the driven gear.

3. An intermittent stirring type enzymolysis device as claimed in claim 1, characterized in that: judge that chamber rear side inner wall is equipped with the regulation spout, sliding connection has adjusting block on the regulation spout, rotating on the adjusting block and being connected with the regulation pivot, it is equipped with the regulating wheel to adjust pivot upper end, it is located to judge fixed being equipped with on the chamber rear side inner wall the fixed block on adjusting block right side, rotating on the fixed block and being connected with fixed rotating shaft, the last tight pulley that is equipped with of fixed rotating shaft, the fixed block with be connected with adjusting spring between the adjusting block.

4. An intermittent stirring type enzymolysis device as claimed in claim 2, characterized in that: the motor shaft is provided with a bevel gear, the inner wall of the right side of the belt is rotatably connected with a through shaft, the through shaft extends to the right side into the timing cavity, the end of the left end of the through shaft is provided with a main bevel gear connected with the bevel gear in a meshed mode, the end of the right end of the through shaft is provided with an auxiliary bevel gear, the inner wall of the upper side of the timing cavity is rotatably connected with a linkage shaft, the linkage shaft is provided with a linkage gear connected with the disc in a meshed mode, the linkage shaft is provided with a driven bevel gear meshed with the auxiliary bevel gear, and the linkage shaft is provided with a gear connected with the matching gear in a meshed.

5. An intermittent stirring type enzymolysis device as claimed in claim 1, characterized in that: the timing assembly further comprises three timing shafts which are rotatably connected to the groove disc and distributed in an annular array, a matching gear arranged on the timing shafts is arranged on the meshing gears, and the meshing gears are arranged on the lower sides of the matching gears and meshed with the stirring gears.

6. An intermittent stirring type enzymolysis device as claimed in claim 1, characterized in that: judge the subassembly still including connect in the atmospheric pressure push pedal with the atmospheric pressure balance spring between the inner wall of stirring chamber left side, just atmospheric pressure balance spring longitudinal symmetry, the balancing piece left end is equipped with the horizontal stand, the last rotation of horizontal stand is connected with the judgement pivot, be equipped with main belt pulley in the judgement pivot, be equipped with in the judgement pivot and be located the judgement gear of main belt pulley front end, be equipped with on the motor shaft can with judge the master gear that gear engagement is connected, be equipped with on the transmission shaft can with judge the pinion that gear engagement is connected.

7. An intermittent stirring type enzymolysis device as claimed in claim 1, characterized in that: the air pressure balancing assembly further comprises a belt pulley shaft which is rotatably connected to the vertical support, an air pressure balancing gear which is connected with the rack in a meshed mode is arranged on the belt pulley shaft, an auxiliary belt pulley which is located on the front side of the air pressure balancing gear is arranged on the belt pulley shaft, a tensioning belt is connected between the auxiliary belt pulley and the main belt pulley, the tensioning belt is abutted to the adjusting wheel and the fixing wheel, and a spring is connected between the rack and the outer end of the upper side of the judging cavity.