CN110093255A - Pass through the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet - Google Patents

Abstract

The invention discloses the compressed air gas supply mechanisms of the biological enzyme mixing plant by ring rotation outlet, its structure includes: device housing, controller, movable compressing device, puddle support, after being passed through compressed gas by internal input pipe, it is adjusted by the steering of internal arc block so that internal air-flow is downward, and by the separation of through-hole pipe internal membrane pad by the air-flow of lower section traction so that film pad is downward, cold air inside the cooling cabin of top is drawn into output, it is reduced simultaneously by the generalized time that the curved frame of lower section carries out that rotation mixing is accelerated to enable to internal air-flow cooling, so that the gas of output is able to maintain in suitable temperature, by the engagement seat of lower section when gas exports downwards simultaneously, and downward gas blows internal blade wheel and bevel gear stress is made to follow rotation, then pass through hollow gear shaft Drive rotated in a manner of flat pattern so that the output shelf of lower section is rotated by gas annular horizontal output.

Description

Pass through the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet

Technical field

The present invention relates to field of biological enzyme, particularly with regard to a kind of biological enzyme mixing plant by ring rotation outlet Compressed air gas supply mechanism.

Background technique

Biological enzyme usually makes the cell wall rupture of cell in a manner of stirring, to produce biological enzyme, and is stirring During with compressor by the air that straight tube is passed through compression enable to biological enzyme can stir more uniformly, but with Such mode:

1, when being stirred work, the output road of the compressed gas being passed through by the siphunculus with straight pipe type, gas is The downward output of straight line, internal biological enzyme is all with the gas of end thereof contacts high pressure, and in stirring, biological enzyme is to be vortexed shape progress Rotation is difficult that internal biological enzyme is allowed uniformly to carry out contact gas.

2 and when being worked, when compressed air is compressed inside gas in can increase the temperature so that gas It increases, and is difficult quickly using the type of cooling of straight pipe type by internal gas fast cooling, to be passed through the excessively high gas of temperature When body, the activity of biological enzyme will receive the influence of the variation of temperature to influence to export finished product.

Summary of the invention

In view of the deficiencies of the prior art, the present invention is to realize by the following technical solutions: by ring rotation outlet Biological enzyme mixing plant compressed air gas supply mechanism, structure includes: device housing, controller, movable compressing device, stirs Mix frame, the controller be located at the inside of device housing upper end face simultaneously with device housing is embedded is connected together, it is described to stir It mixes the inside of frame flush mounting shell while being flexibly connected with device housing with bearing, the activity compressing device is set to puddle support Inside be fixedly connected simultaneously with puddle support by the bolt on flange, the inside of the puddle support is equipped with the curved knife of rotation Tool.

Advanced optimized as of the invention, it is described activity compressing device be equipped with cooling cabin, cooperation presses frame, power is thrown away Frame, the cooling cabin and cooperation are pressed frame and are mutually perpendicular to and are penetrated through with pipeline connect, and the power, which is thrown away, to be set up in combined pressure The downside end face of moving frame and frame being pressed with cooperation structure integrally being changed by pipeline group, the inside of the cooling cabin is equipped with cooling Gas.

It is advanced optimized as of the invention, the cooperation, which presses, is provided with through-hole pipe, film pad, input pipe, arc block, curved Bent frame, the curved frame are set to the downside end face of through-hole pipe and penetrate through with through-hole pipe and connect, and the film pad is located in through-hole pipe The fitting of both left and right sides in portion is viscous to pay an integralization structure, the arc block be fixedly mounted on the left side inside through-hole pipe and The two is welded together with plate body engaging, and the input pipe is horizontally arranged at the left end face of through-hole pipe and penetrates through with through-hole pipe Connection, the film pad are cross by soft diaphragm plate structure, and the arc block is the arc chord angle that upper end is equipped with small radian Block structure.

It is advanced optimized as of the invention, the curved frame is equipped with twisted plate, siphunculus, arc frame, bend pipe, the through-hole Positioned at arc frame inside and penetrate through the inner side end of arc frame, it is closely sealed that the twisted plate is located at both front-end surfaces of siphunculus It links together, the bend pipe, which is located at the downside end face of arc frame and penetrates through, to be mounted on the downside end face of arc frame and pass through bolt It is fixedly connected, the twisted plate is the size concentric structure formed by steel plate complications.

