CN112574857A

CN112574857A - Circulating stirring mechanism and biological feed fermentation equipment

Info

Publication number: CN112574857A
Application number: CN202110039777.9A
Authority: CN
Inventors: 郑名苏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-13
Filing date: 2021-01-13
Publication date: 2021-03-30

Abstract

The invention relates to a circulating stirring mechanism and biological feed fermentation equipment, wherein the circulating stirring mechanism comprises: the base, the diaphragm through riser fixed mounting, install outer container on the base and setting are in the inside inner box of outer container, just the outer container with leave the clearance between the inner box, install drive assembly on the diaphragm, when using, motor work drives the pivot is rotated, and the pivot is passed through first fixed sleeve pipe drives the rotor plate rotates, rotates in-process gear train structure trigger motion, and drives the drive assembly motion, the drive assembly drives meshing structure motion, meshing structure drives the elastic component motion to the elastic component drives through the connecting rod and turns over the board motion, makes to turn over the board reciprocating swing of stirring, has realized the effectual function of stirring of mechanism, and simultaneously, second fixed sleeve pipe drives it rotates to turn over the board, has realized the effectual automatic cycle of mechanism and has turned over the function of stirring.

Description

Circulating stirring mechanism and biological feed fermentation equipment

Technical Field

The invention relates to the related technical field of fermentation equipment, in particular to a circulating stirring mechanism and biological feed fermentation equipment.

Background

The biological feed is a general term for feed products developed by using feed raw materials and additives through biological engineering technologies such as fermentation engineering, enzyme engineering, protein engineering, genetic engineering and the like, and when the fermentation of the biological feed is carried out, the fermentation raw materials are generally stirred to ensure the fermentation effect and speed.

At present, in the fermentation process of biological feed, the fermentation raw materials are stirred by a stirring tool usually used by workers, so that the stirring of the raw materials is insufficient and uniform due to manual operation, and the fermentation of the biological feed is not well affected, so that the fermentation effect is poor, and the ideal practical effect cannot be achieved in the actual fermentation engineering.

Disclosure of Invention

The invention aims to provide a circulating stirring mechanism and biological feed fermentation equipment, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a circulation stirring mechanism, comprising: the device comprises a base, a transverse plate fixedly installed through a vertical plate, an outer box installed on the base and an inner box arranged in the outer box, wherein a gap is reserved between the outer box and the inner box, and a driving assembly is installed on the transverse plate;

the driving assembly comprises a motor arranged on the transverse plate, a rotating shaft connected with the output end of the motor and extending to the inner part of the inner box, and a first fixed sleeve and a second fixed sleeve which are fixedly arranged on the rotating shaft through bolts, wherein the first fixed sleeve is fixedly connected with a rotating plate, and the second fixed sleeve is hinged with a stirring plate;

the circulating stirring mechanism further comprises a gear set structure arranged on the rotating shaft and the rotating plate, the gear set structure is connected with a transmission assembly arranged on the rotating plate, the transmission assembly is connected with an elastic assembly arranged on the rotating plate through a meshing structure, and the elastic assembly is connected with the stirring plate through a connecting rod;

when the motor is in operation, the rotating shaft is driven to rotate, the rotating shaft drives the rotating plate to rotate through the first fixing sleeve, the gear set structure triggers movement in the rotating process and drives the transmission assembly to move, the transmission assembly drives the meshing structure to move, and the meshing structure drives the elastic assembly to move, so that the elastic assembly drives the stirring plate to swing through the connecting rod, and meanwhile, the second fixing sleeve drives the stirring plate to rotate, so that the stirring position of the stirring plate is changed.

As a further scheme of the invention: the transmission assembly comprises a worm arranged on the rotating plate, a worm wheel which is rotatably arranged on the rotating plate and meshed with the worm, the worm wheel is connected with the meshing structure, and the worm is connected with the gear set structure.

