CN211706616U

CN211706616U - Stirring device for processing compound food additive

Info

Publication number: CN211706616U
Application number: CN201922349189.6U
Authority: CN
Inventors: 蒋明利; 戚宪强
Original assignee: Hebi Jindi Food Ingredients Co ltd
Current assignee: Hebi Jindi Food Ingredients Co ltd
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-10-20
Anticipated expiration: 2029-12-24

Abstract

The utility model relates to the technical field of food additive processing, and discloses a stirring device for processing a compound food additive, which comprises a stirring barrel, wherein a partition plate and a stirring mechanism are arranged in the stirring barrel, and the stirring mechanism comprises a stirring shaft, a first worm gear, a power sleeve, a rotating shaft, a second worm gear, a connecting rod and a piston column; the bottom end of the stirring shaft penetrates through the partition plate, the bottom of the stirring shaft is provided with an accommodating tank, a first connecting key is arranged on the accommodating tank, first spiral teeth are arranged on the partial outer peripheral surface of the stirring shaft, and a stirring rod and first stirring blades are arranged on the stirring shaft from top to bottom; the first worm gear is meshed with the stirring shaft; the power sleeve is sleeved outside the stirring shaft and is connected with a driving gear; the rotating shaft is connected with a driven gear and is provided with second spiral teeth; the second worm wheel is meshed with the rotating shaft; two ends of the connecting rod are respectively connected to the first worm wheel and the second worm wheel; the piston post is in sliding sealing fit with the accommodating groove. The utility model discloses stirring effect is good, and is efficient, stirs no dead angle.

Description

Stirring device for processing compound food additive

Technical Field

The utility model relates to a food additive processing technology field especially relates to a composite food additive is agitating unit for processing.

Background

The compound food additive is a formula mixture containing two or more than two food additives, in the processing process of the compound food additive, a stirring device is needed to stir and mix various food additive powders, but the stirring effect of the existing stirring device is poor, and the effect of uniformly mixing various food additives is difficult to achieve, so that the quality of a compound food additive product is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior technical problem, the utility model provides a composite food additive processing stirring device.

In order to achieve the above object, the utility model provides a following technical scheme: a stirring device for processing a compound food additive comprises a stirring barrel, wherein a partition plate and a stirring mechanism are arranged in the stirring barrel, the partition plate divides the stirring barrel into an upper power chamber and a lower stirring chamber, the stirring chamber is provided with a feeding hole and a discharging hole, and the stirring mechanism comprises a stirring shaft, a first worm gear, a power sleeve, a rotating shaft, a second worm gear, a connecting rod and a piston column;

the top end of the stirring shaft extends out of the top of the stirring barrel body, a first key groove is formed in the side wall of the top of the stirring shaft, the bottom end of the stirring shaft penetrates through the partition plate and extends into the stirring chamber, an accommodating tank with a downward opening is formed in the bottom of the stirring shaft, a first connecting key is arranged on the side wall of the accommodating tank, first spiral teeth are arranged on the outer peripheral surface of the stirring shaft portion located in the power chamber, and a stirring rod and first stirring blades are arranged on the stirring shaft portion located in the stirring chamber from top to bottom;

the first worm gear is meshed with the first spiral teeth on the stirring shaft and is rotatably arranged in the power chamber;

the power sleeve is rotationally connected to the top end of the stirring barrel and coaxially sleeved outside the stirring shaft, the power sleeve is connected with a driving mechanism, a second connecting key matched with the first key groove is arranged on the inner side wall of the power sleeve, and a driving gear is coaxially connected to the power sleeve;

the rotating shaft is rotatably connected to the top end of the stirring cylinder body, a driven gear meshed with the driving gear is coaxially connected to the rotating shaft, and the bottom end of the rotating shaft extends into the power chamber and is provided with second spiral teeth;

the second worm wheel is meshed with the second spiral teeth on the rotating shaft and is rotatably arranged in the power chamber, and the second worm wheel is parallel to the first worm wheel in the axial direction;

two ends of the connecting rod are respectively and rotatably connected to the first worm wheel and the second worm wheel;

the piston column is arranged at the bottom of the stirring chamber and is rotationally connected in the stirring cylinder, a second key groove matched with the first connecting key is formed in the side wall of the piston column, the outer diameter of the piston column is matched with the inner diameter of the accommodating tank of the stirring shaft, and the piston column is in sliding seal fit with the accommodating tank.