Advanced optimized as of the invention, the power throw away be provided with output shelf, gear shaft, bevel gear, engagement seat, Blade wheel, the blade wheel are nebenkern with bevel gear and are fixedly connected by movable shaft that the gear shaft is located at cone tooth Both downside end faces of wheel perpendicular through tooth root engage be flexibly connected, it is described engagement seat be located at blade wheel upside end face and meanwhile with Blade wheel is linked together with siphunculus perforation, and the output shelf is movably arranged on the downside end face of bevel gear, and the blade wheel is Arc-shaped oblique curved blade type center is equipped with the polymorphic structure of shaft.

It being advanced optimized as of the invention, the output shelf is equipped with pore plate, baffle, rubber block, tracheae, central axis, The tracheae is set to the inner side end of central axis and perforation parallel with central axis links together, and the baffle is located at tracheae Front-end surface is connect with tracheae interval activity simultaneously, and the downside end face that the pore plate is set to baffle passes through twisting with baffle simultaneously The mode of connection is flexibly connected, and both back end surfaces that the rubber block is located at pore plate use in such a way that sliding slot is slidably connected Clearance fit.

It is advanced optimized as of the invention, the inside of the engagement seat is equipped with the through-hole structure of taper pylon.

It is advanced optimized as of the invention, the pore plate is the activity that there is pore dictyosome in the soft block center in both ends Structure, the inner side end of the rubber block are equipped with the active card of roller type.

Beneficial effect

The present invention is applied to the compressed air gas supply mechanism of the biological enzyme mixing plant by ring rotation outlet, is carrying out When stirring work, it is sent into raw material to be processed toward the inside of puddle support in advance, then after water-tight equipment, is opened by controller After dynamic equipment, internal stirring cutter is carried out Stirring work by the traction of dynamical element, simultaneously passes through the defeated of inside Enter after pipe is passed through compressed gas, is adjusted by the steering of internal arc block so that internal air-flow is downward, and passes through through-hole The separation of pipe internal membrane by the air-flow of lower section traction so that film pad is downward, the cold air traction inside the cooling cabin of top is defeated Out, at the same pass through lower section curved frame in siphunculus enter the cold and hot gas of high pressure after, made by internal twisted plate internal Approach that air-flow flows through increases, and the internal air-flow internal by revolution collision mutually merges, so that the air-flow progress flowed into The generalized time for accelerating rotation mixing to enable to internal air-flow cooling reduces, so that the gas of output is able to maintain Suitable temperature, while by the engagement seat of lower section when gas exports downwards, and downward gas blows internal blade wheel So that bevel gear stress follows rotation, then by the drive of hollow gear shaft, so that the output shelf of lower section rotates, and lead to After crossing the air-flow that internal central axis input top mixes, then air-flow is turned to by tracheae and is exported, and blows internal baffle, gear Plate makes internal pore plate Tensile after the rotation by runner, tightens ejection, then air-flow is along the back-shaped stream of curved baffle Out, it is rotated gas annular horizontal output, annular can be exported with vortex cooperation so that biological enzyme and gas in a manner of flat pattern Contact become more uniform and stable.

Cooperation presses frame to mainly passing through in the present invention and power throws away frame and matches, and is passed through pressure by internal input pipe After contracting gas, adjusted by the steering of internal arc block so that internal air-flow is downward, and passes through through-hole pipe internal membrane pad Separation by lower section air-flow traction so that film pad is downward, the cold air inside the cooling cabin of top is drawn into output, is led to simultaneously The generalized time that the curved frame for crossing lower section carries out that rotation mixing is accelerated to enable to internal air-flow cooling reduces, so that defeated Gas out is able to maintain in suitable temperature, while by the engagement seat of lower section when gas exports downwards, and downward gas Body blows internal blade wheel and bevel gear stress is made to follow rotation, then by the drive of hollow gear shaft, so that lower section Output shelf rotation, rotated in a manner of flat pattern by gas annular horizontal output, can annular output with vortex cooperation so that raw Contact of the object enzyme with gas becomes more uniform and stable.

The present invention after entering high pressure gas by internal central axis, and is changed by output shelf with the tracheae of lower section transverse direction Become the outbound course of gas, then air-flow pushes the baffle in front, and baffle is rotated by twisting wheel, while thin by that can convert into The output of orifice plate stress, then air-flow is exported air-flow with oblique back-shaped outbound course with the arc-shaped limit of baffle, can Keep horizontal with vortex, to come so that the vortex inside in stirring is uniformly contacted with what back-shaped air-flow was rotated.

The present invention is by curved frame, with the hot and cold gas that internal siphunculus enters, in the back-shaped limit of internal twisted plate Under, so that the pipeline of air-flow flowed through is elongated, increase the incorporation time of two strands of air-flows, while when back-shaped mixing, with the side of revolution Formula enables to internal air-flow to form the gas of revolution, accelerates the temperature fall off rate of gas.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is main body of the present invention by the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet Three dimensional structure diagram.

