CN211311457U - Brown sugar fermenting installation for fodder - Google Patents
Brown sugar fermenting installation for fodder Download PDFInfo
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- CN211311457U CN211311457U CN201922036199.4U CN201922036199U CN211311457U CN 211311457 U CN211311457 U CN 211311457U CN 201922036199 U CN201922036199 U CN 201922036199U CN 211311457 U CN211311457 U CN 211311457U
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Abstract
The utility model discloses a brown sugar fermentation device for feed, which comprises a fermentation tank, wherein the top of the fermentation tank is connected with a main material feeding end; the bottom of the fermentation tank is communicated with a discharge pipe; a sampling assembly is arranged in the fermentation tank, and fermentation liquor at different liquid level heights in the fermentation tank is sampled through the sampling assembly; the sampling assembly comprises an annular material pipe communicated with the lower end of the fermentation tank, the annular material pipe is positioned outside the fermentation tank, and the fermentation tank is positioned in an annular gap of the annular material pipe; the inner side wall of the annular material pipe is communicated with a plurality of sampling bent pipes with different lengths, the sampling bent pipes penetrate through the side wall of the fermentation tank, and the liquid inlet ends of the sampling bent pipes are communicated with a liquid inlet cover; the sampling bent pipes are connected with valves, the bottom of the annular material pipe is communicated with a plurality of fermentation liquor discharging assemblies, and fermentation liquor is collected through the fermentation liquor discharging assemblies. By the mode, sampling of fermentation liquor with different liquid level heights in the fermentation process is realized, and the technical defect that the traditional fermentation device cannot sample different liquid levels is overcome.
Description
Technical Field
The utility model relates to a feed processing device field especially relates to a brown sugar fermenting installation for fodder.
Background
With the constant retrogression of feeding technology, the development of feed for feeding animals is also continuous. The existing research shows that the addition of the fermentation liquor with brown sugar in the feed can obviously improve the nutritive value of the feed and improve the meat quality of the fed animals.
The brown sugar for the fermented feed is usually mixed into fermentation liquor in the preparation process of the feed to form the fermentation liquor with the brown sugar, and then the fermentation liquor and feed raw materials are mixed and fermented to prepare the brown sugar feed.
In the process of preparing the brown sugar fermentation liquor, the fermentation liquor is heterogeneous liquid, so the fermentation degrees of the fermentation liquor at different liquid level heights are different, and the key of the fermentation process is to control the fermentation conditions of the fermentation liquor at different fermentation liquid levels in real time.
Therefore, sampling and detecting fermentation liquid at different liquid levels is another key point for controlling fermentation, and the fermentation tank disclosed in the prior art does not have a device for sampling fermentation liquid at different liquid level heights. What operating personnel adopted is that to adopt simple and easy sampling tube to take a sample more, and this mode defect lies in, need constantly open the fermentation cylinder, not only influences the fermentation process, and the sampling precision is not high.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a brown sugar fermenting installation for fodder is provided.
The utility model discloses a solve above-mentioned technical problem through following technical scheme:
a brown sugar fermentation device for feed comprises a fermentation tank, wherein the top of the fermentation tank is connected with a main material charging end;
the bottom of the fermentation tank is communicated with a discharge pipe;
the fermentation tank is internally provided with a sampling assembly, and fermentation liquids at different liquid level heights in the fermentation tank are sampled through the sampling assembly;
the sampling assembly comprises an annular material pipe communicated with the lower end of the fermentation tank, the annular material pipe is positioned outside the fermentation tank, and the fermentation tank is positioned in an annular gap of the annular material pipe;
the inner side wall of the annular material pipe is communicated with a plurality of sampling bent pipes with different lengths, the sampling bent pipes penetrate through the side wall of the fermentation tank, the liquid inlet ends of the sampling bent pipes are positioned in the fermentation tank, and the liquid inlet ends of the sampling bent pipes are communicated with a liquid inlet cover;
the sampling bent pipes are connected with valves, and the valves are positioned outside the fermentation tank;
the bottom of the annular material pipe is communicated with a plurality of fermentation liquor discharge assemblies, and fermentation liquor is collected through the fermentation liquor discharge assemblies.
