CN109593631B - Fermented grain pouring device for vinegar residue - Google Patents

Abstract

A fermented grain pouring device for vinegar residue belongs to the technical field of vinegar production equipment. The method is characterized in that: including translation mechanism, urceolus (4) and auger (9), all install urceolus elevating system and auger elevating system on every translation mechanism, install on the urceolus elevating system that corresponds urceolus (4), auger (9) are installed on the auger elevating system that corresponds, auger (9) and urceolus (4) coaxial setting, auger (9) are connected with and drive its pivoted auger motor (11), the outer coaxial cover of auger (9) is equipped with inner tube (5), the section of thick bamboo wall of inner tube (5) is netted, inner tube (5) rotate the setting relatively with auger (9) and go up and down along with auger (9) synchronization, the downside of every urceolus (4) all is provided with and keeps off feed cylinder (19). The fermented grain pouring device for the vinegar grains has high fermented grain pouring speed, can realize the purpose that the fermented grains can be loosened without manual participation, ensures that the vinegar grains are fully contacted with air, and can prevent the fermented grains from falling out of corresponding vinegar jars.

Description

Fermented grain pouring device for vinegar residue

Technical Field

A fermented grain pouring device for vinegar residue belongs to the technical field of vinegar production equipment.

Background

During the production of acetic acid, the vinegar residue in the vinegar jar needs to be poured, and the upper layer of the original jar is poured into the lower layer of the new jar uniformly when pouring the vinegar residue. The fermented vinegar after pouring the jar enters due to the oxygen, and the acetic acid bacteria grow in a proper environment. In the existing acetic acid production, fermented grains are required to be poured manually, and a worker uses a tool to transfer the vinegar grains in the vinegar jar to another vinegar jar, so that the operation work efficiency is low, the labor of the worker is heavy, and the fermented grains cannot be poured quickly.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: overcomes the defects of the prior art, and provides a vinegar residue pouring unstrained spirits device which can automatically realize the vinegar residue pouring and can ensure that the vinegar residue fully contacts with the air.

The technical scheme adopted by the invention for solving the technical problems is as follows: the vinegar residue pouring device is characterized in that: comprises a translation mechanism, a first support mechanism and a second support mechanism, the outer cylinder and the auger are arranged in parallel, the augers correspond to the translation mechanisms one by one, an outer cylinder lifting mechanism and an auger lifting mechanism are installed on each translation mechanism, the outer cylinder is installed on the corresponding outer cylinder lifting mechanism and synchronously lifted along with the outer cylinder lifting mechanism, the auger is installed on the corresponding auger lifting mechanism and synchronously lifted along with the auger lifting mechanism, the outer cylinder is a cylinder with the upper end and the lower end both open, the auger and the outer cylinder are coaxially arranged, a material stopping mechanism is arranged at the lower end of the auger, the auger is connected with an auger motor for driving the auger to rotate, the outer side of the auger is coaxially sleeved with the inner cylinder, the inner cylinder is a cylinder with the upper end and the lower end both open, the cylinder wall of the inner cylinder is net-shaped, the inner cylinder and the auger relatively rotate and are arranged and synchronously lifted along with the auger, the outer diameter of the inner cylinder is smaller than the inner diameter of the outer cylinder, a material stopping cylinder is arranged on the lower side of each outer cylinder, and is a cone with the diameter gradually increased from the lower end.

Preferably, the lower side of the material blocking cylinder is provided with a support frame, and the material blocking cylinder is fixed on the upper side of the support frame.

Preferably, the auger upside be provided with the mounting bracket, the mounting bracket is cylindric frame, auger coaxial arrangement is at the mounting bracket downside, the auger motor links to each other and drives its rotation with the mounting bracket.

Preferably, the reinforcing ring is coaxially arranged at the lower side of the packing auger and fixedly connected with the packing auger.

Preferably, the stock stop includes striker plate and material blocking elevating gear, and the bilateral symmetry of every auger is provided with the mounting groove, and the both sides slidable mounting of striker plate all is provided with the guide way in the mounting groove, the inboard of reinforcing ring and the transmission shaft lower extreme outside of auger, and material blocking elevating gear links to each other with the striker plate and drives the striker plate and goes up and down, and the striker plate seals the auger lower extreme with the guide way cooperation, and the striker plate is made by flexible plastic.

