CN109628280B

CN109628280B - Sustainable ferment bucket of throwing material

Info

Publication number: CN109628280B
Application number: CN201910100878.5A
Authority: CN
Inventors: 陈佶璐; 夏瑾; 郁钧仰
Original assignee: Shanghai Qianan Creative Design Co ltd
Current assignee: Shanghai Qianan Creative Design Co ltd
Priority date: 2019-01-31
Filing date: 2019-01-31
Publication date: 2023-12-15
Anticipated expiration: 2039-01-31
Also published as: CN109628280A

Abstract

The invention belongs to the technical field of fermentation equipment, and particularly relates to a sustainable feeding ferment barrel. Comprises a barrel body, a barrel cover, a material pressing plate and a feeding basket, wherein the barrel cover is sealed on the barrel body; the feeding basket is arranged in the barrel body, and a space for storing ferment liquid is reserved at the bottom of the feeding basket and the bottom of the barrel body; the material pressing plate is arranged in the feeding basket and used for pressing the fed materials into the feeding basket and is positioned below the liquid level of the ferment; the material pressing plate can rise and fall along with the stacking height of materials in the feeding basket; the barrel cover is provided with a feeding hole, and a cover plate capable of sealing the feeding hole is arranged on the barrel cover; a material inlet is arranged on the material pressing plate and is positioned below the material inlet; the put materials fall into the feed basket after passing through the feed inlet and the feed inlet in sequence. The invention has simple structure, can rapidly add materials in the barrel on the premise of not opening the sealing barrel cover, and is matched with the water seal, so that the material in the barrel can be conveniently fed and stirred at any time in a sealing state, and the fermentation effect is improved.

Description

Sustainable ferment bucket of throwing material

Technical Field

The invention belongs to the technical field of fermentation equipment, and particularly relates to a sustainable feeding ferment barrel.

Background

When the existing ferment barrel is used, the ferment barrel needs to be stirred frequently in early stage of fermentation so as to assist full fermentation. When kitchen waste is fermented, the feeding is not completed at one time from time to time.

Further, as anaerobic fermentation, it is preferable that the fermentation is not contacted with an external gas, and is otherwise liable to mold or grow. The existing ferment barrel products in the market all need to be uncapped, stirred and uncapped for feeding when in use, and frequent large-area uncapping behaviors often damage anaerobic environment, influence the anaerobic fermentation process of ferment manufacture and bring a large amount of unpleasant smell to users.

Disclosure of Invention

The invention aims to provide a sustainable feeding ferment barrel which is low in cost, convenient to supplement water and feed, strong in sealing performance and good in fermentation effect.

The invention provides a ferment barrel capable of continuously feeding materials, which comprises a barrel body 1, a barrel cover 2, a material pressing plate 3 and a feeding basket 4, wherein the barrel cover 2 is sealed on the barrel body 1; wherein:

the feeding basket 4 is arranged in the barrel body 1; the material pressing plate 3 is arranged in the feeding basket 4 and is used for pressing the fed materials into the feeding basket 4 and is positioned below the liquid level of the ferment; the material pressing plate 3 can rise and fall along with the stacking height of materials in the feeding basket 4;

the barrel cover 2 is provided with a feed opening 6, and a cover plate 5 capable of sealing the feed opening 6 is arranged on the barrel cover;

a feed inlet 7 is formed in the material pressing plate 3, and the feed inlet 7 is positioned below the feed inlet 6; the put materials fall into the feed basket 4 after passing through the feed inlet 6 and the feed inlet 7 in sequence.

In the invention, a side wall 9 extending upwards is fixedly arranged at a feed inlet 7 of the material pressing plate 3, and an opening at the upper end of the side wall 9 is larger than a feed inlet 6; therefore, the material fed through the feeding port 6 can accurately enter the feeding port 7.

In the invention, a pressing rod 8 which can extend into the feeding hole 7 is arranged on the lower end surface of the cover plate 5, and the outer contour dimension of the pressing rod 8 is matched with the feeding hole 7. After the materials are put in, when the cover plate 5 is covered, the pressing rod 8 can simultaneously extrude the materials to be put in to dredge the feeding hole 7, so that the feeding hole 7 is prevented from being accumulated and blocked by the materials to be put in.