Preferably, the fermentation cylinder is equipped with the stirring subassembly, the stirring subassembly includes driving motor, driving motor is connected with the (mixing) shaft, the (mixing) shaft runs through the top of fermentation cylinder and is connected with the stirring rake, the feed liquor cover sets up with the stirring rake interval.
Preferably, the sampling bent pipe annular array is distributed and communicated on the annular material pipe;
the number of the fermentation liquid discharging assemblies is equal to that of the sampling bent pipes;
the fermentation liquid discharging assemblies are distributed on the annular material pipe in an annular array.
Preferably, the fermentation liquor discharge assemblies are distributed on the annular material pipe in an annular array;
the fermentation liquid discharging assemblies respectively comprise a sample pipe communicated with the annular material pipe, the liquid outlet end of the sample pipe is communicated with a liquid storage ball, the bottom of the liquid storage ball is communicated with a liquid outlet pipe, and a valve is arranged on the sample pipe.
Preferably, the main material charging end comprises a main material charging pipe, and the main material charging pipe is connected with a flange.
Preferably, a plurality of fixed support rods are welded at the bottom of the fermentation tank.
Preferably, a plurality of sealing separation blades are fixedly connected in the annular material pipe, a plurality of independent separation cavities are formed in the annular material pipe through the sealing separation blades, and the sampling bent pipe and the corresponding sample material pipe are communicated with the separation cavities;
the sampling bent pipe is sealed in a barrier way through the sealing barrier piece, and the sampling bent pipe is sealed in a barrier way through the sealing barrier piece.
Compared with the prior art, the utility model has the following advantages:
firstly, through design sampling subassembly, specifically be valve, sample pipe, liquid storage ball, drain pipe design realization on annular material pipe, not co-altitude sample return bend, feed liquor cover, the sample return bend: the valves on different sampling bent pipes are opened to communicate different sampling bent pipes with the annular material pipe, so that materials at different liquid levels are placed into the annular material pipe, the materials of the annular material pipe enter the sample material pipes at different positions and then enter the liquid storage ball, and the materials are discharged from the liquid outlet pipe communicated with the bottom of the liquid storage ball to realize sampling.
Above-mentioned mode has realized taking a sample to the zymotic fluid of different liquid level height at the fermentation in-process, has solved the unable different liquid level sample of traditional fermenting installation to and the sample need open the technical defect of fermentation cylinder.
Drawings
Fig. 1 is a schematic elevation structure diagram of a sampling assembly according to an embodiment of the present invention;
FIG. 2 is a schematic view of a connection relationship between a sealing separation plate and an annular material pipe in an embodiment of the present invention;
fig. 3 is a schematic plan view of the sampling assembly of fig. 1 according to an embodiment of the present invention;
fig. 4 is a schematic view of the overall structure in the embodiment of the present invention.
Detailed Description
The embodiments of the present invention will be described in detail below, and the present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.
As shown in fig. 1-4, a brown sugar fermentation device for feed comprises a fermentation tank 1, wherein the fermentation tank 1 is a conventional fermentation tank 1 disclosed in the prior art, and the main framework thereof comprises: fermentation cylinder 1 to and set up and be connected with the major ingredient charging end at fermentation cylinder 1's top (the major ingredient charging end is connected with the flange including the major ingredient filling tube of intercommunication at fermentation cylinder 1 top on the major ingredient filling tube, the utility model discloses well major ingredient charging end is used for reinforced brown sugar liquid). Meanwhile, the bottom of the fermentation tank 1 is communicated with a discharge pipe 11 (the discharge pipe 11 is provided with a valve).
Simultaneously, fermentation cylinder 1 is equipped with the stirring subassembly, and the stirring subassembly includes driving motor, and driving motor is connected with the (mixing) shaft, the top that the (mixing) shaft runs through fermentation cylinder 1 is connected with the stirring rake (not drawn in the picture) (the stirring rake stirs the supernatant fluid of zymotic fluid, in the fermentation process, need not acutely to stir the zymotic fluid, slightly stir can, therefore, the stirring rake is close to the upper end of the fermentation cylinder 1 body, and then can not receive the interference of following feed liquor cover 24 in the stirring process, both following feed liquor cover 24 and stirring rake interval set up), feed liquor cover 24 and stirring rake interval set up.