As a still further scheme of the invention: the gear set structure comprises a fixed gear arranged on the rotating shaft and a rotating gear which is fixedly arranged at one end, far away from the rotating plate, of the worm and is meshed with the fixed gear, and the fixed gear is fixedly connected with the top wall of the inner box through two connecting shafts.

As a still further scheme of the invention: the elastic component comprises a fixed cylinder, a pressure spring and a telescopic rod, wherein the fixed cylinder and the pressure spring are fixedly arranged on the rotating plate, one end of the pressure spring is fixedly connected with the bottom wall of the fixed cylinder, the telescopic rod is fixedly connected with the other end of the pressure spring, the telescopic rod is far away from one end of the pressure spring, the connecting rod is connected with the stirring plate, and the two ends of the connecting rod are respectively hinged with the stirring plate and the telescopic rod.

As a still further scheme of the invention: the meshing structure is installed including rotating on the rotor plate and through the second drive belt with the incomplete gear that the worm wheel is connected, and set up on the telescopic link and with incomplete gear complex rack board, just partly be for there being the tooth setting on the incomplete gear, another part is for the setting of no tooth, and have the tooth position discontinuously with rack board cooperation.

A biological feed fermentation device comprises the circulating stirring mechanism and a feeding port which is arranged on the outer box and communicated with the inner box, wherein a temperature control assembly is arranged on the transverse plate;

the temperature control assembly is connected with the rotating shaft through a bevel gear group structure, the temperature control assembly is communicated with a gap between the inner box and the outer box, and when the motor drives the rotating shaft to rotate, the rotating shaft drives the temperature control assembly to work through the bevel gear group so as to control the temperature in the inner box.

As a still further scheme of the invention: the bevel gear group structure comprises a first bevel gear fixedly mounted on the rotating shaft, a transmission shaft rotatably mounted at the top of the outer box, and a second bevel gear fixedly mounted on the transmission shaft and meshed with the first bevel gear, and the transmission shaft is connected with the temperature control assembly.

As a still further scheme of the invention: the temperature control assembly comprises a transverse plate, a driving shaft, a water pump, a guide pipe and a guide pipe, wherein the driving shaft is connected with the water pump of the driving shaft through a first driving belt, the guide pipe is connected with a water outlet of the water pump, the guide pipe is arranged on the side portion of the outer box, the guide pipe is communicated with the gap between the inner box and the outer box, and the water inlet of the water pump is connected with a water source with proper temperature.

Compared with the prior art, the invention has the beneficial effects that: the invention has novel design, when in use, the motor works to drive the rotating shaft to rotate, the rotating shaft drives the rotating plate to rotate through the first fixing sleeve, the gear set structure triggers to move and drives the transmission assembly to move in the rotating process, the transmission assembly drives the meshing structure to move, and the meshing structure drives the elastic assembly to move, so that the elastic assembly drives the stirring plate to move through the connecting rod, the stirring plate is enabled to swing back and forth, the effective stirring function of the mechanism is realized, meanwhile, the second fixing sleeve drives the stirring plate to rotate, the effective automatic circulating stirring function of the mechanism is realized, the stirring plate can stir raw materials fully and uniformly, and the final biological feed fermentation effect is ensured.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a circulating stirring mechanism and a biological feed fermentation device.

Fig. 2 is an enlarged view of a structure at a in fig. 1.

FIG. 3 is a schematic view of the connection relationship between the incomplete gear and the rack plate in one embodiment of the circulation whipping mechanism.

FIG. 4 is a schematic diagram of the structure of the elastic component in one embodiment of the recycling and blending mechanism.

In the figure: 1-a base; 2-standing the plate; 3-a transverse plate; 4-outer box; 5-an inner box; 6, a water pump; 7-an introduction tube; 8-a delivery pipe; 9-a feeding port; 10-a motor; 11-a rotating shaft; 12-a first bevel gear; 13-a second bevel gear; 14-a first drive belt; 15-a connecting shaft; 16-fixed gear; 17-a rotating gear; 18-a worm; 19-a worm gear; 20-a second drive belt; 21-incomplete gear; 22-a stationary cylinder; 23-a pressure spring; 24-a telescopic rod; 25-rack plate; 26-a connecting rod; 27-turning the stirring plate; 28-a rotating plate; 29-a first fixed sleeve; 30-second fixed cannula.

