CN114288900A - Continuous type gravity-free mixer for seasoning powder processing - Google Patents

Abstract

The invention discloses a continuous gravity-free mixer for seasoning powder processing, which comprises a base, a rack, a feeding hole, an observation hole and a discharging hole, wherein a buffering and damping structure is arranged inside the base; along with the material gets into in the bin, the material has increased the gravity of bin, make the inside that the bin inwards removed and enter into the backup pad, and the trachea blowout can be followed to gas in the backup pad, thereby make trachea blowout gaseous, both driven lighter material rebound, make the inside material of bin layering phenomenon appear, make the storage box store lighter object apart from the near end of fixed axle, and the inside material of gathering that has stored of the other end of bin, gaseous material that can also drive in the device dead angle removes, the phenomenon of material gathering appears in the dead angle of avoiding the device.

Description

Continuous type gravity-free mixer for seasoning powder processing

Technical Field

The invention relates to the technical field of seasoning powder processing, in particular to a continuous gravity-free mixer for seasoning powder processing.

Background

Different powders need to be stirred and mixed in the processing process of seasoning powder, so that the materials are mixed more uniformly, the gravity-free mixer is a mixing device commonly used in the processing process of seasoning powder, the gravity-free mixer makes full use of the convection mixing principle, namely, the materials are utilized to form a flowing layer in an upward throwing motion in the mixer, instant weightlessness is generated, the materials are enabled to reach the optimal mixing effect state, and the common gravity-free mixer has some defects when in use, such as:

general no gravity mixes machine can only drive the material and carry out lateral shifting when mixing and make and mix between the material, because the material can only lateral shifting, so the distance that the material moved is shorter, material between different intervals can not abundant mix, simultaneously when throwing the material, because the at the uniform velocity that the blade lasts rotates, so can make the material on blade surface can not throw at the fixed point, thereby it is less to make the material of throwing mixing, make the mixed effect of device relatively poor, simultaneously when the device is used, the inside of device can produce the dead angle, and can pile up at the dead angle department at the in-process material of mixing, general no gravity mixes the machine and hardly clears up the dead angle, thereby can not mix the material at dead angle, make the mixed effect of device relatively poor.

Disclosure of Invention

The invention aims to provide a continuous gravity-free mixer for processing seasoning powder, which solves the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: a continuous gravity-free mixer for seasoning powder processing comprises a base, a rack, feed inlets, an observation port and a discharge port, wherein a buffering and shock-absorbing structure is arranged inside the base, the rack is movably arranged inside the base and is provided with a partition plate, a stirring and mixing structure is arranged inside the rack, a plurality of feed inlets are arranged at the upper end of the rack, the side surface of the rack is respectively provided with the observation port and the discharge port, the observation port is positioned above the discharge port, the observation port is in a filter screen shape, when the device is used, materials are added into the rack through the discharge port, then the stirring and mixing structure is used for mixing the materials, at the moment, the materials can be observed through the observation port, the frame can be damped by the buffering and shock-absorbing structure, so that the shock of the rack is prevented from being transmitted to the ground, and after the processing is finished, the device is opened through the discharge port, so that the materials in the device are taken out.

Furthermore, stirring mixed structure is provided with 2 in the inside symmetry of base, stirring mixed structure includes fixed axle, fixed block, connecting axle and backup pad, the one end of fixed axle is provided with the motor, the side of fixed axle is provided with fixed gear, 2 the fixed gear is for the meshing connection, and when the device is using, the motor drives the fixed axle and rotates, and the fixed axle can drive the fixed gear of ortho-position through fixed gear and rotate to the 2 stirring mixed structure that rather rotate thereupon.

Further, the side equidistance of fixed axle is provided with a plurality of connecting axle and backup pad, the side of connecting axle is connected with the backup pad, the both ends of connecting axle are provided with the fixed block, the fixed block sets up the side at the fixed axle, fixed block and connecting axle constitute revolution mechanic, can drive connecting axle and backup pad and rotate when the fixed axle rotates, and can drive the material in the device and remove when the backup pad removes to throw the material to in the air for the material produces weightless best mixing state.