Fig. 2 is cleaning mill of the present invention by the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet The section structural scheme of mechanism of cutting apparatus.

Fig. 3 is the compressed air gas supply mechanism for the biological enzyme mixing plant that the present invention passes through ring rotation outlet with combined pressure The structural schematic diagram of moving frame.

Fig. 4 is curved frame of the present invention by the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet Positive structure diagram.

Fig. 5 is dynamically throw of the present invention by the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet The structural schematic diagram of frame out.

Fig. 6 is output shelf of the present invention by the compressed air gas supply mechanism of the biological enzyme mixing plant of ring rotation outlet Overlooking structure diagram.

In figure: device housing -1, controller -2, movable compressing device -3, puddle support -4, cooling cabin -31, cooperation press Frame -32, power throw away frame -33, through-hole pipe -321, film pad -322, input pipe -323, arc block -324, curved frame -325, bending Plate -3251, siphunculus -3252, arc frame -3253, bend pipe -3254, output shelf -331, gear shaft -332, bevel gear -333, engagement Seat -334, blade wheel -335, pore plate -3311, baffle -3312, rubber block -3313, tracheae -3314, central axis -3315.

Specific embodiment

To be easy to understand the technical means, the creative features, the aims and the efficiencies achieved by the present invention, below with reference to Specific embodiment and Detailed description of the invention, the preferred embodiment that the present invention is further explained.

Embodiment

Referring to Fig. 1, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure include: device housing 1, controller 2, movable compressing device 3, puddle support 4, and the controller 2 is located at device housing The inside of 1 upper end face simultaneously with device housing 1 is embedded is connected together, the inside of the 4 flush mounting shell 1 of puddle support is same When be flexibly connected with device housing 1 with bearing, the inside that the activity compressing device 3 is set to puddle support 4 is logical with puddle support 4 simultaneously The bolt crossed on flange is fixedly connected, and the inside of the puddle support 4 is equipped with the arc cutter of rotation, is provided by dynamical element Rotatable arc cutter inside power drive carries out the machine cuts of circular arc type.

Referring to Fig. 2, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure includes: that the movable compressing device 3 is equipped with that cooling cabin 31, cooperation presses frame 32, power throws away frame 33, described cold But cabin 31 and cooperation are pressed frame 32 and are mutually perpendicular to and are penetrated through with pipeline connect, and the power throws away frame 33 and presses frame set on cooperation 32 downside end face and frame 32 being pressed with cooperation structure integrally being changed by pipeline group, the inside of the cooling cabin 31 is equipped with cold But gas is recycled by the hot and cold alternation of the gas inside the cold air progress inside cooling cabin 31 for the work that cools down.

Referring to Fig. 3, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure include: that the cooperation presses frame 32 equipped with through-hole pipe 321, film pad 322, input pipe 323, arc block 324, bending Frame 325, the curved frame 325 are set to the downside end face of through-hole pipe 321 and penetrate through with through-hole pipe 321 and connect, the film pad 322 The fitting of both left and right sides inside through-hole pipe 321 is viscous to pay integralization structure, and the arc block 324 is fixedly mounted on logical Left side and the two inside hole pipe 321 are welded together with plate body engaging, and the input pipe 323 is horizontally arranged at through-hole pipe 321 left end face and penetrating through with through-hole pipe 321 connects, and the film pad 322 is cross by soft diaphragm plate structure, logical Crossing soft diaphragm plate structure enables to the diaphragm plate by airflow influence that can rotate activity, and the arc block 324 is equipped with for upper end The block structure of the arc chord angle of small radian has the trend for following small radian bent angle flowing according to Kodak grace effect air-flow in flowing Property, for changing the direction of the flowing output of air-flow.

Referring to Fig. 4, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure includes: that the curved frame 325 is equipped with twisted plate 3251, siphunculus 3252, arc frame 3253, bend pipe 3254, described logical Hole 3252 is located at the inside of arc frame 3253 and penetrates through the inner side end of arc frame 3253, and the twisted plate 3251 is located at siphunculus Both 3252 front-end surfaces are closely sealed to link together, and the bend pipe 3254 is located at the downside end face of arc frame 3253 and penetrates through The downside end face for being mounted on arc frame 3253 is bolted to connection, and the twisted plate 3251 is formed by steel plate complications The length in internal fluid aisle can be increased, is conducive to by size concentric structure, the concentric structure formed by complications The cooling work of equipment.