Preferably, the diameter of the material blocking cylinder is larger than the rotation diameter of the auger, and the upper part of the material blocking cylinder is sleeved outside the lower end of the auger.

Preferably, the material blocking barrel is in a conical shape with the diameter gradually reduced from top to bottom.

Preferably, a support frame is arranged on the lower side of the material blocking barrel.

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

1. the auger of the vinegar residue pouring device is matched with the outer cylinder, the vinegar residues in the vinegar vat are lifted, the outer cylinder and the auger are driven by the translation mechanism to translate, so that the vinegar residues are poured into a plurality of rows of vinegar vats at the same time, the vinegar residue pouring speed is high, the vinegar residue pouring of the vinegar residues can be realized without manual participation, the material blocking mechanism can prevent the vinegar residues from leaking when the vinegar residues are lifted, the vinegar residues are moved to the upper side of an empty vinegar vat and fall into the vinegar vat, the vinegar residues are ensured to be fully contacted with air, the production efficiency of acetic acid is improved, the outer wall of the inner vat is net-shaped, and when the vinegar residues are released into the empty vinegar vat, the vinegar residues are released through the cylinder wall of the inner vat, so that the vinegar residues can be loosened, the vinegar residues are ensured to be fully contacted with the air, and the material blocking cylinder is conical, and the vinegar residues can be prevented from falling out of the corresponding vinegar vat.

2. The material blocking barrel is installed on the supporting frame, the material blocking barrel is convenient to arrange, and the baffle is matched with the corresponding outer barrel to realize material blocking of vinegar residues.

3. The auger is arranged on the lower side of the mounting frame, the auger motor drives the auger to rotate through the mounting frame, the outer cover and the auger are matched to contain more vinegar residues, the auger motor can be prevented from hindering the lifting of the vinegar residues, and the speed of pouring the fermented substances from the vinegar residues is increased.

4. The reinforcing ring can prevent the auger from deforming in the process of lifting the vinegar residue, the service life of the equipment is prolonged, and the working stability of the equipment is also improved.

5. The material blocking lifting device drives the material blocking plate to lift, and the lower end of the packing auger is sealed or opened under the action of the mounting groove and the guide groove, so that the lifted vinegar residue is prevented from falling from the lower opening of the packing auger.

6. The material blocking barrel can prevent vinegar lees from falling outside the empty vinegar vat when the vinegar lees are placed in the empty vinegar vat, is conical, can receive the fallen vinegar lees, is wide in receiving range, and ensures that the vinegar lees can completely enter the empty vinegar vat.

7. The support frame can support the material blocking barrel, and the material blocking barrel is guaranteed to be just located on the upper side of the vinegar jar.

Drawings

Fig. 1 is a schematic perspective view of a vinegar residue pouring device.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

FIG. 3 is a schematic view of the installation of the auger.

Fig. 4 is a partially enlarged view of fig. 3 at B.

FIG. 5 is a schematic view of the installation of the inner barrel.

Fig. 6 is a front cross-sectional view of the propeller shaft.

Fig. 7 is a schematic perspective view of the fermented grain pouring device in vinegar residue according to example 2.

Fig. 8 is a schematic perspective view of the fermented grain pouring device in the vinegar residue according to example 3.

In the figure: 1. the device comprises a translation guide rail 2, an adjusting guide rail 3, a translation sliding block 4, an outer barrel 5, an inner barrel 6, a vinegar barrel 7, an outer barrel pull rope 8, an auger pull rope 9, an auger 10, a transmission shaft 1001, an inner shaft 1002, a sleeve 1003, a sleeve inner cavity 11, an auger motor 12, a mounting frame 13, a reinforcing ring 14, a mounting rod 15, a mounting sleeve 16, a gasket 17, a mounting groove 18, a lifting sleeve 19, a material blocking barrel 20, a support frame 21, a feeding barrel 22, a communicating pipe 23, a material discharging barrel 24 and a fan.

Detailed Description

Fig. 1 to 6 are preferred embodiments of the present invention, and the present invention will be further described with reference to fig. 1 to 8.