Furthermore, one end of the fixed block is connected with a torsion spring, the other end of the torsion spring is connected with the connecting shaft, the side surface of the base is symmetrically provided with limit plates, the limit plates and the support plate are in fit connection, when the supporting plate moves, the supporting plate can be contacted with the limiting plate, and the limiting plate can limit the supporting plate at the moment, and as the fixed shaft and the fixed block rotate, therefore, the torsion spring can be charged, when the fixed shaft and the fixed block move to a certain position, because the rotating range of the supporting plate is larger, so the limit plate can not limit the support plate, and the torsion spring can drive the support plate to rotate at the moment, thereby the support plate rotates in an accelerating way, the materials on the surface of the device have larger kinetic energy, and the materials are prevented from being attached to the supporting plate and moving along with the rotation of the supporting plate, so that the stirring and mixing efficiency of the device is improved;

can produce wind-force when the backup pad rotates, because the limiting plate is located the outside, so when backup pad and limiting plate are not in the contact back, the backup pad can accelerate inwards to take place to rotate, the backup pad can produce thrust to the top this moment, because the backup pad removes with higher speed, so to wind-force outside-in to the top crescent, and when the backup pad was jettisoned the material, the material speed that is located the inboard is slower, so the distance of jettisoninging is nearer, highly lower, and the material of jettisoninging to the outside has faster speed because it, so the distance of jettisoninging is far away, and the height of jettisoninging is higher, and when the backup pad rotates, can drive inboard material rebound, thereby delay the speed of inboard material rebound, make the material flow into the below together in shorter interval time, thereby increase the efficiency of mixing between the material.

Further, the inside of backup pad is slided and is provided with the bin, the outside of bin is provided with the piston ring that increases the gas tightness, can drive the bin when the backup pad removes and remove, the bin can be stored the material, and after the material entered into the inside of bin, because the material is located the inside of bin, so can increase the gravity of bin, the resistance increase that the bin received when removing this moment, thereby make the bin can the inside of retraction backup pad, make the atmospheric pressure increase in the backup pad, and the leakproofness of backup pad and bin device when relative movement can be guaranteed to the piston ring.

Further, the inside of bin is provided with the deflector, the middle height of deflector is greater than the both sides height of deflector, after the inside of bin was entered into to the material, the deflector can make the material gathering in the both sides of bin, and the inside center department material of bin is less, when throwing the material, the torsional spring drives the backup pad, bin and deflector accelerated movement finish the back, the material, bin and deflector can want to take place the removal outward under the inertia effect, the deflector can throw the material to both sides when outwards moving, thereby make the material carry out irregular removal in the device, make the more even of mixing between the material.

Further, the trachea has been seted up to the inside below equidistance of backup pad, tracheal inside screw thread is provided with the screw rod, the inside of screw rod is the cavity form, the one end of screw rod is connected with the locking cap, the inside of locking cap is provided with filters netted filter layer, when the inside atmospheric pressure of backup pad increases, gas can be from the trachea blowout, because the material can enter into the inside of bin in the below of device, so when the backup pad is located the lower extreme, tracheal inside can spout gas, when gas is spout from the trachea, can blow the inside dead angle position of frame, thereby avoid the material gathering in the dead angle position of frame, simultaneously wind-force can blow lighter material and be located the top, make the material in the bin take place the phenomenon of layering, the bin has lighter material apart from the inside storage of the more near-end of fixed axle, and the gathering material has been stored to the other end inside of bin, when throwing the material, because the gathering material can receive bigger speed, and its power that receives that falls is bigger, so be convenient for smash the material to separate the gathering material, increase the mixture between the material.