Referring to Fig. 5, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure include: that the power throws away frame 33 equipped with output shelf 331, gear shaft 332, bevel gear 333, engagement seat 334, leaf Piece wheel 335, the blade wheel 335 are nebenkern with bevel gear 333 and are fixedly connected by movable shaft, the gear shaft 332, which are located at both downside end faces of bevel gear 333, engages flexible connection perpendicular through tooth root, and the engagement seat 334 is located at blade The upside end face of wheel 335 is linked together simultaneously with blade wheel 335 with siphunculus perforation, and the output shelf 331 is movably arranged on cone The downside end face of gear 333, the blade wheel 335 are the abnormity knot that arc-shaped oblique curved blade type center is equipped with shaft Structure is able to carry out the mechanical movement work of rotation by oblique curved blade when by gas shock, described to engage the interior of seat 334 Portion is equipped with the through-hole structure of taper pylon.

Referring to Fig. 6, the present invention provides through the compressed air air feeders of the biological enzyme mixing plant of ring rotation outlet Structure, structure include: that the output shelf 331 is equipped with pore plate 3311, baffle 3312, rubber block 3313, tracheae 3314, central axis 3315, the tracheae 3314 is set to the inner side end of central axis 3315 and perforation parallel with central axis 3315 links together, The baffle 3312 is located at the front-end surface of tracheae 3314 while connecting with 3314 interval activity of tracheae, and the pore plate 3311 is set It is flexibly connected by way of hingedly connected with baffle 3312 simultaneously in the downside end face of baffle 3312, the rubber block 3313 It is gap-matched in such a way that sliding slot is slidably connected in both back end surfaces of pore plate 3311, the pore plate 3311 is two It holds soft block center to have the bascule of pore dictyosome, tightens use by stretching the equivalent reticular structure for enabling to inside In the export expansion of air-flow, the inner side end of the rubber block 3313 is equipped with the movable clamp groove of roller type, when stirring for equipment Limit activity.

When being stirred work, it is sent into raw material to be processed toward the inside of puddle support 4 in advance, then water-tight equipment Afterwards, after by 2 starting device of controller, internal stirring cutter is carried out Stirring work by the traction of dynamical element, with it After being passed through compressed gas by internal input pipe 323 simultaneously, adjusted by the steering of internal arc block 324 so that internal Air-flow is downward, and by the separation of 321 internal membrane 322 of through-hole pipe by the air-flow of lower section traction so that film pad 322 downwards, will Cold air inside the cooling cabin 31 of top draws output, while the siphunculus 3252 in the curved frame 325 for passing through lower section enters high pressure Cold and hot gas after, increased by the approach that internal twisted plate 3251 flows through internal air-flow, and internal turned round Air-flow inside colliding mutually merges, so that the air-flow flowed into carries out that rotation mixing is accelerated to enable to internal air-flow cooling Generalized time reduces, so that under the gas of output is able to maintain in suitable temperature, while when gas exports downwards passes through The engagement seat 334 of side, and downward gas blows internal blade wheel 335 and 333 stress of bevel gear is made to follow rotation, then By the drive of hollow gear shaft 332, so that the output shelf 331 of lower section rotates, and defeated by internal central axis 3315 After entering the air-flow that top mixes, then air-flow turns to output by tracheae 3314, blows internal baffle 3312, and baffle 3312 exists Make internal 3311 Tensile of pore plate after by the rotation of runner, tightens ejection, then air-flow is returned along curved baffle 3312 Shape outflow, rotated in a manner of flat pattern by gas annular horizontal output, can annular output with vortex cooperation so that biological enzyme with The contact of gas becomes more uniform and stable.