A vinegar residue pouring device comprises a translation mechanism, an outer cylinder 4 and packing augers 9, wherein the translation mechanism is provided with a plurality of parallel translation mechanisms, the packing augers 9 correspond to the translation mechanisms one by one, each translation mechanism is provided with an outer cylinder lifting mechanism and a packing auger lifting mechanism, the outer cylinder 4 is arranged on the corresponding outer cylinder lifting mechanism and synchronously lifts along with the outer cylinder lifting mechanism, the packing augers 9 are arranged on the corresponding packing auger lifting mechanisms and synchronously lift along with the packing auger lifting mechanisms, the outer cylinder 4 is a cylinder with the upper end and the lower end open, the packing augers 9 and the outer cylinder 4 are coaxially arranged, the lower end of the packing augers 9 is provided with a material stopping mechanism, the packing augers 9 are connected with packing auger motors 11 for driving the packing augers to rotate, the packing augers 9 are coaxially sleeved with inner cylinders 5, the inner cylinders 5 are cylinders with the upper end and the lower end open, the cylinder walls of the inner cylinders 5 are meshed, the inner cylinders 5 and the packing augers 9 are oppositely rotatably arranged and synchronously lift along with the packing augers 9, the outer diameter of the inner cylinders 5 is smaller than the inner diameter of the outer cylinder 4, the lower side of each outer cylinder 4 is provided with a material blocking cylinder 19, and the material blocking cylinder 19 is in a conical shape with the diameter gradually increasing from bottom to top. The auger 9 of the vinegar residue pouring device is matched with the outer cylinder 4 to lift the vinegar residues in the vinegar jar 6, the translation mechanism drives the outer cylinder 4 and the auger 9 to translate, so that the vinegar residues are poured into the plurality of rows of vinegar jars 6 at the same time, the pouring speed of the vinegar residues is high, the vinegar residues can be poured without manual participation, the material blocking mechanism can prevent the vinegar residues from leaking when the vinegar residues are lifted, the vinegar residues are moved to the upper side of the empty vinegar jar 6 and fall into the vinegar jar 6, the vinegar residues are guaranteed to be fully contacted with air, the production efficiency of acetic acid is improved, the outer wall of the inner cylinder 5 is meshed, and when the vinegar residues are released into the empty vinegar jar 6, the vinegar residues are released through the cylinder wall of the inner cylinder 5, so that the vinegar residues can be loosened, the vinegar residues are guaranteed to be fully contacted with the air, and the material blocking cylinder 19 is conical, so that the vinegar residues falling outside the corresponding vinegar jar 6 can be avoided.

The present invention is further described with reference to the following detailed description, however, it should be understood by those skilled in the art that the detailed description given herein with respect to the accompanying drawings is for better explanation and that the present invention is not necessarily limited to the specific embodiments, but rather, for equivalent alternatives or common approaches, may be omitted from the detailed description, while still remaining within the scope of the present application.

Example 1

As shown in FIGS. 1-2: the translation guide rails are arranged along the arrangement direction of the vinegar jars 6, and a set of vinegar jar automatic unstrained spirits pouring device is arranged on the upper side of each row of vinegar jars 6. In this embodiment, the automatic fermented grain pouring device of the vinegar vat further comprises a material blocking barrel 19, the material blocking barrel 19 is a vertically arranged cylinder, the upper end and the lower end of the material blocking barrel 19 are both open, the material blocking barrel 19 is a cone with the diameter gradually decreasing from top to bottom, and the diameter of the lower end of the material blocking barrel 19 is equal to that of the upper opening of the vinegar vat 6, so that the vinegar vat is prevented from spilling outside the vinegar vat 6 when the vinegar vat is extracted and released. The lower side of the material blocking barrel 19 is provided with a support frame 20, and the lower side of the material blocking barrel 19 is butted with the upper opening of the vinegar cylinder 6 through the support frame 20.

The outer barrel lifting mechanism and the auger lifting mechanism are both arranged on the lower side of the translation mechanism, the outer barrel 4 is arranged on the lower side of the outer barrel lifting mechanism, the outer barrel 4 is connected with the outer barrel lifting mechanism and synchronously lifted along with the outer barrel lifting mechanism, the auger 9 is arranged on the lower side of the auger lifting mechanism, and the auger 9 is connected with the auger lifting mechanism and synchronously lifted along with the auger lifting mechanism.