In the invention, the compression bar 8 and the material compression plate 3 can be relatively fixed and detachably connected; when the cover plate 5 is covered on the feeding port 6, the pressing rod 8 is connected with the material pressing plate 3, and the pressing rod 8 is driven to rotate by rotating the cover plate 5, so that the material pressing plate 3 can be driven to rotate; when the cover plate 5 is pulled out, the compression bar 8 is separated from the material compression plate 3; the lower end face of the material pressing plate 3 is provided with a stirring mechanism 12. Therefore, the materials put in the barrel can be stirred by rotating the cover plate 5, and full fermentation is assisted.

In the present invention, the stirring mechanism 12 is a blade stirring blade or a column stirring rod.

In the invention, a plurality of slots 10 which longitudinally penetrate through the side wall 9 are arranged on the side wall 9, and a plurality of inserting sheets 11 which are correspondingly matched with the slots 10 are arranged on the bottom end rod wall of the pressure rod 8; when the cover plate 5 is covered on the feed inlet 6, the inserting piece 11 on the pressing rod 8 can be inserted into the inserting groove 10, so that the cover plate 5 and the material pressing plate 3 form a relatively fixed linkage state in the horizontal rotation direction.

In the invention, the bottom surface of the feeding basket 4 below the feeding hole 7 is provided with a guide convex surface 13 which protrudes upwards. When the compression bar 8 extrudes the material to be put in the position of the feed inlet 7, the material to be put in can be guided to the inside periphery of the material basket 4 by the guide convex surface 13, so that the material to be put in is further ensured to be evenly distributed in the material basket 4.

In the invention, a side blocking wall 14 extends downwards at the feed port 6 of the barrel body 1, and a gap is reserved between the side blocking wall 14 and the pressure lever 8 when the cover plate 5 is covered on the feed port 6, so as to form an exhaust channel; the compression bar 8 is fixedly provided with a circle of soft baffle plates which can seal the exhaust passage in the area corresponding to the side baffle wall 14 and is used as a one-way exhaust plate 15; the soft edge of the one-way exhaust piece 15 can be tilted upwards under the pushing of the fermentation gas generated in the barrel.

When fermentation gas is generated after fermentation in the barrel, the fermentation gas flows to the exhaust channel when the pressure is saturated, and the edges of the unidirectional exhaust sheets 15 are lifted upwards under the pushing of air pressure, so that the exhaust effect is achieved.

In the invention, the edges of the unidirectional exhaust sheets 15 are lifted upwards in a bowl shape and are attached to the side baffle walls 14.

In the invention, a circle of concave water seal grooves 16 are arranged on the barrel cover 2 and around the feed port 6, and the outer side wall of the edge of the cover plate 5 extends into the water seal grooves 16; when water is filled into the water seal groove 16, the edge of the cover plate 5 is submerged. In this way, the sealing of the lid 2 and the cover 5 is achieved by water.

The invention has simple structure, can rapidly add materials in the barrel on the premise of not opening the sealing barrel cover, and is matched with the water seal, so that the material in the barrel can be conveniently fed and stirred at any time in a sealing state, and the fermentation effect is improved.

Drawings

Fig. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is a side cross-sectional view of the present invention.

Reference numerals in the drawings: 1 is a barrel body, 2 is a barrel cover, 3 is a material pressing plate, 4 is a feeding basket, 5 is a cover plate, 6 is a feeding port, 7 is a feeding port, 8 is a pressing rod, 9 is a side wall, 10 is a slot, 11 is an inserting piece, 12 is a stirring mechanism, 13 is a guiding convex surface, 14 is a side baffle wall, 15 is a one-way exhaust piece, 16 is a water seal groove, and 17 is a weight piece.

Detailed Description

The invention comprises a barrel body 1 and a barrel cover 2 covered on the barrel body 1, which are both formed by plastic injection molding; the barrel body 1 is a square barrel, the barrel cover 2 is square, the sealing cover is closed on the opening of the barrel body 1, the sealing rubber strip is arranged at the closing position, and four sides are firmly clamped together through the buckle.