The technical proposal or technical dictionary can be looked up by the technical staff in the field, the utility model discloses a major structure and the theory of operation process of above-mentioned fermentation cylinder 1 are to prior art defect, the utility model discloses carry out the improvement of following structure on current fermentation cylinder 1's basis to this solves among the prior art to the fermentation, can't be timely effectual carries out the sample detection to the zymotic fluid of co-altitude liquid level department, leads to the technical defect to co-altitude liquid level department zymotic fluid sample difficulty and can't control the fermentation process in real time.
Specifically, a sampling assembly 2 is assembled in a fermentation tank 1 (a plurality of fixed support rods are welded at the bottom of the fermentation tank 1 and supported by the support rods), the sampling assembly 2 comprises an annular material pipe 22 communicated with the lower end of the fermentation tank 1, the annular material pipe 22 is positioned outside the fermentation tank 1, and the fermentation tank 1 is positioned in an annular gap of the annular material pipe 22; the inside wall intercommunication of annular material pipe 22 has the different sample return bend 23 of a plurality of length (sample return bend 23 annular array distributes and communicates on annular material pipe 22, and sample return bend 23 sets up upwards after buckling). Each sampling elbow 23 runs through the side wall of the fermentation tank 1 (the running-through part is sealed according to the existing mode), the liquid inlet end of the sampling elbow 23 is positioned in the fermentation tank 1, and the liquid inlet end of the sampling elbow 23 is communicated with a liquid inlet cover 24.
Because the sampling bent pipes 23 are different in length, the liquid inlet cover 24 is positioned at the liquid level of different fermentation liquids in the fermentation tank 1. The sampling bent pipes 23 are connected with valves 231, and the valves 231 are located outside the fermentation tank 1 (the valves 231 are close to the communication part of the sampling bent pipes 23 and the annular material pipes 22).
The valves 231 on the different sampling bent pipes 23 are opened to communicate the different sampling bent pipes 23 with the annular material pipe 22, so that the materials at different liquid levels are placed into the annular material pipe 22, and the materials at different fermentation liquid levels are sampled.
The bottom of the annular material pipe 22 is communicated with a plurality of fermentation liquid discharge assemblies 21, and fermentation liquid is collected (detection is carried out after the fermentation liquid is collected) through the fermentation liquid discharge assemblies 21.
The fermentation liquid discharging assemblies 21 respectively comprise a sample tube 211 communicated with the annular tube 22, the liquid outlet ends of the sample tubes 211 are communicated with liquid storage balls 212 (spherical cavities are arranged in the liquid storage balls 212), and the bottoms of the liquid storage balls 212 are communicated with liquid outlet tubes. The sample tube 211 is provided with a valve. Meanwhile, the number of the fermentation liquid discharging assemblies 21 is equal to the number of the sampling bent pipes 23 (i.e., the number of the sample material pipes 211 is equal to the number of the sampling bent pipes 23, and meanwhile, the communication part between the sample material pipes 211 and the annular material pipes 22 corresponds to the communication part between the sampling bent pipes 23 and the annular material pipes 22). Accordingly, the fermentation liquid discharge assembly 21 is distributed on the annular pipe 22 in an annular array.
Meanwhile, in order to avoid pollution, a plurality of sealing separation baffle sheets 221 are fixedly connected in the annular material pipe 22, a plurality of independent separation cavities a are formed in the annular material pipe through the sealing separation baffle sheets 221 (the sealing separation baffle sheets 211 are metal circular sheets matched with the annular material pipe 22), and the sampling bent pipe 23 and the corresponding sample material pipe 211 are communicated with the separation cavities a. Meanwhile, the sealing separation baffle A separates and seals the adjacent sampling bent pipe 23, and the sealing separation baffle A separates and seals the adjacent sampling pipe 211.
The sampling elbow 22, the barrier cavity A and the sampling pipe 211 form an independent sampling unit, and the adjacent sampling units are sealed to form barriers, so that poor pollution cannot be caused.
The liquid outlet end of the feeding pipe 34 is close to the upper end in the fermentation tank 1, and the side wall of the buffer cover 33 close to the fermentation tank 1 does not influence the normal stirring of the stirring shaft.