Preferably, the puddler is equipped with two at least, and the puddler is equipped with along its radial second stirring vane who sets up on the puddler along the radial setting of (mixing) shaft, and the puddler is close to the one end of (mixing) shaft and stretches into in the holding tank of (mixing) shaft and coaxial coupling has first bevel gear, and the puddler rotates sealing connection through first seal bearing with the lateral wall of holding tank, the piston post sets up for cavity, is equipped with the spliced pole in the piston post, the bottom mounting of spliced pole is on stirring barrel bottom inner wall, and spliced pole and piston post rotate through second seal bearing and connect, and the top of spliced pole is connected with the second bevel gear through elastic mechanism, the second bevel gear locate the first bevel gear below of a plurality of and with first bevel gear.

Preferably, the top end of the connecting column is provided with a pressing block for preventing the piston column from moving up and down.

Preferably, the elastic mechanism includes connecting sleeve, interior pole of connecting and coupling spring, the connecting sleeve is fixed on the top of spliced pole, the pole of connecting is fixed on second bevel gear's lower surface, and the bottom of the pole of connecting is inserted in the connecting sleeve, the coupling spring cover is located the connecting sleeve and is connected the interior pole outside, and coupling spring's one end is fixed on second bevel gear, and the other end is fixed on the spliced pole.

Preferably, the second stirring blade is provided with a through hole.

Preferably, the power chamber is provided with a support bearing seat, the support bearing seat is rotatably connected to the outer side of the stirring shaft, and the support bearing seat is connected to the partition plate through a support spring.

The power mechanism of the middle power sleeve of the utility model adopts the conventional technology of the technical personnel in the field.

The utility model discloses a theory of operation does: in adding the agitator chamber of agitator barrel with multiple food additive through the feed inlet, the power sleeve is rotatory under actuating mechanism's drive to through the key-type connection (the utility model discloses in be first keyway and second connecting key) drive the (mixing) shaft and rotate, the (mixing) shaft rotates and drives puddler and first stirring vane rotation, stirs the mixture to the food additive in the agitator chamber. Meanwhile, the power sleeve passes through gear drive (the utility model discloses in for driving gear and driven gear) drive pivot rotatory, with the second worm wheel of the meshing of the second helical tooth of changeing epaxial rotatory under the drive of pivot in the power house to it is rotatory through the first worm wheel of connecting rod pulling, because first worm wheel and the meshing of the epaxial first helical tooth of stirring, consequently can reciprocate along the axial under the effect of first worm wheel when the (mixing) shaft is rotatory, thereby it reaches the state with first worm meshing all the time to come the rotation that is suitable for first worm wheel and self rotation. Therefore, the stirring shaft does rotary motion in the stirring process and moves up and down along the axial direction, so that the food additives at different heights in the stirring chamber are stirred, and the stirring is quicker, more complete and more uniform. And discharging the stirred compound food additive from a discharge hole.

When the (mixing) shaft was rotatory, the piston post was along with (mixing) shaft synchronous revolution under the effect of key-type connection (the utility model discloses a piston post and second keyway) to because the holding tank of piston post and (mixing) shaft bottom is the sliding seal cooperation, when the piston post played the supporting role to the (mixing) shaft, not influenced reciprocating of (mixing) shaft. In addition, the top of the connecting column is provided with a pressing block which can prevent the piston column from moving up and down along with the stirring shaft.

Be equipped with second stirring vane on the puddler, when the (mixing) shaft is rotatory, the puddler passes through bevel gear transmission (the utility model discloses a first bevel gear and second bevel gear) and follows self axis rotatory for second stirring vane is rotatory about the puddler when rotatory about the (mixing) shaft, thereby when stirring the planar food additive tangential of puddler place, the realization is to the puddler about the food additive mix from top to bottom, the effect of stirring, the stirring further speed of accelerating the stirring, efficiency, improve the stirring effect.

