CN218811578U - Cold-pressing flaxseed oil production system - Google Patents

Abstract

The utility model discloses a cold pressing linseed oil production system. The cold-pressed linseed oil production system comprises a storage tank, primary cold pressing equipment and secondary cold pressing equipment, wherein the storage tank is provided with a first discharge port and can store linseed; the primary cold pressing equipment comprises a first auger feeding machine and a primary cold pressing machine, wherein a feeding hole of the first auger feeding machine is connected with a discharging hole of the storage tank, a discharging hole of the first auger feeding machine is connected with a feeding hole of the primary cold pressing machine, and the primary cold pressing machine is provided with a primary slag discharging hole; the second-stage cold pressing equipment comprises a second-stage cold pressing machine, and a feeding hole of the second-stage cold pressing machine is connected with a first-stage material residue discharging hole. Flaxseed is stored in the holding vessel, opens first auger material loading machine, transports the flaxseed to the cold squeezer feed inlet of one-level, and through cold pressing for the first time, the material sediment flows out from the discharge gate of one-level material sediment, gets into the feed inlet of second grade cold squeezer, carries out the secondary cold pressing by second grade cold squeezer again. The linseed material residue is cold-pressed again, so that the residual oil content in the material residue is reduced, and the oil yield of the linseed is improved.

Description

Cold-pressing flaxseed oil production system

Technical Field

The utility model belongs to the technical field of the edible oil that colds squeezes, in particular to linseed oil production system that colds squeezes.

Background

The cold-pressed linseed oil production steps comprise impurity removal, storage, cold pressing and filtration, and raw materials are conveyed to the next step in the impurity removal and storage steps. In the prior art, for example, the chinese utility model with publication number CN210595977U discloses a linseed oil production system, and specifically discloses impurity cleaning equipment, grading storage equipment, blank rolling equipment, quenching and tempering cold pressing equipment and filtering equipment, wherein the impurity cleaning equipment is connected with the grading storage equipment through a first auger discharging machine, and the grading storage equipment is connected with the blank rolling equipment through a conveying device; the rolling equipment is connected with the quenching and tempering cold pressing equipment through a conveying belt; the quenching and tempering cold pressing equipment is connected with the filtering equipment through an oil pipeline; through edulcoration, hierarchical storage, cold pressing, filtration process, form an automatic flaxseed production system, make the cold pressing flow of linseed oil more standard, product quality is more stable, has effectively improved flaxseed storage and cold pressing efficiency. However, in the production process, the auger feeding machine occupies a large space and consumes a high amount of electricity, and the residue has a high oil content by adopting a primary squeezing process, so that the oil production is low.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a cold-pressed linseed oil production system for solving the problems of large occupied space of transportation equipment, high power consumption and high oil content in residue.

In order to achieve the purpose, the utility model adopts the following scheme:

cold pressing linseed oil production system sets up on storage container, includes:

the storage tank is provided with a first discharge port and can store flaxseeds; the primary cold pressing equipment comprises a first auger feeding machine and at least one primary cold pressing machine, wherein a feeding hole of the first auger feeding machine is connected with a discharging hole of the storage tank, a discharging hole of the first auger feeding machine is connected with a feeding hole of the primary cold pressing machine, and the primary cold pressing machine is provided with a primary slag discharging hole; and the secondary cold pressing equipment comprises a secondary cold pressing machine, and a feed inlet of the secondary cold pressing machine is connected with the primary material residue discharge hole.

Preferably, the first-stage cold pressing equipment further comprises a second auger feeding machine, a feed inlet of the second auger feeding machine is connected with the first-stage material residue discharge port, and a discharge outlet of the second auger feeding machine is connected with a feed inlet of the second-stage cold pressing machine.

Preferably, the discharge hole of the second auger feeding machine is provided with a material elevator, and the material elevator can lift the material slag to the feed hole of the secondary cold pressing equipment.

Preferably, the second grade cold pressing equipment still includes third auger material loading machine, third auger material loading machine feed inlet is connected the material elevator discharge gate, third auger material loading machine discharge gate is connected the second grade cold pressing machine feed inlet.

Preferably, still include vacuum apparatus, vacuum apparatus includes vacuum storehouse, vacuum pump, the vacuum storehouse sets up storage jar top, the vacuum pump can make form the negative pressure in the vacuum storehouse, the vacuum storehouse lower part is provided with the discharge gate.