The device has the advantages of component design:
firstly, through design sampling subassembly 2, specifically be valve, sample pipe 211, stock solution ball 212, the drain pipe design realization on annular material pipe 22, the not sample return bend 23 of co-altitude, the feed liquor cover 24, the sample return bend 23: the valves on the different sampling bent pipes 23 are opened to communicate the different sampling bent pipes 23 with the annular material pipe 22, so that materials at different liquid levels are placed into the annular material pipe 22, the materials of the annular material pipe 22 enter the sample material pipes 211 at different positions and then enter the liquid storage ball 212, and the materials are discharged from the liquid outlet pipe communicated with the bottom of the liquid storage ball 212, and sampling is achieved.
Above-mentioned mode has realized taking a sample to the zymotic fluid of different liquid level height at the fermentation in-process, has solved the unable different liquid level sample of traditional fermenting installation to and the sample need open fermentation cylinder 1's technical defect.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (7)
1. The brown sugar fermentation device for the feed is characterized by comprising a fermentation tank, wherein the top of the fermentation tank is connected with a main material feeding end;
the bottom of the fermentation tank is communicated with a discharge pipe;
the fermentation tank is internally provided with a sampling assembly, and fermentation liquids at different liquid level heights in the fermentation tank are sampled through the sampling assembly;
the sampling assembly comprises an annular material pipe communicated with the lower end of the fermentation tank, the annular material pipe is positioned outside the fermentation tank, and the fermentation tank is positioned in an annular gap of the annular material pipe;
the inner side wall of the annular material pipe is communicated with a plurality of sampling bent pipes with different lengths, the sampling bent pipes penetrate through the side wall of the fermentation tank, the liquid inlet ends of the sampling bent pipes are positioned in the fermentation tank, and the liquid inlet ends of the sampling bent pipes are communicated with a liquid inlet cover;
the sampling bent pipes are connected with valves, and the valves are positioned outside the fermentation tank;
the bottom of the annular material pipe is communicated with a plurality of fermentation liquor discharge assemblies, and fermentation liquor is collected through the fermentation liquor discharge assemblies.
2. The brown sugar fermenting device for feed of claim 1, wherein the fermentation tank is equipped with a stirring component, the stirring component comprises a driving motor, the driving motor is connected with a stirring shaft, the stirring shaft penetrates through the top of the fermentation tank and is connected with a stirring paddle, and the liquid inlet cover and the stirring paddle are arranged at intervals.
3. The brown sugar fermentation device for feed of claim 2, wherein the sampling bent pipes are distributed and communicated on the annular material pipe in an annular array;
the number of the fermentation liquid discharging assemblies is equal to that of the sampling bent pipes;
the fermentation liquid discharging assemblies are distributed on the annular material pipe in an annular array.
4. The brown sugar fermentation device for feed of claim 3, wherein the fermentation liquid discharge assembly is distributed on the annular material pipe in an annular array;
the fermentation liquid discharging assemblies respectively comprise a sample pipe communicated with the annular material pipe, the liquid outlet end of the sample pipe is communicated with a liquid storage ball, the bottom of the liquid storage ball is communicated with a liquid outlet pipe, and a valve is arranged on the sample pipe.
5. The brown sugar fermenting apparatus for feed of claim 4, wherein the main material charging end comprises a main material charging pipe, and a flange is connected to the main material charging pipe.
6. The brown sugar fermentation device for feed of claim 5, wherein a plurality of fixed support rods are welded at the bottom of the fermentation tank.
7. The brown sugar fermentation device for feed of claim 6, wherein a plurality of sealing separation blades are fixedly connected in the annular material pipe, a plurality of independent separation cavities are formed in the annular material pipe through the sealing separation blades, and the sampling bent pipe and the corresponding sample material pipe are communicated with the separation cavities;
the sampling bent pipe is sealed in a barrier way through the sealing barrier piece, and the sampling bent pipe is sealed in a barrier way through the sealing barrier piece.
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CN201922036199.4U CN211311457U (en) | 2019-11-22 | 2019-11-22 | Brown sugar fermenting installation for fodder |
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CN201922036199.4U CN211311457U (en) | 2019-11-22 | 2019-11-22 | Brown sugar fermenting installation for fodder |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114052194A (en) * | 2021-11-26 | 2022-02-18 | 瑞昌市溢香农产品有限公司 | Processing method of salted duck liquid |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114052194A (en) * | 2021-11-26 | 2022-02-18 | 瑞昌市溢香农产品有限公司 | Processing method of salted duck liquid |
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