CN216947025U - Microorganism immobilization fermentation feeding device - Google Patents

Abstract

The utility model discloses a feeding device for immobilized microorganism fermentation, belonging to the technical field of immobilized microorganism fermentation, which comprises a support frame and a feeding insulation box fixed on the upper end surface of the support frame, wherein the top end of the feeding insulation box is movably inserted with a transmission pipe with a heat preservation function, one end of the heat preservation transmission pipe, which is far away from the feeding insulation box, is connected with a butt-joint transition pipe, a low-temperature electric heating plate is arranged in the butt-joint transition pipe, one end of the butt-joint transition pipe, which is far away from the transmission pipe, is connected with a feeding pipe, the outer side of the butt-joint transition pipe is provided with a fixed frame, the front side of the feeding insulation box is fixedly provided with a transparent observation window, the bottom end of the feeding insulation box is connected with an output pipe with the heat preservation function, and the right side of the feeding insulation box is provided with a speed reduction motor as auxiliary power, avoid raw material agglomeration and retardation.

Description

Microorganism immobilization fermentation feeding device

Technical Field

The utility model relates to the technical field of microorganism immobilized fermentation, in particular to a microorganism immobilized fermentation feeding device.

Background

Immobilized microbial technology refers to modern bioengineering technology that locates free microorganisms within a defined spatial area by chemical or physical methods, making them highly dense and biologically active, capable of rapid, mass propagation under appropriate conditions, and capable of repeated and continuous use.

Through retrieval, chinese patent discloses a microorganism immobilization fermentation feeding device (publication No. CN210151063U3), and although this patent technology uses a spiral feeding tube and an atomizing nozzle to drive the raw material feeding to prevent blockage and heat the raw material, the structure is complex, so those skilled in the art provide a microorganism immobilization fermentation feeding device to solve the problems proposed in the above background art.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide a microorganism immobilized fermentation feeding device which has the advantages that the feeding device adopts a vertical falling mode, the effect of stirring is realized by utilizing gravitational potential energy to carry out transmission matching with a stirring plate, and the raw materials are prevented from caking and blocking.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A microorganism immobilized fermentation feeding device comprises a support frame and a feeding insulation box fixed on the upper end surface of the support frame, wherein a transmission pipe with a heat preservation function is movably inserted at the top end of the feeding insulation box, one end of the heat preservation transmission pipe, far away from the feeding insulation box, is connected with a butt-joint transition pipe, a low-temperature electric heating plate is installed inside the butt-joint transition pipe, one end of the butt-joint transition pipe, far away from the transmission pipe, is connected with a feeding pipe, the outer side of the butt-joint transition pipe is provided with a fixed frame, the front side of the feeding insulation box is fixedly provided with a transparent observation window, the bottom end of the feeding insulation box is connected with an output pipe with a heat preservation function, the right side of the feeding insulation box is provided with a speed reduction motor serving as auxiliary power, the left end surface of the output end of the speed reduction motor is movably connected with a rotating column, the upper side and the lower side of the inner part of the feeding insulation box are provided with at least four groups of shifting plates, and the inner sides of the shifting plates are fixedly provided with mounting rings, the upside the collar right side is fixed with rotates the post, the downside the collar right side rotates and is connected with the fixed column.

Furthermore, the electric heating plate is of a tubular structure, the length of the electric heating plate is smaller than that of the butt joint transition pipe, and the inner diameter of the feeding pipe, the inner diameter of the electric heating plate, the inner diameter of the transmission pipe and the inner diameter of the output pipe are the same.

Further, a bearing is mounted inside the mounting ring on the lower side, and the bearing is matched with the fixing column.

Furthermore, the through-hole has been seted up to mount inside, and the through-hole inner wall is fixed with the arc slider, butt joint transition pipe external diameter is less than the through-hole internal diameter, the arc draw-in groove has been seted up to the butt joint transition pipe annular side left and right sides, arc slider and arc draw-in groove transition fit.

Further, the distance between the lower side mounting ring and the upper side mounting ring is smaller than the sum of the lengths of the upper side material shifting plate and the lower side material shifting plate, and one group of material shifting plates of the upper side material shifting plate is positioned right below the transmission pipe.