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.

In addition, an element of the present invention may be said to be "fixed" or "disposed" to another element, either directly on the other element or with intervening elements present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1 to 4, in an embodiment of the present invention, a circulating stirring mechanism includes: the device comprises a base 1, a transverse plate 3 fixedly installed through a vertical plate 2, an outer box 4 installed on the base 1 and an inner box 5 arranged inside the outer box 4, wherein a gap is reserved between the outer box 4 and the inner box 5, and a driving assembly is installed on the transverse plate 3;

the driving assembly comprises a motor 10 arranged on the transverse plate 3, a rotating shaft 11 connected with the output end of the motor 10 and extending to the inner part of the inner box 5, and a first fixed sleeve 29 and a second fixed sleeve 30 which are fixedly arranged on the rotating shaft 11 through bolts, wherein the first fixed sleeve 29 is fixedly connected with a rotating plate 28, and the second fixed sleeve 30 is hinged with a stirring plate 27;

the circulating stirring mechanism further comprises a gear set structure arranged on the rotating shaft 11 and the rotating plate 28, the gear set structure is connected with a transmission assembly arranged on the rotating plate 28, the transmission assembly is connected with an elastic assembly arranged on the rotating plate 28 through a meshing structure, and the elastic assembly is connected with the stirring plate 27 through a connecting rod 26;

when the motor 10 works, the rotating shaft 11 is driven to rotate through the first fixing sleeve 29, the rotating plate 28 is driven to rotate, the gear set structure triggers in the rotating process and drives the transmission assembly to move, the transmission assembly drives the meshing structure to move, the meshing structure drives the elastic assembly to move, so that the elastic assembly drives the stirring plate 27 to swing through the connecting rod 26, and meanwhile, the second fixing sleeve 30 drives the stirring plate 27 to rotate, so that the stirring position of the stirring plate 27 is changed.

In the embodiment of the invention, when in use, the motor 10 works to drive the rotating shaft 11 to rotate, the rotating shaft 11 drives the rotating plate 28 to rotate through the first fixing sleeve 29, the gear set structure triggers to move in the rotating process and drives the transmission assembly to move, the transmission assembly drives the meshing structure to move, and the meshing structure drives the elastic assembly to move, so that the elastic assembly drives the stirring plate 27 to move through the connecting rod 26, the stirring plate 27 swings back and forth, an effective stirring function of the mechanism is realized, and meanwhile, the second fixing sleeve 30 drives the stirring plate 27 to rotate, and an effective automatic circulating stirring function of the mechanism is realized.

As an embodiment of the present invention, the transmission assembly includes a worm 18 mounted on the rotating plate 28, and a worm wheel 19 rotatably mounted on the rotating plate 28 and engaged with the worm 18, and the worm wheel 19 is connected to the meshing structure, and the worm 18 is connected to the gear set structure.

In the embodiment of the invention, when the gear set structure is triggered to work, the worm 18 is driven to rotate, the worm 18 drives the worm wheel 19 to rotate, so that the worm wheel 19 drives the meshing structure to move, and the meshing structure drives the elastic component to move, so that the transmission component plays an effective transmission function for the movement of the meshing structure when the gear set structure moves, and the final stirring automation of the mechanism is ensured.

As an embodiment of the present invention, the gear set structure includes a fixed gear 16 disposed on the rotating shaft 11 and a rotating gear 17 fixedly mounted on an end of the worm 18 away from the rotating plate 28 and engaged with the fixed gear 16, and the fixed gear 16 is fixedly connected to the top wall of the inner box 5 by two connecting shafts 15.