A circular feed opening 6 is arranged in the center of the barrel cover 2, and a circular cover plate 5 capable of sealing the feed opening is arranged on the feed opening 6; the barrel cover 2 is provided with a circle of concave annular water seal grooves 16 which can store water and are positioned around the feed port 6, and the edge of the cover plate 5 is provided with an outer side wall which extends downwards and extends into the water seal grooves 16; when water is stored in the water seal groove 16, the lower edge of the outer side wall of the cover plate 5 is submerged. In this way, the sealing of the lid 2 and the cover 5 is achieved by water.

The center of the lower end surface of the cover plate 5 is connected with a compression bar 8; the compression bar 8 is cylindrical, the top end is provided with a hole, the center of the lower end face of the cover plate 5 is provided with a section of integrally formed connecting column, the top end of the compression bar 8 is nested on the connecting column, and the compression bar is fixed by transversely penetrating a screw or a bolt through the side face. The press bar 8 can be detached from the cover plate 5 by removing the screw or the bolt.

A side blocking wall 14 integrally formed with the barrel cover 2 extends downwards at the feed opening 6, and a gap is reserved between the side blocking wall 14 and the pressure lever 8 when the cover plate 5 is covered on the feed opening 6, so that an exhaust channel is formed; a circle of annular soft baffle plates which can seal the exhaust channel and are made of silica gel materials are fixedly arranged at the areas corresponding to the side baffle walls 14 of the compression bar 8 and serve as one-way exhaust plates 15; the width of the unidirectional exhaust sheet 15 is larger than that of the exhaust channel, the side section is bowl-shaped, and the bowl opening is upward; when the cover plate 5 is in the closed state, the edges of the unidirectional exhaust sheets 15 are attached along the side blocking walls 14 and sealed.

The feeding basket 4 is cylindrical, the opening is circular, the outer edge of the opening is square, and the feeding basket can be nested on the inner wall of the square barrel body 1; the opening of the feeding basket 4 is close to the opening of the barrel body 1; a space for storing ferment liquid is reserved at the bottom of the feeding basket 4 and the bottom of the barrel body 1; the bottom surface of the feeding basket 4 is provided with a plurality of through holes, so that enzyme liquid in the barrel body 1 can enter or flow out of the feeding basket 4; the center of the bottom surface is smoothly raised upward to form a guide convex surface 13.

The material pressing plate 3 is circular, can be embedded on the cylindrical inner wall of the feeding basket 4 and can float up and down along the inner wall of the feeding basket 4; the center of the material pressing plate 3 is provided with a circular feeding hole 7, and the feeding hole 7 is positioned right below the feeding hole 6; the feeding hole 7 is provided with an upward extending side wall 9 integrally formed with the material pressing plate 3, the upper end opening of the side wall 9 is larger than the feeding hole 6, and the side section is bowl-shaped; the bowl opening is close to the lower port of the side baffle wall 14 of the barrel cover 2 and does not touch the bottom surface of the barrel cover 2, and a space for the material pressing plate 3 to float up and down is reserved.

A plurality of vertical strip-shaped hollows are arranged at the closing-in position of the side wall 9 and are used as slots 10; when the cover plate 5 is covered, the bottom end of the pressure rod 8 can reach and pass through the closing-in position of the side wall 9; the rod wall of the pressure rod 8 is provided with a plurality of vertical inserting sheets 11 corresponding to the matching slots 10; when the cover plate 5 is covered on the feed inlet 6, the inserting piece 11 can be downwards inserted into the slot 10; therefore, the cover plate 5 and the material pressing plate 3 form a relatively fixed linkage state in the horizontal rotation direction, and when the cover plate 5 is rotated to drive the pressing rod 8 to rotate, the inserting piece 11 drives the material pressing plate 3 to rotate. The lower surface of the material pressing plate 3 is provided with an integrally formed stirring mechanism 12 facing the basket; the stirring mechanism 12 is in a blade shape, and rotates by driving the material to rotate.