Further, buffering shock-absorbing structure includes buffer layer, fixed plate and first spring, the buffer layer comprises rubber materials, the fixed plate is latticed, can produce vibrations when the motor is using, and the base can avoid the vibrations power transmission of motor to give ground, causes the damage of ground structure, can drive the frame when the motor operates and shake, and buffer layer and first spring can cushion the frame to avoid receiving great striking between base and the frame, owing to the vibrations have taken place in the frame, so can avoid the phenomenon that the material in the frame gathers to appear in the dead angle position.

Compared with the prior art, the invention has the following beneficial effects:

1. when the storage box is used, the gravity of the storage box is increased along with the material entering the storage box, so that the storage box moves inwards to enter the interior of the supporting plate, the gas in the supporting plate can be sprayed out of the gas pipe, the gas pipe sprays out the gas, the lighter material is driven to move upwards, the material in the storage box is layered, the lighter object is stored at the end, close to the fixing shaft, of the storage box, the gathered material is stored in the other end of the storage box, the gas can also drive the material in the dead angle of the device to move, and the phenomenon of gathering the material in the dead angle of the device is avoided;

2. when the mixing device is used, the supporting plate rotates along with the fixed shaft, the limiting plate can limit the supporting plate after the supporting plate is contacted with the limiting plate, and after the fixed shaft rotates for a certain angle, the torsional spring can push the supporting plate to move due to the overlarge inclination angle of the supporting plate, so that the supporting plate can move outwards in an accelerated manner, and the moving speed of materials in the storage box can be increased, so that the materials are prevented from rotating along with the storage box continuously, and the mixing efficiency is increased;

3. when the device is used, thrust can be generated on materials above the device in the process of accelerating rotation of the supporting plate, the rotating speed of the supporting plate is slower when the supporting plate is positioned on the outer side of the rack, and the rotating speed of the supporting plate is higher when the supporting plate is positioned on the inner side of the rack, so that the supporting plate can generate smaller thrust on the materials on the outer side and generate larger thrust on the materials on the inner side, the materials can flow into the lower part in a shorter interval time, and the materials are more uniformly distributed in the device.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is a schematic overall front cross-sectional structural view of the present invention;

FIG. 3 is a schematic view of the interior of the base of the present invention in cross-section;

FIG. 4 is a top cross-sectional view of the interior of the housing of the present invention;

FIG. 5 is a cross-sectional view of the connection shaft and support plate assembly of the present invention;

FIG. 6 is an enlarged schematic view of FIG. 5 at A in accordance with the present invention;

FIG. 7 is a side view of the support plate and air tube mounting arrangement of the present invention;

fig. 8 is a schematic view showing an installation perspective structure of the storage box and the guide plate of the present invention.

In the figure: 1. a base; 2. a buffer layer; 3. a fixing plate; 4. a first spring; 5. a frame; 6. a feed inlet; 7. an electric motor; 8. a fixed shaft; 9. fixing a gear; 10. a partition plate; 11. a fixed block; 12. a connecting shaft; 13. a torsion spring; 14. a support plate; 15. a storage tank; 16. a piston ring; 17. a guide plate; 18. an air tube; 19. a fixing cap; 20. a screw; 21. a filter layer; 22. a limiting plate; 23. a viewing port; 24. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides the following technical solutions: a continuous gravity-free mixer for seasoning powder processing comprises a base 1, a rack 5, a feeding port 6, an observation port 23 and a discharging port 24, wherein a buffering shock absorption structure is arranged inside the base 1, the rack 5 is movably arranged inside the base 1, a partition plate 10 is arranged inside the rack 5, a stirring mixing structure is arranged inside the rack 5, a plurality of feeding ports 6 are arranged at the upper end of the rack 5, the observation port 23 and the discharging port 24 are respectively arranged on the side surface of the rack 5, the observation port 23 is positioned above the discharging port 24, the observation port 23 is in a filter screen shape, when the device is used, materials are added into the rack 5 through the discharging port 24, then the stirring mixing structure is used for mixing the materials, at the moment, the materials can be observed through the observation port 23, the buffering shock absorption structure can absorb shock of the rack 5, so that the shock of the rack 5 is prevented from being transmitted to the ground, after the process is completed, the apparatus is opened through the discharge port 24, and the material in the apparatus is taken out.