In the embodiment of the invention, when the driving assembly works, the rotating shaft 11 drives the rotating plate 28 to rotate through the first fixed sleeve 29, so that the rotating gear 17 rotates around the fixed gear 16, and since the fixed gear 16 is fixedly connected with the top wall of the inner box 5 through the two connecting shafts 15, the fixed gear 16 is in a static state and is matched with the rotating gear 17, so that the rotating gear 17 rotates around the fixed gear 16 and simultaneously rotates, the rotating gear 17 drives the worm 18 to rotate, and the normal movement of the transmission assembly is ensured.

As an embodiment of the present invention, the elastic assembly includes a fixed cylinder 22 fixedly disposed on the rotating plate 28, a pressure spring 23 having one end fixedly connected to a bottom wall of the fixed cylinder 22, and a telescopic rod 24 fixedly connected to the other end of the pressure spring 23, one end of the telescopic rod 24 away from the pressure spring 23 is connected to the stirring plate 27 through the connecting rod 26, and two ends of the connecting rod 26 are respectively hinged to the stirring plate 27 and the telescopic rod 24.

In the embodiment of the present invention, when the engaging structure moves, the telescopic rod 24 is driven to reciprocate in the vertical direction, when the telescopic rod 24 moves downward, the telescopic rod 24 stretches the compression spring 23 and drives the stirring plate 27 to deflect downward by a certain angle through the connecting rod 26, and when the telescopic rod 24 moves upward, the stirring plate 27 is driven by the connecting rod 26 to return to the horizontal position and deflect upward by a certain angle, so that the reciprocating motion is performed, and an effective stirring function of the stirring plate 27 is realized.

As an embodiment of the present invention, the engaging structure includes an incomplete gear 21 rotatably mounted on the rotating plate 28 and connected to the worm wheel 19 by a second transmission belt 20, and a rack plate 25 disposed on the telescopic rod 24 and engaged with the incomplete gear 21, and a portion of the incomplete gear 21 is provided with teeth, and another portion is provided without teeth, and the toothed portion is intermittently engaged with the rack plate 25.

In the embodiment of the invention, when the transmission assembly moves, the worm wheel 19 drives the incomplete gear 21 to rotate through the second transmission belt 20, when a toothed part on the incomplete gear 21 is matched with the rack plate 25, the incomplete gear 21 enables the telescopic rod 24 to move downwards through the rack plate 25 and stretches the compression spring 23, so that the telescopic rod 24 drives the stirring plate 27 to deflect downwards for a certain angle through the connecting rod 26, when the toothed part on the incomplete gear 21 is separated from the rack plate 25, the compression spring 23 enables the telescopic rod 24 to move upwards due to the self elastic force recovery, and the stirring plate 27 is driven by the connecting rod 26 to recover to a horizontal position and deflect upwards for a certain angle, and the reciprocating operation is carried out, so that the effective stirring function of the stirring plate 27 is realized.

A biological feed fermentation device comprises the circulating stirring mechanism and a feeding port 9 which is arranged on the outer box 4 and communicated with the inner box 5, wherein a temperature control assembly is arranged on the transverse plate 3;

the temperature control assembly is connected with the rotating shaft 11 through a bevel gear set structure, the temperature control assembly is communicated with a gap between the inner box 5 and the outer box 4, and when the motor 10 drives the rotating shaft 11 to rotate, the rotating shaft 11 drives the temperature control assembly to work through the bevel gear set so as to control the temperature in the inner box 5.

In the embodiment of the invention, when the biological feed is fermented, the fermented raw materials are conveyed into the inner box 5 through the feeding port 9, the stirring mechanism works to stir the fermented raw materials, and meanwhile, the rotating shaft 11 drives the temperature control component to work through the bevel gear group structure, so that the temperature control component provides a proper fermentation temperature for the inner box 5, the effective fermentation function of the equipment is realized, and the effectiveness and high efficiency of the biological feed fermentation are ensured.