In the practical use of the invention, put materials such as fruit peel into a feed basket 4, the feed basket 4 is put into a barrel body 1, water and fermentation raw materials are poured in, and the water surface needs to overflow the bottom of the feed basket 4 and is higher than the put materials; due to the buoyancy of water, the thrown material can float on the water surface locally and cannot be fermented effectively; therefore, the material pressing plate 3 is covered on the basket opening of the feeding basket 4, and the material pressing plate 3 presses the fed material below the water surface by utilizing the gravity of the material pressing plate; as the materials in the feeding basket 4 are increased, the material pressing plate 3 can float up and down according to the thickness of the materials, and is automatically adjusted; then the barrel cover 2 is covered on the barrel body 1; then the cover plate 5 is covered on the feed inlet of the barrel cover 2; water is poured into the water seal groove 16 of the barrel cover 1, and the water flows through the joint between the cover plate 5 and the barrel cover 2, so that the whole ferment barrel enters a sealing state.

When the material is required to be filled in the middle, the cover plate 2 is not required to be unsealed, the cover plate 5 is lifted, the material such as pericarp is put into the material inlet 6, the material falls into the side wall 9 along the side blocking wall 14, passes through the material inlet 7 of the material pressing plate 3 and falls into the material basket 4; if more materials are put into the device, the materials can be accumulated below the feed inlet 7 or clamped at the side wall 9 of the feed inlet 7, at the moment, the cover plate 5 is pinched for being inserted back, and the compression rod 8 is used for repeatedly pumping, inserting, extruding and feeding the materials, so that the dredging effect is achieved; the guiding convex surface 13 smoothly bulges at the bottom of the feeding basket 4, and can guide the material to move around the feeding basket when the pressure lever 8 is pressed down.

After the material is fed, the cover plate 5 is covered back to the material feeding opening 6, and the water seal is finished again.

At this time, the pressing rod 8 is inserted back to the original position, the inserting piece 11 on the pressing rod 8 passes through the inserting groove 10, and only the cover plate 5 is required to be pinched for rotation, so that the material pressing plate 3 can be driven to rotate, and the stirring mechanism 12 on the material pressing plate 3 stirs the material in the material feeding basket 4, so that the new material feeding is facilitated, the material feeding is sufficiently and uniformly submerged, and the full fermentation is performed. The cover plate 5 can be kept in a water-sealed state at this time.

The materials can be added and put in continuously in the fermentation process, the materials are increased, and the material pressing plate 3 floats upwards along with the materials; on the material clamp plate 3, can also additionally set up additional weight 17 as required, overcome the buoyancy that great material produced.

In the ferment barrel fermentation process, the fermentation gas that constantly produces, because the in-barrel atmospheric pressure increases to being greater than atmospheric pressure, gas flows to the exhaust passage, and one-way exhaust piece 15 border can upwards warp along the air current direction, separates with the side wall 14, reaches the gassing effect, and after gas emission, one-way exhaust piece 15 seals the exhaust passage again because silica gel characteristic is kick-backed, forms one-way pneumatic valve. The exhaust gas enters the water seal groove 16 through the exhaust channel, forms bubbles in the water seal groove 16 area inside the cover plate 5, and then is transferred to the water seal groove 16 area outside the cover plate 5 to be discharged into the atmosphere; people can monitor the ferment bucket to exhaust through observing the bubble in real time.

After fermentation is completed, the throw basket 4 is lifted, so that the put material residues can be directly taken away, and the ferment liquid is left for later use.

The invention has simple structure, can rapidly add materials in the barrel on the premise of not opening the sealing barrel cover, and is matched with the water seal, so that the material in the barrel can be conveniently fed, and can be stirred at any time in a sealing state, thereby helping to promote the fermentation effect.

The preferred embodiments of the present invention have been described above. It is to be understood that the invention is not limited to the specific embodiments described above, wherein devices and structures not described in detail are to be understood as being implemented in a manner common in the art; any person skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modifications to equivalent embodiments without departing from the scope of the technical solution of the present invention, using the methods and technical contents disclosed above, without affecting the essential content of the present invention. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.