The stirring mixed structure is provided with 2 in the inside symmetry of base 1, and the stirring mixed structure includes fixed axle 8, fixed block 11, connecting axle 12 and backup pad 14, and the one end of fixed axle 8 is provided with motor 7, and the side of fixed axle 8 is provided with fixed gear 9, and 2 fixed gear 9 are the meshing connection, and when the device is using, motor 7 drives fixed axle 8 and rotates, and fixed axle 8 can drive ortho-position fixed gear 9 through fixed gear 9 and rotate, thus 2 stirring mixed structure that rather rotate thereupon.

The side surface of the fixed shaft 8 is equidistantly provided with a plurality of connecting shafts 12 and supporting plates 14, the side surface of each connecting shaft 12 is connected with the corresponding supporting plate 14, two ends of each connecting shaft 12 are provided with fixing blocks 11, the fixing blocks 11 are arranged on the side surface of the fixed shaft 8, the fixing blocks 11 and the connecting shafts 12 form a rotating structure, the connecting shafts 12 and the supporting plates 14 can be driven to rotate when the fixed shaft 8 rotates, and materials in the device can be driven to move when the supporting plates 14 move, so that the materials are thrown into the air, and the materials are in a weight-loss optimal mixing state.

One end of the fixed block 11 is connected with a torsion spring 13, the other end of the torsion spring 13 is connected with the connecting shaft 12, the side surface of the base 1 is symmetrically provided with a limiting plate 22, the limiting plate 22 is in fit connection with the supporting plate 14, when the supporting plate 14 moves, the supporting plate 14 can be contacted with the limiting plate 22, the limiting plate 22 can limit the supporting plate 14 at the moment, the torsion spring 13 can be charged due to the rotation of the fixed shaft 8 and the fixed block 11, when the fixed shaft 8 and the fixed block 11 move to a certain position, the limiting plate 22 cannot limit the supporting plate 14 due to the large rotation range of the supporting plate 14, at the moment, the torsion spring 13 can drive the supporting plate 14 to rotate, so that the supporting plate 14 can rotate at an accelerated speed, the material on the surface of the supporting plate has larger kinetic energy, the material is prevented from being attached to the supporting plate 14 and can move along with the rotation of the supporting plate 14, thereby increasing the stirring and mixing efficiency of the device;

wind force is generated when the support plate 14 rotates, and since the restriction plate 22 is located at the outer side, when the support plate 14 and the restriction plate 22 are not in contact, the support plate 14 is accelerated to rotate inward, and at this time, the support plate 14 generates a pushing force to the upper side, and since the support plate 14 is accelerated to move, so that the wind force on the upper part is gradually increased from the outside to the inside, and when the supporting plate 14 throws the material, the material on the inner side has a lower speed, so the throwing distance is closer, the height is lower, and the material thrown to the outer side has higher speed, therefore, the throwing distance is long, the throwing height is high, when the supporting plate 14 rotates, the material at the inner side is driven to move upwards, thereby postponing the speed that inboard material moved downwards for the material flows into the below together in shorter interval time, thereby increases the efficiency of mixing between the material.

The inside slip of backup pad 14 is provided with bin 15, the outside of bin 15 is provided with the piston ring 16 that increases the gas tightness, can drive bin 15 and move when backup pad 14 moves, bin 15 can store the material, and after the material entered into bin 15's inside, because the material is located bin 15's inside, so can increase bin 15's gravity, the resistance that bin 15 received when moving at this moment increases, thereby make bin 15 can retract into the inside of backup pad 14, make the atmospheric pressure increase in the backup pad 14, and piston ring 16 can guarantee the leakproofness of backup pad 14 and bin 15 device when relative movement.