Urceolus 4 is the drum of vertical setting, and the equal uncovered setting in upper and lower both ends of urceolus 4, auger 9 and the coaxial setting of urceolus 4, and auger 9's the outside is provided with inner tube 5, and inner tube 5 is the drum of vertical setting, and the equal uncovered setting in upper and lower both ends of inner tube 5, and the section of thick bamboo wall of inner tube 5 is netted, and the external diameter of inner tube 5 is less than the internal diameter setting of urceolus 4, and inner tube 5 links to each other and goes up and down along with auger elevating system synchronization with auger elevating system.

Translation mechanism includes translation guide rail 1 and translation motor, 1 level setting of translation guide rail, and translation guide rail 1 sets up with regulation guide rail 2 is perpendicular, translation guide rail 1's both ends link to each other and along with regulation slider synchronous motion with the regulation slider that corresponds the side respectively, slidable mounting has translation slider 3 on translation guide rail 1, translation guide rail 1 also is the I-steel that the level set up, translation slider 3 sets up the downside at translation guide rail 1, urceolus elevating system and auger elevating system all install 3 downside at translation slider. Install the translation rack on translation guide rail 1, the translation rack is on a parallel with translation guide rail 1 and sets up, and translation motor installs on translation slider 3, and installs on translation motor's the output shaft with the translation gear of translation rack looks meshing, drives translation slider 3 translation through translation motor, and then has realized the translation of auger 9 with urceolus 4. The translation guide rail 1 is matched with the translation sliding block 3 to guide the translation of the auger 9 and the outer cylinder 4, so that the auger 9 and the outer cylinder 4 can be ensured to translate linearly, and the outer cylinder 4 and the auger 9 can be further ensured to be aligned with the vinegar jar 6. The translation motor can also be an electric push rod.

The outer barrel lifting mechanism comprises an outer barrel lifting motor and an outer barrel pull rope 7, the outer barrel lifting motor is installed on the translation sliding block 3, the output shaft level of the outer barrel lifting motor is arranged, the outer barrel pull rope 7 is symmetrically arranged on two sides of the outer barrel 4, the lower end of the outer barrel pull rope 7 is fixedly connected with the upper end of the corresponding side of the outer barrel 4, the upper end of the outer barrel pull rope 7 is fixedly connected with the side part of the output shaft of the outer barrel lifting motor, the output shaft of the outer barrel lifting motor rotates, the outer barrel pull rope 7 can be wound on the output shaft of the outer barrel lifting motor or wound on the output shaft of the outer barrel lifting motor, the outer barrel 4 is driven to lift, the two outer barrel pull ropes 7 arranged symmetrically drive the outer barrel 4 to lift, and the outer barrel 4 is guaranteed to be kept in a vertical state all the time in the lifting process.

The auger elevating system includes auger stay cord 8 and auger elevator motor, auger elevator motor installs on translation slider 3, and auger elevator motor's output shaft level sets up, auger stay cord 8 has the symmetry to set up two in auger 9 both sides, the lower extreme of auger stay cord 8 and the upper end fixed connection of auger 9 corresponding side, the upper end of auger stay cord 8 and the lateral part fixed connection of auger section of thick bamboo elevator motor's output shaft, auger elevator motor's output shaft rotates, can make auger stay cord 8 twine on auger elevator motor's output shaft or around down by auger elevator motor's output shaft, thereby drive auger 9 and realize going up and down, two auger stay cords 8 that set up through the symmetry drive auger 9 go up and down, guarantee that lift in-process auger 9 remains vertical state throughout. The inner cylinder 5 and the packing auger 9 are arranged in a relative rotation way and can synchronously lift along with the packing auger 9.

As shown in fig. 3: auger 9 is installed on transmission shaft 10, auger 9's upside is provided with mounting bracket 12, mounting bracket 12 is the drum frame, the coaxial setting of mounting bracket 12 is at auger 9's upside, mounting bracket 12's downside links to each other and drives auger 9 synchronous rotation with auger 9's upside, transmission shaft 10's upper end is higher than mounting bracket 12 setting, and transmission shaft 10's upper end is rotated and is installed the gallows, auger stay cord 8 links to each other with the both sides that play the gallows. The packing auger motor 11 is arranged on the upper side of the mounting frame 12, and the packing auger motor 11 is connected with the transmission shaft 10 and drives the transmission shaft 10 to rotate. The sum of the axial lengths of the packing auger 9 and the mounting frame 12 is equal to the axial length of the inner cylinder 5, and the axial length of the inner cylinder 5 is equal to the axial length of the outer cylinder 4. In this embodiment, auger 9 has three helical blades.