As an embodiment of the present invention, the bevel gear set structure comprises a first bevel gear 12 fixedly mounted on the rotating shaft 11, a transmission shaft rotatably mounted on the top of the outer box 4, and a second bevel gear 13 fixedly mounted on the transmission shaft and engaged with the first bevel gear 12, and the transmission shaft is connected with the temperature control assembly.

In the embodiment of the invention, when the motor 10 drives the rotating shaft 11 to rotate, the rotating shaft 11 drives the first bevel gear 12 to rotate, the first bevel gear 12 drives the second bevel gear 13 to rotate with the transmission shaft, so that the transmission shaft drives the temperature control component to work, and the bevel gear set structure provides effective power for normal work of the temperature control component, thereby ensuring the fermentation effect of the equipment.

As an embodiment of the present invention, the temperature control assembly includes a water pump 6 mounted on the horizontal plate 3 and having a driving shaft connected to the driving shaft through a first driving belt 14, an inlet pipe 7 connected to a water outlet of the water pump 6, and an outlet pipe 8 disposed at a side of the outer box 4, wherein both the inlet pipe 7 and the outlet pipe 8 are communicated with a gap between the inner box 5 and the outer box 4, and a water inlet of the water pump 6 is connected to a water source with a suitable temperature.

In the embodiment of the invention, when the temperature of the fermentation environment is controlled, the water source is heated or cooled to a proper temperature and is connected with the water inlet of the water pump 6, the bevel gear group moves in structure, the transmission shaft drives the water pump 6 to work through the first transmission belt 14, the water pump 6 sucks water with a proper temperature and transmits the water to the gap between the inner box 5 and the outer box 4 through the guide-in pipe 7 at the water outlet, so that the temperature in the inner box 5 is effectively controlled, when the water in the gap between the inner box 5 and the outer box 4 reaches a certain height, the water is discharged through the guide-out pipe 8, effective water circulation is realized, a stable temperature is provided for the fermentation environment of the biological feed, and the stable fermentation is ensured.

The working principle of the invention is as follows: when the biological feed is fermented, the fermented raw material is input into the inner box 5 through the feeding port 9, the motor 10 works, the rotating shaft 11 drives the water pump 6 to work through the first bevel gear 12 and the second bevel gear 13, the water pump 6 guides water with proper temperature into a gap between the inner box 5 and the outer box 4 to provide temperature suitable for fermentation, meanwhile, the rotating shaft 11 drives the rotating plate 28 and the stirring plate 27 to rotate, in the process, the rotating gear 17 rotates around the fixed gear 16 and rotates in the rotating process, so that the rotating gear 17 drives the worm 18 and the worm gear 19 to rotate, the worm gear 19 drives the incomplete gear 21 to rotate, the incomplete gear 21 is matched with the rack plate 25, the telescopic rod 24 reciprocates up and down, the telescopic rod 24 drives the stirring plate 27 to reciprocate through the connecting rod 26, and the stirring plate 27 reciprocates while rotating in the inner box 5, continuously stirring the fermentation raw materials.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a circulation stirring mechanism which characterized in that, circulation stirring mechanism includes: the device comprises a base (1), a transverse plate (3) fixedly installed through a vertical plate (2), an outer box (4) installed on the base (1) and an inner box (5) arranged inside the outer box (4), wherein a gap is reserved between the outer box (4) and the inner box (5), and a driving assembly is installed on the transverse plate (3);

the driving assembly comprises a motor (10) arranged on the transverse plate (3), a rotating shaft (11) connected with the output end of the motor (10) and extending to the interior of the inner box (5), and a first fixed sleeve (29) and a second fixed sleeve (30) which are fixedly arranged on the rotating shaft (11) through bolts, wherein the first fixed sleeve (29) is fixedly connected with a rotating plate (28), and the second fixed sleeve (30) is hinged with a stirring plate (27);

the circulating stirring mechanism further comprises a gear set structure arranged on the rotating shaft (11) and the rotating plate (28), the gear set structure is connected with a transmission assembly arranged on the rotating plate (28), the transmission assembly is connected with an elastic assembly arranged on the rotating plate (28) through a meshing structure, and the elastic assembly is connected with the stirring plate (27) through a connecting rod (26);