The utility model discloses in, second bevel gear is located between first bevel gear and the spliced pole and fixes on the spliced pole through elastic mechanism, and second bevel gear is because first bevel gear's the compression coupling spring that blocks to remove along with reciprocating of (mixing) shaft, remain throughout with first bevel gear meshed state.

When the stirring shaft rises, the second bevel gear moves upwards to a position meshed with the first gear under the elastic force of the connecting spring, and when the stirring shaft descends, the second bevel gear compresses the connecting spring under the blocking action of the first bevel gear and descends along with the stirring shaft.

The utility model discloses can make the material produce the motion of multiple flow directions such as tangential, axial at the stirring in-process, realize quick, high-efficient, the even mixed stirring of multiple food additive in the compound food additive course of working, stirring effect is good, and is efficient, stirs no dead angle.

Drawings

Fig. 1 is a schematic structural diagram of the present embodiment.

FIG. 2 is an axial, partially cross-sectional, schematic view of the mixing shaft of FIG. 1.

In the figure: 1 stirring cylinder, 2 partition boards, 3 power chambers, 4 stirring chambers, 5 feed inlets, 6 discharge outlets, 7 stirring shafts, 8 first worm gears, 9 power sleeves, 10 rotating shafts, 11 second worm gears, 12 connecting rods, 13 piston columns, 14 first key slots, 15 accommodating tanks, 16 stirring rods, 17 first stirring blades, 18 driving gears, 19 driven gears, 20 second key slots, 21 second stirring blades, 22 first bevel gears, 23 connecting columns, 24 second bevel gears, 25 pressing blocks, 26 connecting sleeves, 27 connecting inner rods, 28 connecting springs, 29 supporting bearing seats, 30 supporting springs, 31 supports and 32 through holes.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Examples

Referring to fig. 1-2, a compound food additive processing uses agitating unit, includes stirring barrel 1, be equipped with baffle 2 and rabbling mechanism in the stirring barrel 1, baffle 2 is divided into power chamber 3 of top and stirring chamber 4 of below with stirring barrel 1, stirring chamber 4 is equipped with feed inlet 5 and discharge gate 6, the rabbling mechanism includes (mixing) shaft 7, first worm wheel 8, power sleeve 9, pivot 10, second worm wheel 11, connecting rod 12, piston post 13.

The top of (mixing) shaft 7 stretches out 1 top of the stirring barrel, is equipped with first keyway 14 on the lateral wall at (mixing) shaft 7 top, and in baffle 2 was run through and stretched into teeter chamber 4 in the bottom of (mixing) shaft 7, the bottom of (mixing) shaft 7 was equipped with opening holding tank 15 down, be equipped with first connecting key on holding tank 15's the lateral wall, be located and be equipped with first helical tooth on the (mixing) shaft 7 partial outer peripheral face of power room 3, be located and be equipped with puddler 16 and first stirring vane 17 down from last on teeter chamber 4's the (mixing) shaft 7 part.

The first worm wheel 8 is meshed with the first spiral teeth on the stirring shaft 7 and is rotatably arranged in the power chamber 3.

The power sleeve 9 is rotatably connected to the top end of the stirring barrel body 1 and coaxially sleeved outside the stirring shaft 7, the power sleeve 9 is connected with a driving mechanism (not shown in the figure), a second connecting key matched with the first key groove 14 is arranged on the inner side wall of the power sleeve 9, and a driving gear 18 is coaxially connected to the power sleeve 9.

The rotating shaft 10 is rotatably connected to the top end of the stirring cylinder body 1, a driven gear 19 meshed with the driving gear 18 is coaxially connected to the rotating shaft 10, and the bottom end of the rotating shaft 10 extends into the power chamber 3 and is provided with second spiral teeth.

The second worm wheel 11 is engaged with the second helical teeth on the rotating shaft 10 and is rotatably arranged in the power chamber 3, and the second worm wheel 11 is parallel to the first worm wheel 8 in the axial direction.

And two ends of the connecting rod 12 are respectively connected to the first worm wheel 8 and the second worm wheel 11 in a rotating manner.