The inside coaxial installation cover 15 that is provided with of upside of mounting bracket 12, be provided with installation pole 14 between installation cover 15 and the mounting bracket 12, installation pole 14 sets up along the radius direction level of mounting bracket 12, and the inner of installation pole 14 and the outer wall fixed connection of installation cover 15, the outer end of installation pole 14 and the inboard fixed connection of mounting bracket 12, and installation cover 15 rotates the cover and establishes outside transmission shaft 10, and auger motor 11 installs on installation cover 15.

Reinforcing ring 13 is coaxially installed on the lower side of auger 9, reinforcing ring 13 is fixedly connected with the lower side of auger 9, gasket 16 is coaxially arranged on the lower side of transmission shaft 10, gasket 16 is connected with the lower side of auger 9, reinforcing ring 13 is matched with gasket 16 to enhance the strength of auger 9, and auger 9 is prevented from deforming in the using process.

As shown in FIGS. 4-5: the stock stop includes striker plate and material stopping elevating gear, the equal symmetry in both sides of every blade of auger 9 is provided with mounting groove 17, the equal slidable mounting in the mounting groove 17 that corresponds the side in both sides of striker plate, the inboard that encircles reinforcing ring 13 and the outside that encircles gasket 16 all are provided with the guide way, the guide way docks with mounting groove 17, material stopping elevating gear links to each other with the striker plate and drives the striker plate and goes up and down, the striker plate is made by flexible plastic, thereby rely on the guide way and the direction realization of mounting groove 17 to seal and open the auger 9 downside. Magnet is all installed to the lower extreme of every striker plate, and every blade lower extreme of auger 9 also is provided with magnet, and when the striker plate closed auger 9 lower extreme, the magnet actuation of the blade lower extreme that magnet and auger 9 at striker plate lower extreme correspond to guarantee that auger 9's lower extreme is sealed reliable.

The outer slip cover of transmission shaft 10 is equipped with lift cover 18, and lift cover 18 sets up the upside at mounting bracket 12, and lift cover 18 links to each other with the striker plate through the connecting rod and drives striker plate synchronous lifting, and striker plate elevating gear installs on transmission shaft 10, and striker plate elevating gear links to each other with lift cover 18 and drives lift cover 18 and go up and down, and then has realized the lift of striker plate. The material blocking lifting device is an electric push rod and can also be an air cylinder.

As shown in fig. 6: the transmission shaft 10 comprises an inner shaft 1001 and a sleeve 1002, wherein the inner shaft 1001 is vertically arranged, the sleeve 1002 is coaxially sleeved outside the inner shaft 1001, the length of the inner shaft 1001 is greater than that of the sleeve 1002, and the upper end of the inner shaft 1001 extends out of the sleeve 1002. The outer wall of the inner shaft 1001 and the inner wall of the sleeve 1002 are provided with mutually meshed threads, the packing auger 9 is arranged outside the sleeve 1002, the inner shaft 1001 is rotatably arranged on the hanging bracket, and the packing auger motor 11 is connected with the sleeve 1002 and drives the sleeve 1002 to rotate.

The inner shaft 1001 is connected with a telescopic motor which drives the inner shaft 1001 to synchronously rotate, the telescopic motor is arranged on the hanging bracket, and an output shaft of the telescopic motor is connected with the inner shaft 1001 and drives the inner shaft 1001 to synchronously rotate. When the telescopic motor and the auger motor 11 are lifted synchronously, the inner shaft 1001 and the sleeve 1002 rotate synchronously, the inner shaft 1001 and the sleeve 1002 do not stretch, and when the inner shaft 1001 and the sleeve 1002 rotate relatively, the sleeve 1002 moves downwards relative to the inner shaft 1001, so that stretching is realized, and the stroke of the auger 9 in the vertical direction is increased.