Claims

1. The ferment barrel capable of continuously feeding is characterized by comprising a barrel body (1), a barrel cover (2) sealed on the barrel body (1), a material pressing plate (3) and a feeding basket (4); wherein:

the feeding basket (4) is arranged in the barrel body (1); the material pressing plate (3) is arranged in the feeding basket (4) and is used for pressing the fed materials into the feeding basket (4) and is positioned below the liquid level of the ferment; the material pressing plate (3) can rise and fall along with the stacking height of the materials in the feeding basket (4);

a feed opening (6) is formed in the barrel cover (2), and a cover plate (5) capable of sealing the feed opening (6) is arranged on the barrel cover;

a feed inlet (7) is formed in the material pressing plate (3), and the feed inlet (7) is positioned below the feed inlet (6); the thrown materials fall into the throwing basket (4) after passing through the throwing port (6) and the feeding port (7) in sequence;

a side wall (9) extending upwards is fixedly arranged at the feed inlet (7) of the material pressing plate (3), and the upper end opening of the side wall (9) is larger than the feed inlet (6);

the lower end face of the cover plate (5) is provided with a pressing rod (8) which can extend into the feeding hole (7), and the outer contour size of the pressing rod (8) is matched with the feeding hole (7); after the materials are put in, when the cover plate (5) is covered, the pressing rod (8) can simultaneously extrude the materials to be put in to dredge the feed inlet (7);

the compression bar (8) and the material compression plate (3) can be relatively fixed and detachably connected; when the cover plate (5) is covered on the feeding port (6), the pressing rod (8) is connected with the material pressing plate (3), and the rotating cover plate (5) drives the pressing rod (8) to rotate, so that the material pressing plate (3) can be driven to rotate; when the cover plate (5) is pulled out, the compression bar (8) is separated from the material pressing plate (3); the lower end face of the material pressing plate (3) is provided with a stirring mechanism (12).

2. The ferment barrel capable of continuously feeding according to claim 1, wherein a plurality of slots (10) which longitudinally penetrate through the side wall (9) are arranged on the side wall (9), and a plurality of inserting sheets (11) which are correspondingly matched with the slots (10) are arranged on the bottom end rod wall of the compression rod (8); when the cover plate (5) is covered on the feeding port (6), the inserting piece (11) on the pressing rod (8) can be inserted into the inserting groove (10), so that the cover plate (5) and the material pressing plate (3) form a relatively fixed linkage state in the horizontal rotation direction.

3. The ferment barrel with continuous feeding according to claim 2, wherein the feeding basket (4) is positioned on the bottom surface below the feeding port (7) and is provided with a guiding convex surface (13) which protrudes upwards; when the compression bar (8) extrudes the material to be thrown at the feeding hole (7), the material to be thrown can be guided to the periphery inside the material throwing basket (4) by the guiding convex surface (13), so that the material to be thrown is further ensured to be uniformly distributed in the material throwing basket (4).

4. A sustainable feeding ferment barrel according to any one of claims 1 to 3, wherein a side blocking wall (14) extends downwards at the feeding port (6) of the barrel body (1), and a gap is reserved between the side blocking wall (14) and the compression bar (8) to form an exhaust channel when the cover plate (5) covers the feeding port (6); a circle of soft baffle plates capable of sealing the exhaust channel are fixedly arranged on the region of the compression bar (8) corresponding to the side baffle wall (14) and used as one-way exhaust plates (15); the soft edge of the unidirectional exhaust sheet (15) can be tilted upwards under the pushing of fermentation gas generated in the barrel;

when fermentation gas is generated after fermentation in the barrel, the fermentation gas flows to the exhaust channel when the pressure is saturated, and the edges of the unidirectional exhaust sheets (15) are tilted upwards under the pushing of air pressure.

5. The ferment bucket with continuous feeding according to claim 4, wherein the edge of the unidirectional exhaust sheet (15) is tilted upwards in a bowl shape and is attached to the side baffle wall (14).

6. The ferment bucket capable of continuously feeding according to claim 4, characterized in that a circle of concave water seal grooves (16) are arranged on the bucket cover (2) around the feeding port (6), and the outer side wall of the edge of the cover plate (5) extends into the water seal grooves (16); when water is filled into the water seal groove (16), the edge of the cover plate (5) is submerged.