Furthermore, the upper side material shifting plate and the lower side material shifting plate are installed in a staggered mode.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) the electric heating plate is arranged into a tubular structure, the length of the electric heating plate is smaller than that of the butt joint transition pipe, the inner diameter of the feeding pipe, the inner diameter of the electric heating plate, the inner diameter of the transmission pipe and the inner diameter of the output pipe are the same, the assembly is convenient, the electric heating plate with the tubular structure can ensure that raw materials are smoothly heated while the raw materials are unobstructed, and the temperature difference between the raw materials and the fermentation tower is reduced;

(2) the bearing is arranged in the lower side mounting ring and is matched with the fixed column, and the bearing is convenient for the lower side mounting ring to drive the lower side stirring plate to rotate and stir materials, so that raw materials are prevented from being blocked and agglomerated;

(3) the interval between downside collar and the upside collar is less than the sum of upside switch-plate and downside switch-plate length, and one of them set of switch-plate of upside switch-plate is under the transmission pipe, and the upside switch-plate can touch and drive the downside switch-plate and rotate when rotating, utilizes gravitational potential energy to carry out the transmission, energy saving and emission reduction to stir the raw materials, prevent that the raw materials caking from blocking.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a microorganism immobilized fermentation feeding device according to the present invention;

FIG. 2 is a front sectional view of a feeding incubator of a microorganism immobilized fermentation feeding device according to the present invention;

FIG. 3 is a side view of a material stirring plate of a microorganism immobilized fermentation feeding device according to the present invention;

FIG. 4 is a front sectional view of a butt-joint transition pipe in a microorganism immobilized fermentation feeding device according to the present invention;

fig. 5 is an enlarged view of a in fig. 2.

The reference numbers in the figures illustrate:

1. a feed pipe; 2. butting a transition pipe; 3. a fixed mount; 4. a conveying pipe; 5. feeding the heat preservation box; 6. a reduction motor; 7. a support frame; 8. an output pipe; 9. a transparent viewing window; 10. rotating the column; 11. fixing a column; 12. a kick-out plate; 13. a mounting ring; 14. an electrical heating plate; 201. an arc-shaped sliding block; 301. an arc-shaped clamping groove; 1101. and (5) a bearing.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Referring to fig. 1-5, in the embodiment of the present invention, a microorganism immobilized fermentation feeding device comprises a support frame 7 and a feeding insulation box 5 fixed on the upper end surface of the support frame 7, a transmission pipe 4 with a thermal insulation function is movably inserted at the top end of the feeding insulation box 5, one end of the insulation transmission pipe 4 away from the feeding insulation box 5 is connected with a butt-joint transition pipe 2, a low temperature electric heating plate 14 is installed inside the butt-joint transition pipe 2, one end of the butt-joint transition pipe 2 away from the transmission pipe 4 is connected with a feeding pipe 1, a fixing frame 3 is installed on the outer side of the butt-joint transition pipe 2, a transparent observation window 9 is fixedly installed on the front side of the feeding insulation box 5, an output pipe 8 with a thermal insulation function is connected at the bottom end of the feeding insulation box 5, a reduction motor 6 as an auxiliary power is assembled on the right side of the feeding insulation box 5, a rotating column 10 is movably connected on the left end surface of the output end of the reduction motor 6, no less than four groups of material stirring plates 12 are arranged on the upper and lower two sides inside the feeding insulation box 5, the mounting ring 13 is fixed on the inner side of the kick-out plate 12, the rotating column 10 is fixed on the right side of the upper mounting ring 13, and the fixing column 11 is connected on the right side of the lower mounting ring 13 in a rotating mode.

Referring to fig. 1, 2 and 4, the electric heating plate 14 is set to be a tubular structure, the length of the electric heating plate 14 is smaller than that of the butt joint transition pipe 2, the inner diameter of the feeding pipe 1, the inner diameter of the electric heating plate 14, the inner diameter of the transmission pipe 4 and the inner diameter of the output pipe 8 are the same, so that the assembly is convenient, the electric heating plate 14 with the tubular structure can ensure that the raw materials are unimpeded and simultaneously heat the raw materials, and the temperature difference between the raw materials and the fermentation tower is reduced.

Referring to fig. 3, a bearing 1101 is installed inside the lower side installation ring 13, the bearing 1101 is matched with the fixing column 11, and the bearing 1101 facilitates the lower side installation ring 13 to drive the lower side material shifting plate 12 to rotate for material shifting, so that the raw materials are prevented from being blocked and agglomerated.

Referring to fig. 1, fig. 2, fig. 4, fig. 5, the through-hole has been seted up to mount 3 inside, and the through-hole inner wall is fixed with arc slider 201, and the butt joint transition pipe 2 external diameter is less than the through-hole internal diameter, and arc draw-in groove 301 has been seted up to the butt joint transition pipe 2 annular side left and right sides, and arc slider 201 and arc draw-in groove 301 transition fit make things convenient for the installation of butt joint transition pipe 2 fixed, play the transition for the transmission of raw materials, provide the support for electric heating plate 14.

Referring to fig. 2 and 3, the distance between the lower mounting ring 13 and the upper mounting ring 13 is smaller than the sum of the lengths of the upper material stirring plate 12 and the lower material stirring plate 12, one group of material stirring plates 12 of the upper material stirring plate 12 is located right below the transmission pipe 4, and the upper material stirring plate 12 can touch and drive the lower material stirring plate 12 to rotate when rotating, so that the raw material is stirred, and the raw material is prevented from blocking.

Referring to fig. 3, the upper side kickoff plates 12 and the lower side kickoff plates 12 are installed in a staggered manner, which enables the upper side kickoff plates 12 and the lower side kickoff plates 12 to better kick off the raw material.