Bin 15's inside is provided with deflector 17, the middle height of deflector 17 is greater than the both sides height of deflector 17, after the material entered into bin 15's inside, deflector 17 can make the material gathering in bin 15's both sides, and bin 15's inside center department material is less, when throwing the material, torsional spring 13 drives backup pad 14, bin 15 and deflector 17 accelerated movement finish the back, the material, bin 15 and deflector 17 can think to take place the removal outward under the inertia effect, deflector 17 can throw the material to both sides when outwards moving, thereby make the material carry out irregular removal in the device, make the more even of mixing between the material.

The air pipes 18 are equidistantly arranged below the inner part of the supporting plate 14, a screw rod 20 is arranged on the inner thread of the air pipe 18, the inner part of the screw rod 20 is hollow, one end of the screw rod 20 is connected with a fixing cap 19, a filter net-shaped filter layer 21 is arranged inside the fixing cap 19, when the internal air pressure of the supporting plate 14 is increased, air can be sprayed out from the air pipe 18, the material can enter the storage box 15 below the device, when the supporting plate 14 is positioned at the lower end, the air can be sprayed out from the air pipe 18, when the air is sprayed out from the air pipe 18, the internal dead angle position of the rack 5 can be blown, so that the material is prevented from being gathered at the dead angle position of the rack 5, meanwhile, the light material in the storage box 15 can be blown by wind power and positioned above, the layering phenomenon of the material in the storage box 15 occurs, the light material is stored in the storage box 15 from the inner part of the near end of the fixing shaft 8, and the gathered material is stored in the other end of the storage box 15, when throwing the material, because the gathering material can receive bigger speed, and its power that receives that falls is bigger, so be convenient for smash the material to separate the gathering material, increase the mixture between the material.

Buffering shock-absorbing structure includes buffer layer 2, fixed plate 3 and first spring 4, buffer layer 2 comprises rubber materials, fixed plate 3 is latticed, can produce vibrations when motor 7 is using, and base 1 can avoid motor 7's shaking force to transmit for ground, cause the damage of ground structure, can drive frame 5 and shake when motor 7 operates, and buffer layer 2 and first spring 4 can cushion frame 5, thereby avoid receiving great striking between base 1 and the frame 5, because vibrations have taken place in the frame 5, so can avoid the phenomenon that the gathering appears in the material in the frame 5 in the dead angle position.

The working principle of the invention is as follows: when the device is used, the motor 7 drives the fixed shaft 8 to rotate, the fixed shaft 8 drives the adjacent fixed shaft 8 to rotate through the fixed gear 9, and when the fixed shaft 8 rotates, the supporting plate 14 and the storage box 15 are driven to rotate, so that materials are stirred;

when the materials enter the storage box 15, the gravity of the storage box 15 is increased by the materials, so that the storage box 15 moves inwards to enter the inside of the supporting plate 14, the gas in the supporting plate 14 can be sprayed out from the gas pipe 18, the gas pipe 18 sprays out the gas, the lighter materials are driven to move upwards, the materials in the storage box 15 are layered, the lighter objects are stored at the closer end of the storage box 15 to the fixed shaft 8, the gathered materials are stored at the other end of the storage box 15, the gas can also drive the materials in the dead angle of the device to move, and the phenomenon of gathering the materials in the dead angle of the device is avoided;