when motor (10) during operation drives pivot (11) rotates, and pivot (11) are passed through first fixed sleeving (29) drives rotor plate (28) rotates, rotates in-process gear train structure trigger motion, and drives the transmission subassembly motion, the transmission subassembly drives the motion of meshing structure, meshing structure drives the elastic component motion, so that elastic component passes through connecting rod (26) and drives stir board (27) swing, and simultaneously, second fixed sleeving (30) drive stir board (27) rotate, in order to change stir the position that board (27) stirred.

2. The mechanism of claim 1, wherein the transmission assembly comprises a worm (18) mounted on the rotating plate (28), a worm wheel (19) rotatably mounted on the rotating plate (28) and engaged with the worm (18), and the worm wheel (19) is connected with the meshing structure, and the worm (18) is connected with the gear set structure.

3. A circulating stirring mechanism as claimed in claim 2, characterized in that the gear set structure comprises a fixed gear (16) arranged on the rotating shaft (11) and a rotating gear (17) fixedly arranged on one end of the worm (18) far away from the rotating plate (28) and meshed with the fixed gear (16), and the fixed gear (16) is fixedly connected with the top wall of the inner box (5) through two connecting shafts (15).

4. The circulating stirring mechanism of claim 3, wherein the elastic assembly comprises a fixed cylinder (22) fixedly arranged on the rotating plate (28), a pressure spring (23) fixedly connected with one end of the bottom wall of the fixed cylinder (22), and a telescopic rod (24) fixedly connected with the other end of the pressure spring (23), one end of the telescopic rod (24) far away from the pressure spring (23) is connected with the stirring plate (27) through the connecting rod (26), and two ends of the connecting rod (26) are respectively hinged with the stirring plate (27) and the telescopic rod (24).

5. A circulating stirring mechanism as claimed in claim 4, characterized in that the meshing structure comprises an incomplete gear (21) which is rotatably mounted on the rotating plate (28) and is connected with the worm wheel (19) through a second transmission belt (20), and a rack plate (25) which is arranged on the telescopic rod (24) and is matched with the incomplete gear (21), and one part of the incomplete gear (21) is provided with teeth, the other part of the incomplete gear is provided with non-teeth, and the teeth are discontinuously matched with the rack plate (25).

6. A biological feed fermentation device, characterized in that the biological feed fermentation device comprises the circulating stirring mechanism as claimed in any one of claims 1 to 5, and further comprises a feeding port (9) which is arranged on the outer box (4) and communicated with the inner box (5), and a temperature control assembly is arranged on the transverse plate (3);

the temperature control assembly is connected with the rotating shaft (11) through a bevel gear set structure, the temperature control assembly is communicated with a gap between the inner box (5) and the outer box (4), and when the motor (10) drives the rotating shaft (11) to rotate, the rotating shaft (11) drives the temperature control assembly to work through the bevel gear set so as to control the temperature in the inner box (5).

7. The biological feed fermentation equipment according to claim 6, wherein the bevel gear set structure comprises a first bevel gear (12) fixedly installed on the rotating shaft (11), a transmission shaft rotatably installed on the top of the outer box (4), and a second bevel gear (13) fixedly installed on the transmission shaft and engaged with the first bevel gear (12), and the transmission shaft is connected with the temperature control component.

8. The biological feed fermentation equipment according to claim 7, wherein the temperature control assembly comprises a water pump (6) which is installed on the transverse plate (3) and a driving shaft of which is connected with the transmission shaft through a first transmission belt (14), an inlet pipe (7) which is connected with a water outlet of the water pump (6), and an outlet pipe (8) which is arranged at the side part of the outer box (4), the inlet pipe (7) and the outlet pipe (8) are both communicated with a gap between the inner box (5) and the outer box (4), and a water inlet of the water pump (6) is connected with a water source with a proper temperature.