The sleeve 1002 is provided with a sleeve inner cavity 1003 coaxial with the sleeve 1002, a plurality of sleeve gas injection holes communicated with the sleeve inner cavity 1003 are arranged around the sleeve 1002, and the sleeve inner cavity 1003 is connected with an oxygen delivery pipeline through a hose. Each blade of the auger 9 is also provided with an auger inner cavity, a plurality of auger air injection holes communicated with the corresponding auger inner cavity are uniformly distributed on each blade of the auger 9 at intervals, and each auger inner cavity is communicated with the sleeve inner cavity 1003, so that oxygen is introduced into the vinegar residue when the vinegar residue is extracted, the oxygen is fully contacted with the vinegar residue, the release of the vinegar residue is facilitated, the production efficiency of acetic acid is ensured, and the vinegar residue can be prevented from being adhered to the blade of the auger 9 or the sleeve 1002.

The upper end of the outer barrel 4 is sealed, and the lower end of the packing auger 9 is sealed through the material baffle plate, so that a sealed space is formed in the outer barrel 4, the vinegar residue can stay in an oxygen environment for a period of time, the vinegar residue is fully contacted with oxygen, and the production efficiency of acetic acid is improved.

The use method of the automatic fermented grain pouring device of the vinegar vat comprises the following steps: each translation mechanism is aligned with a corresponding row of vinegar jars 6, then the translation mechanism drives the packing auger 9 and the outer cylinder 4 to be aligned with the corresponding vinegar jars 6, the outer cylinder lifting mechanism and the packing auger lifting mechanism move to enable the packing auger 9 to be integrally positioned in the outer cylinder 4, then the outer cylinder lifting mechanism and the packing auger lifting mechanism drive the outer cylinder 4 and the packing auger 9 to synchronously descend into the vinegar jars 6 full of vinegar lees, the packing auger motor 11 drives the packing auger 9 to rotate to enable the vinegar lees to enter the outer cylinder 4, and after the outer cylinder 4 is full of a certain amount of vinegar lees, the material blocking mechanism moves to seal the lower end of the packing auger 9.

The auger lifting mechanism and the outer cylinder lifting mechanism synchronously act to drive the outer cylinder 4 and the auger 9 to synchronously ascend to be separated from the vinegar cylinder 6, then the translation mechanism drives the outer cylinder 4 to move to the upper side of the empty vinegar cylinder 6, then the outer cylinder lifting mechanism drives the outer cylinder 4 to move upwards and separate the outer cylinder 4 from the auger 9, the material stopping mechanism is opened, meanwhile, the auger motor 11 drives the auger 9 to reversely rotate, so that the material falls into the empty vinegar cylinder 6 on the lower side from the side wall of the inner cylinder 5 and the lower part of the auger 9, and the fermented grains pouring of the vinegar grains is completed.

Example 2

As shown in fig. 7: example 2 differs from example 1 in that: the translation mechanism is provided with one, and translation mechanism installs on adjustment mechanism and along with adjustment mechanism horizontal migration, and adjustment mechanism's moving direction and translation mechanism's moving direction are mutually perpendicular in the horizontal plane.

Adjustment mechanism is including adjusting guide rail 2 and accommodate motor, two regulation guide rail 2 that parallel and interval set up, adjust the 2 level settings of guide rail, adjust guide rail 2 and be the I-steel, translation mechanism's both ends are all through adjusting slider slidable mounting on the regulation guide rail 2 that corresponds the side, be provided with the regulation rack on arbitrary regulation guide rail 2, adjust rack and the 2 parallel arrangement of regulation guide rail, install the adjusting gear with regulation rack engaged with on accommodate motor's the output shaft, adjust motor installs on the adjusting slider that corresponds the side, thereby translation mechanism translation has been realized. The adjusting guide rail 2 is matched with the adjusting slide block to guide the translation mechanism, so that the translation mechanism is ensured to move accurately, and the outer barrel 4 is ensured to be aligned with the vinegar jar. The adjusting motor can also be an electric push rod.