Piston post 13 is located 4 bottoms of teeter chamber and is rotated and connect in mixing barrel 1, is equipped with on the lateral wall of piston post 13 with first connecting key assorted second keyway 20, the external diameter of piston post 13 and the holding tank 15 internal diameter phase-match of (mixing) shaft 7, piston post 13 and holding tank 15 sliding seal cooperation.

Puddler 16 is equipped with two, and puddler 16 is equipped with along its radial second stirring vane 21 that sets up on the puddler 16, and puddler 16 is close to the one end of (mixing) shaft 7 and stretches into in holding tank 15 of (mixing) shaft 7 and coaxial coupling has first bevel gear 22, and puddler 16 rotates sealing connection through first sealed bearing with the lateral wall of holding tank 15, piston post 13 is the cavity setting, is equipped with spliced pole 23 in the piston post 13, the bottom mounting of spliced pole 23 is on stirring barrel 1 bottom inner wall, and spliced pole 23 and piston post 13 rotate through second sealed bearing and are connected, and the top of spliced pole 23 is connected with second bevel gear 24 through elastic mechanism, second bevel gear 24 locates first bevel gear 22 below and meshes with first bevel gear 22.

The top end of the connecting column 23 is provided with a pressing block 25 for preventing the piston column 13 from moving up and down.

Elastic mechanism includes adapter sleeve 26, link rod 27 and coupling spring 28 in the connection, adapter sleeve 26 is fixed on the top of spliced pole 23, link rod 27 is fixed on second bevel gear 24's lower surface, and in the bottom of link rod 27 inserted adapter sleeve 26, the coupling sleeve 26 is located with the link rod 27 outside to the coupling spring 28 cover, and the one end of coupling spring 28 is fixed on second bevel gear 24, and the other end is fixed on spliced pole 23.

The second stirring blade 21 is provided with a through hole 32 for the food additive material to pass through.

The power chamber 3 is provided with a support bearing seat 29, the support bearing seat 29 is rotatably connected to the outer side of the stirring shaft 7, and the support bearing seat 29 is connected to the partition board 2 through a support spring 30.

In this embodiment, the (mixing) shaft 7 is sliding fit with the inner wall of the top of the mixing cylinder body 1, and the baffle 2, and the (mixing) shaft 7 is supported by the support bearing seat 29 and the piston column 13, and is driven to move up and down by the first worm wheel 8. The first worm wheel 8 and the second worm wheel 11 are rotatably connected to the support 31, and the support 31 is fixed on the inner wall of the top of the stirring cylinder body 1.

The utility model discloses a theory of operation does: in adding the teeter chamber 4 of churning barrel 1 with multiple food additive through feed inlet 5, power sleeve 9 is rotatory under actuating mechanism's drive to through the key-type connection (the utility model discloses in be first keyway 14 and second connecting key) drive (mixing) shaft 7 and rotate, (mixing) shaft 7 rotates and drives puddler 16 and first stirring vane 17 rotatory, stirs the mixture to the food additive in the teeter chamber 4. Meanwhile, power sleeve 9 passes through gear drive (the utility model discloses in for driving gear 18 and driven gear 19) drive pivot 10 rotatory, with pivot 10 on the second helical tooth meshing second worm wheel 11 under the drive of pivot 10 at power house 3 internal rotations, and rotatory through connecting rod 12 pulling first worm wheel 8, because first worm wheel 8 and the epaxial first helical tooth meshing of (mixing) shaft 7, consequently can reciprocate along the axial under first worm wheel 8's effect when (mixing) shaft 7 is rotatory, thereby it reaches the state with first worm meshing all the time to be suitable for the rotation of first worm wheel 8 and the rotation of self. Therefore, the stirring shaft 7 does rotation movement in the stirring process and moves up and down along the axial direction, so that the food additives with different heights in the stirring chamber 4 are stirred, and the stirring is quicker, more sufficient and more uniform. The mixed food additive is discharged from a discharge port 6.