then the supporting plate 14 rotates along with the fixing shaft 8, after the supporting plate 14 contacts with the limiting plate 22, the limiting plate 22 limits the supporting plate 14, after the fixing shaft 8 rotates for a certain angle, because the inclination angle of the supporting plate 14 is too large, the torsion spring 13 can push the supporting plate 14 to move, so that the supporting plate 14 can move outwards in an accelerated manner, at the moment, the moving speed of the materials in the storage box 15 can be increased, thereby avoiding the materials from continuing to rotate along with the storage box 15, increasing the mixing efficiency, generating thrust on the materials above in the process of accelerating the rotation of the supporting plate 14, because the supporting plate 14 is positioned at the outer side of the rack 5, the rotating speed of the supporting plate 14 is slow, and when the supporting plate 14 is positioned at the inner side of the rack 5, the rotating speed of the supporting plate 14 is fast, so the supporting plate 14 can generate small thrust on the materials at the outer side, and generate large thrust on the materials at the inner side, the materials flow into the lower part in a shorter interval time, so that the materials are more uniformly distributed in the device;

when the materials are thrown out of the storage box 15, the guide plates 17 can push the materials to move towards two sides in an inclined manner, so that the materials move in the device more disorderly, and the materials are mixed more uniformly;

in the process of mixing, can make frame 5 take place vibrations along with the running gear of motor 7, and buffering shock-absorbing structure can avoid frame 5 and base 1 to cushion, and when frame 5 shakes, can avoid appearing the accumulational phenomenon of material in the frame 5.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a continuous type does not have gravity and mixes machine for seasoning powder processing, includes base (1), frame (5), feed inlet (6), viewing aperture (23) and discharge gate (24), its characterized in that: the inside of base (1) is provided with buffering shock-absorbing structure, the inside activity of base (1) is provided with frame (5), the inside of frame (5) is provided with baffle (10), the inside of frame (5) is provided with stirring mixed structure, the upper end of frame (5) is provided with a plurality of feed inlet (6), the side of frame (5) is provided with viewing aperture (23) and discharge gate (24) respectively, viewing aperture (23) are located the top of discharge gate (24), viewing aperture (23) are the filter screen form.

2. The continuous, gravity-free mixer for flavor powder processing of claim 1, wherein: stirring mixed structure is provided with 2 in the inside symmetry of base (1), stirring mixed structure includes fixed axle (8), fixed block (11), connecting axle (12) and backup pad (14), the one end of fixed axle (8) is provided with motor (7), the side of fixed axle (8) is provided with fixed gear (9), 2 fixed gear (9) are the meshing connection.

3. The continuous, gravity-free mixer for flavor powder processing of claim 2, wherein: the side equidistance of fixed axle (8) is provided with a plurality of connecting axle (12) and backup pad (14), the side of connecting axle (12) is connected with backup pad (14), the both ends of connecting axle (12) are provided with fixed block (11), fixed block (11) set up the side at fixed axle (8), fixed block (11) and connecting axle (12) constitute revolution mechanic.

4. A continuous, gravity-free mixer for flavor powder processing as claimed in claim 3, wherein: the one end of fixed block (11) is connected with torsional spring (13), the other end of torsional spring (13) is connected with connecting axle (12), the side symmetry of base (1) is provided with limiting plate (22), limiting plate (22) and backup pad (14) are connected for the laminating.

5. A continuous, gravity-free mixer for flavor powder processing as claimed in claim 3, wherein: a storage box (15) is arranged in the supporting plate (14) in a sliding mode, and piston rings (16) for increasing air tightness are arranged on the outer side of the storage box (15).

6. The continuous, gravity-free mixer for flavor powder processing of claim 5, wherein: the inside of bin (15) is provided with deflector (17), the middle height of deflector (17) is greater than the both sides height of deflector (17).

7. The continuous, gravity-free mixer for flavor powder processing of claim 5, wherein: trachea (18) have been seted up to the inside below equidistance of backup pad (14), the inside screw thread of trachea (18) is provided with screw rod (20), the inside of screw rod (20) is the cavity form, the one end of screw rod (20) is connected with locking cap (19), the inside of locking cap (19) is provided with strains netted filter layer (21).

8. The continuous, gravity-free mixer for flavor powder processing of claim 1, wherein: buffering shock-absorbing structure includes buffer layer (2), fixed plate (3) and first spring (4), buffer layer (2) comprise rubber materials, fixed plate (3) are latticed.

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