The working principle of the utility model is as follows: firstly, selecting an electric heating plate 14 with a temperature slightly lower than the heating temperature and the temperature of the fermentation tower and higher than the temperature of the raw material to play a transition role, then pouring the raw material into the feeding pipe 1, at the moment, the raw material slides to the electric heating plate 14 along the feeding pipe 1, the temperature generated by the work of the electric heating plate 14 heats the raw material, preventing the raw material from directly entering the fermentation tower to form a large temperature difference to cause energy loss to a certain degree, the raw material entering along the feeding pipe 1 has a certain gravitational potential energy due to the vertical falling in the vertical direction, the raw material enters the feeding insulation box 5 through the electric heating plate 14 and the conveying pipe 4, falls on one group of the poking plates 12 at the upper side and drives the group of the poking plates 12 to move downwards when the raw material falls out of the conveying pipe 4, at the moment, the poking plates 12 at the upper side continuously poking plates stir the raw material through the rotation of the mounting ring 13, and the poking plates 12 at the lower side drive the poking plates 12 to rotate, thereby continuously stir the raw materials in feeding insulation can 5, the inside condition of feeding insulation can 5 is observed to transparent observation window 9, gear motor 6 carries out external force when too much the appearance of inside raw materials retards and disturbs, drives and rotates post 10, and the switch-plate 12 of both sides stirs the raw materials about the principle drives in the same way, and raw materials gets into the fermentation tower along output tube 8 in this process, reduces the temperature difference between raw materials and the fermentation tower between them to appear the clot when preventing the raw materials transmission, retardant.

It should be noted that, in the above description, the gear motor, the electric heating plate, and the like are all devices that are mature in application in the prior art, and the specific model can be selected according to actual needs, and meanwhile, the power supply of the gear motor and the electric heating plate can be supplied to the internal power supply or the commercial power, and the specific power supply mode is selected according to circumstances, and is not described herein again.

The foregoing is only a preferred embodiment of the present invention; the scope of the utility model is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a microorganism immobilization fermentation feed arrangement, includes support frame (7) and the fixed feeding insulation can (5) of support frame (7) up end, its characterized in that, feeding insulation can (5) top activity is pegged graft and is had transmission pipe (4) of heat preservation function, transmission pipe (4) are kept away from feeding insulation can (5) one end and are connected with butt joint transition pipe (2), butt joint transition pipe (2) internally mounted has microthermal electric heating board (14), butt joint transition pipe (2) are kept away from transmission pipe (4) one end and are connected with inlet pipe (1), mount (3) are installed to the butt joint transition pipe (2) outside, feeding insulation can (5) front side fixed mounting has transparent observation window (9), feeding insulation can (5) bottom is connected with output tube (8) of heat preservation function, feeding insulation can (5) right side is equipped with gear motor (6) as auxiliary power, the feeding device is characterized in that a rotating column (10) is movably connected to the left end face of the output end of the speed reducing motor (6), at least four groups of material shifting plates (12) are arranged on the upper and lower sides inside the feeding insulation can (5), a mounting ring (13) is fixed on the inner side of each material shifting plate (12), the rotating column (10) is fixed on the right side of the mounting ring (13) on the upper side, and the fixing column (11) is rotatably connected to the right side of the mounting ring (13) on the lower side.

2. The microorganism immobilized fermentation feeding device of claim 1, wherein: the electric heating plate (14) is arranged to be of a tubular structure, the length of the electric heating plate (14) is smaller than that of the butt joint transition pipe (2), and the inner diameter of the feeding pipe (1), the inner diameter of the electric heating plate (14), the inner diameter of the transmission pipe (4) and the inner diameter of the output pipe (8) are the same.

3. The microorganism immobilized fermentation feeding device of claim 1, wherein: the lower side installing ring (13) internally mounted has bearing (1101), bearing (1101) and fixed column (11) looks adaptation.

4. The microorganism immobilized fermentation feeding device of claim 1, wherein: the through-hole has been seted up to mount (3) inside, and the through-hole inner wall is fixed with arc slider (201), butt joint transition pipe (2) external diameter is less than the through-hole internal diameter, arc draw-in groove (301) have been seted up to butt joint transition pipe (2) annular side left and right sides, arc slider (201) and arc draw-in groove (301) transition fit.

5. The microorganism immobilized fermentation feeding device of claim 1, wherein: the distance between the lower side mounting ring (13) and the upper side mounting ring (13) is smaller than the sum of the lengths of the upper side material shifting plate (12) and the lower side material shifting plate (12), and one group of material shifting plates (12) of the upper side material shifting plate (12) is positioned under the transmission pipe (4).

6. The microorganism immobilized fermentation feeding device of claim 1, wherein: the upper side material shifting plate (12) and the lower side material shifting plate (12) are installed in a staggered mode.

Images