When (mixing) shaft 7 is rotatory, piston post 13 is along with (mixing) shaft 7 synchronous revolution under the effect of key-type connection (the utility model discloses a first connecting key and second keyway 20) to because piston post 13 and (mixing) shaft 7 bottom holding tank 15 are the sliding seal cooperation, when piston post 13 plays the supporting role to (mixing) shaft 7, do not influence reciprocating of (mixing) shaft 7. In addition, the top of the connecting column 23 is provided with a pressing block 25 which can prevent the piston column 13 from moving up and down along with the stirring shaft 7.

Be equipped with second stirring vane 21 on puddler 16, when (mixing) shaft 7 is rotatory, puddler 16 passes through the bevel gear transmission (the utility model discloses a first bevel gear 22 and second bevel gear 24) and follows self axis rotatory for second stirring vane is around puddler 16 rotation from top to bottom when around (mixing) shaft 7 is rotatory, thereby when stirring the planar food additive tangential of puddler 16 place, the realization stirs about puddler 16 food additive from top to bottom, the effect of stirring, further accelerate the speed of stirring, efficiency, improve the stirring effect.

The utility model discloses in, second bevel gear 24 is located between first bevel gear 22 and the spliced pole 23 and fixes on spliced pole 23 through elastic mechanism, and second bevel gear 24 compresses connecting spring 28 because blockking of first bevel gear 22 to remove along with reciprocating of (mixing) shaft 7, remain throughout with the state of first bevel gear 22 meshing.

When the stirring shaft 7 is lifted, the second bevel gear 24 moves upwards to a position meshed with the first bevel gear under the elastic force of the connecting spring 28, and when the stirring shaft 7 is lowered, the second bevel gear 24 compresses the connecting spring 28 under the blocking action of the first bevel gear 22 and descends along with the stirring shaft 7.

Claims

1. The utility model provides a compound agitating unit for food additive processing, includes the stirring barrel, its characterized in that: the stirring device is characterized in that a partition plate and a stirring mechanism are arranged in the stirring cylinder, the partition plate divides the stirring cylinder into an upper power chamber and a lower stirring chamber, the stirring chamber is provided with a feeding hole and a discharging hole, and the stirring mechanism comprises a stirring shaft, a first worm gear, a power sleeve, a rotating shaft, a second worm gear, a connecting rod and a piston column;

2. The stirring device for processing the compound food additive according to claim 1, which is characterized in that: the utility model discloses a stirring shaft, including the stirring rod, the stirring rod is equipped with two at least, and the stirring rod is equipped with along its radial second stirring vane that sets up on the stirring rod along the radial setting of (mixing) shaft, and the one end that the stirring rod is close to the (mixing) shaft stretches into in the holding tank of (mixing) shaft and the first bevel gear of coaxial coupling, and the stirring rod rotates sealing connection through first sealed bearing with the lateral wall of holding tank, the piston post is the cavity setting, is equipped with the spliced pole in the piston post, the bottom mounting of spliced pole is on stirring barrel bottom inner wall, and spliced pole and piston post pass through second sealed bearing and rotate the connection, and the top of spliced pole is connected with second bevel gear through elastic mechanism, second bevel gear.

3. The stirring device for processing the compound food additive as claimed in claim 2, wherein: and a pressing block for preventing the piston column from moving up and down is arranged at the top end of the connecting column.

4. The stirring device for processing the compound food additive as claimed in claim 2, wherein: elastic mechanism includes connecting sleeve, interior pole in the connection and coupling spring, the connecting sleeve is fixed on the top of spliced pole, the pole is fixed on the lower surface of second bevel gear in the connection, and the bottom of the pole in the connection inserts in the connecting sleeve, the coupling spring cover is located the connecting sleeve and is connected the interior pole outside, and the one end of coupling spring is fixed on second bevel gear, and the other end is fixed on the spliced pole.

5. The stirring device for processing the compound food additive as claimed in claim 2, wherein: and the second stirring blade is provided with a through hole.

6. The stirring device for processing the compound food additive according to claim 1, which is characterized in that: the power chamber is provided with a supporting bearing seat, the supporting bearing seat is rotatably connected to the outer side of the stirring shaft, and the supporting bearing seat is connected to the partition plate through a supporting spring.