Example 3

As shown in fig. 8: example 3 differs from example 1 in that: the vinegar cylinder automatic fermented substance pouring device comprises a feeding barrel 21, a discharging barrel 23 and a fan 24, wherein the feeding barrel 21 is a vertically arranged barrel, the feeding barrel 21 is a barrel with two ends all open, the discharging barrel 23 is a vertically arranged barrel body, two ends of the discharging barrel 23 are all open, the discharging barrel 23 is a cone with a diameter gradually increasing from top to bottom, the feeding barrel 21 is communicated with the discharging barrel 23 through a communicating pipe 22, a conical butt joint part with a diameter gradually decreasing from bottom to top is arranged between the upper ends of the communicating pipe 22 and the feeding barrel 21, and an air outlet of the fan 24 is communicated with the butt joint part. When in use, the feeding cylinder 21 is arranged in the vinegar tank 6 containing the vinegar residue, the discharging cylinder 23 is arranged in the empty vinegar tank 6, and the vinegar residue is transferred into the empty vinegar tank 6 under the action of the fan 24 to finish the fermented substance pouring.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims (6)

1. A vinegar residue pouring device is characterized in that: including translation mechanism, urceolus (4) and auger (9), translation mechanism parallel arrangement has a plurality ofly, auger (9) and translation mechanism one-to-one, all install urceolus elevating system and auger elevating system on every translation mechanism, urceolus (4) are installed on the urceolus elevating system that corresponds and are gone up and down along with the synchronous lift of urceolus elevating system, auger (9) are installed on the auger elevating system that corresponds and go up and down along with the auger elevating system synchronous lift, urceolus (4) are the equal open drum in upper and lower both ends, auger (9) and the coaxial setting of urceolus (4), the lower extreme of auger (9) is provided with stock stop, auger (9) are connected with auger motor (11) that drives its rotation, auger (9) outer coaxial cover is equipped with inner tube (5), inner tube (5) are the equal open drum in upper and lower both ends, the section of thick bamboo wall of inner tube (5) is netted, inner tube (5) rotate the setting relatively and go up and down along with auger (9), the outer diameter of the inner cylinder (5) is smaller than the inner diameter of the outer cylinder (4), a material blocking cylinder (19) is arranged on the lower side of each outer cylinder (4), and the material blocking cylinder (19) is in a conical shape with the diameter gradually increasing from bottom to top;

the upside of auger (9) is provided with mounting bracket (12), mounting bracket (12) are the drum frame, the downside of mounting bracket (12) links to each other and drives auger (9) synchronous rotation with the upside of auger (9), auger (9) are installed on transmission shaft (10), auger motor (11) set up the upside at mounting bracket (12), auger motor (11) link to each other and drive transmission shaft (10) and rotate with transmission shaft (10), auger (9) and the axial length of mounting bracket (12) and the axial length of inner tube (5) equal, the axial length of inner tube (5) equals with the axial length of urceolus (4);

the lower side of the packing auger (9) is coaxially provided with a reinforcing ring (13), and the reinforcing ring (13) is fixedly connected with the packing auger (9); the stock stop includes striker plate and material stopping elevating gear, the bilateral symmetry of every auger (9) is provided with mounting groove (17), the both sides slidable mounting of striker plate is in mounting groove (17), the inboard of reinforcing ring (13) and the transmission shaft lower extreme outside of auger (9) all are provided with the guide way, material stopping elevating gear links to each other with the striker plate and drives the striker plate and goes up and down, the striker plate cooperates with the guide way and seals auger (9) lower extreme, the striker plate is made by flexible plastic, magnet is all installed to the lower extreme of every striker plate, every blade lower extreme of auger (9) also is provided with magnet, when the striker plate seals auger (9) lower extreme, the magnet of striker plate lower extreme and the magnet actuation of the blade lower extreme that auger (9) correspond.

2. The vinegar residue pouring device according to claim 1, wherein: the lower side of the material blocking barrel (19) is provided with a support frame (20), and the material blocking barrel (19) is fixed on the upper side of the support frame (20).

3. The vinegar residue pouring device according to claim 1, wherein: auger (9) upside be provided with mounting bracket (12), mounting bracket (12) are cylindric frame, auger (9) coaxial arrangement is in mounting bracket (12) downside, auger motor (11) link to each other and drive its rotation with mounting bracket (12).

4. The vinegar residue pouring device according to claim 1, wherein: the diameter of the material blocking barrel (19) is larger than the rotation diameter of the packing auger (9), and the upper part of the material blocking barrel (19) is sleeved outside the lower end of the packing auger (9).

5. The vinegar residue pouring device according to claim 4, wherein: the material blocking barrel (19) is in a conical shape with the diameter gradually reduced from top to bottom.

6. A vinegar residue pouring device according to claim 4 or 5, wherein: the lower side of the material blocking barrel (19) is provided with a support frame (20).

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