Problems solved by the invention is when being stirred work, the compressed gas being passed through by the siphunculus with straight pipe type, gas The output road of body is the downward output of straight line, and internal biological enzyme is all with the gas of end thereof contacts high pressure, in stirring, biology Enzyme is rotated with being vortexed shape, is difficult that internal biological enzyme is allowed uniformly to carry out contact gas, and working When, when compressed air is compressed inside gas in can increase so that the temperature of gas increases, and the cooling of utilization straight pipe type Mode is difficult quickly by internal gas fast cooling, so that the activity of biological enzyme will receive when being passed through temperature excessively high gas The influence of the variation of temperature is to influence to export finished product, and cooperation presses frame to mainly passing through in the present invention and power throws away frame matching Close, after being passed through compressed gas by internal input pipe, adjusted by the steering of internal arc block so that internal air-flow to Under, and by the separation of through-hole pipe internal membrane pad by the air-flow of lower section traction so that film pad is downward, by the cooling cabin of top Internal cold air draws output, while carrying out that rotation mixing is accelerated to enable to internal air-flow cooling by the curved frame of lower section Generalized time reduce so that the gas of output is able to maintain in suitable temperature, while when gas exports downwards, passes through The engagement seat of lower section, and downward gas blows internal blade wheel and bevel gear stress is made to follow rotation, then passes through The drive of empty gear shaft is rotated in a manner of flat pattern so that the output shelf of lower section is rotated by gas annular horizontal output, can Annular output with vortex cooperation so that contact of the biological enzyme with gas becomes more uniform and stable, by the central axis of inside into After entering high pressure gas, and with the outbound course of the tracheae of lower section transverse direction change gas, then air-flow pushes the baffle in front, baffle It is rotated by twisting wheel, while the output of the pore plate stress by that can convert into, then air-flow is with the arc-shaped limit of baffle, by air-flow It is exported with oblique back-shaped outbound course, can keep horizontal with vortex, to carry out the vortex so that inside in stirring It is uniformly contacted with what back-shaped air-flow was rotated, with the hot and cold gas that internal siphunculus enters, in returning for internal twisted plate Under shape limit, so that the pipeline of air-flow flowed through is elongated, increase the incorporation time of two strands of air-flows, while when back-shaped mixing, to return The mode turned enables to internal air-flow to form the gas of revolution, accelerates the temperature fall off rate of gas.

The basic principles, main features and advantages of the present invention have been shown and described above, the technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention can not only be realized in other specific forms under the premise of not departing from spirit of that invention or essential characteristic The present invention will also have various changes and improvements, these changes and improvements both fall within scope of the claimed invention, therefore this hair Bright claimed range is defined by appended claims and its equivalent, rather than above description limits.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (8)

1. the compressed air gas supply mechanism of the biological enzyme mixing plant by ring rotation outlet, structure includes: device housing (1), controller (2), movable compressing device (3), puddle support (4), described device shell (1) is internal to be equipped with controller (2) and stirs Mix frame (4), it is characterised in that:

The activity compressing device (3) is set to the inside of puddle support (4).

2. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 1 by ring rotation outlet, It is characterized by: the activity compressing device (3) is equipped with, cooling cabin (31), cooperation presses frame (32), power throws away frame (33), institute It states cooperation and presses the upper and lower ends surface of frame (32) and cooling cabin (31) is installed and power throws away frame (33).

3. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 2 by ring rotation outlet, It is characterized by: the cooperation presses frame (32) equipped with through-hole pipe (321), film pad (322), input pipe (323), arc block (324), curved frame (325), the curved frame (325) are set to the downside end face of through-hole pipe (321), the film pad (322) and logical Hole pipe (321) is integrated, and the arc block (324) is fixedly mounted on through-hole pipe (321) inside, the input pipe (323) it is connected with through-hole pipe (321) perforation.

4. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 3 by ring rotation outlet, It is characterized by: the curved frame (325) is equipped with twisted plate (3251), siphunculus (3252), arc frame (3253), bend pipe (3254), the inside of the arc frame (3253) is equipped with through-hole (3252) and twisted plate (3251), the bend pipe (3254) and arc Shape frame (3253) face is bolted to connection.

5. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 2 by ring rotation outlet, It is characterized by: the power throws away frame (33) equipped with output shelf (331), gear shaft (332), bevel gear (333), engagement seat (334), blade wheel (335), the blade wheel (335) and bevel gear (333) are nebenkern and connect by the way that movable shaft is fixed It connects, the gear shaft (332) is located at the downside end face of bevel gear (333), and engagement seat (334) is located at blade wheel (335) Upside end face, the output shelf (331) are movably arranged on the downside end face of bevel gear (333).

6. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 5 by ring rotation outlet, It is characterized by: the output shelf (331) is equipped with pore plate (3311), baffle (3312), rubber block (3313), tracheae (3314), central axis (3315), the tracheae (3314) are set to the inner side end of central axis (3315), baffle (3312) position It is connect simultaneously with tracheae (3314) interval activity in the front-end surface of tracheae (3314), the pore plate (3311) is mounted on baffle (3312) downside end face, the rubber block (3313) are gap-matched with pore plate (3311).

7. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 5 by ring rotation outlet, It is characterized by: the inside of engagement seat (334) is equipped with the through-hole structure of taper pylon.

8. the compressed air gas supply mechanism of the biological enzyme mixing plant according to claim 6 by ring rotation outlet, It is characterized by: the pore plate (3311) is the bascule that there is pore dictyosome in the soft block center in both ends, the rubber The inner side end of block (3313) is equipped with the movable clamp groove of roller type.