Preferably, the vacuum equipment further comprises a barometer arranged on one side of the vacuum chamber, and the barometer can check the air pressure in the vacuum chamber.

Preferably, an air supply pipe for supplying air into the vacuum chamber is arranged on the vacuum chamber, an air supply valve is arranged on the air supply pipe, and the air supply valve is in telecommunication connection with the barometer.

Preferably, the recycling device further comprises a recycling device, the recycling device comprises a recycling box and a second conveying pipe, one end of the second conveying pipe is placed into the recycling box, and the other end of the second conveying pipe is connected with a vacuum device.

Preferably, the recycling apparatus further comprises a second valve disposed at an end of the second transport pipe near the vacuum apparatus.

Preferably, a second material sensor is arranged in the recovery box and is in communication connection with a second valve.

The technical scheme adopted by the application can achieve the following beneficial effects:

the clean flaxseed of edulcoration is stored in the holding vessel, opens first auger material loading machine, transports the flaxseed to the cold squeezer feed inlet of one-level, and through cold pressing for the first time, the material sediment flows from one-level material sediment discharge gate, gets into the feed inlet of second grade cold squeezer, carries out the secondary cold pressing by second grade cold squeezer again. The linseed material residue is cold-pressed again, so that the residual oil content in the material residue is reduced, and the oil yield of the linseed is improved.

Drawings

Fig. 1 is a schematic structural diagram of a cold-pressed linseed oil production system disclosed in an embodiment of the present application.

Fig. 2 is an enlarged view of a part a of a cold-pressed linseed oil production system disclosed in an embodiment of the present application.

Fig. 3 is an enlarged view of the structure of the part B of the cold-pressed linseed oil production system disclosed in the embodiment of the present application.

Wherein: the cold-pressed linseed oil production system 10, a vacuum device 200, a vacuum bin 220, an aeration valve 221, a barometer 222, a vacuum pump 230, a storage tank 240, a storage tank discharge port 250, a primary cold-pressing device 310, a secondary cold-pressing device 330, a first auger feeding machine 311, a primary residue discharge port 3111, a primary cold-pressing machine 312, a second auger feeding machine 313, a material lifting machine 320, a third auger feeding machine 331, a secondary cold-pressing machine 332, a recovery device 400, a recovery tank 410, a second conveying pipe 420, a second valve 421 and a second material sensor 411.

Detailed Description

To facilitate an understanding of the present application, the present application will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present application are given in the accompanying drawings. This application may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an apparatus is referred to as being "connected" to another apparatus, it can be directly connected to the other apparatus or intervening apparatus may also be present. The terms "inner," "top," "upper," "lower," and the like as used herein are for illustrative purposes only and do not represent a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs. The terminology used herein in the description of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, in a preferred embodiment, a cold pressed flaxseed oil production system 10 comprises: the storage tank 240, the primary cold pressing equipment 310 and the secondary cold pressing equipment 330, wherein the storage tank 240 is provided with a first discharge port 250, and the storage tank 240 can store flaxseeds; the primary cold pressing equipment 310 comprises a first auger feeding machine 311 and at least one primary cold pressing machine 312, a feed inlet of the first auger feeding machine 311 is connected with a discharge outlet of the storage tank 240, a discharge outlet of the first auger feeding machine 311 is connected with a feed inlet of the primary cold pressing machine 312, and the primary cold pressing machine 312 is provided with a primary slag discharge outlet 3111; the secondary cold pressing equipment 330 comprises a secondary cold pressing machine 332, and a feed inlet of the secondary cold pressing machine 332 is connected with the primary slag discharge port 3111. For example, the flaxseed with the clean impurities removed is stored in the storage tank 240, the first auger feeding machine 311 is opened, the flaxseed is transported to the feed inlet of the primary cold-pressing machine 312, and after the primary cold pressing, the residue flows out of the primary residue discharge port 3111, enters the feed inlet of the secondary cold-pressing machine 332, and is subjected to secondary cold pressing by the secondary cold-pressing machine 332. The linseed material residue is cold-pressed again, so that the residual oil content in the material residue is reduced, and the oil yield of the linseed is improved.

Further, the primary cold pressing equipment 310 further comprises a second auger feeding machine 313, a feed inlet of the second auger feeding machine 313 is connected with the primary material residue discharge port 3111, and a discharge outlet of the second auger feeding machine 313 is connected with a feed inlet of the secondary cold pressing machine 332. For example, the flaxseed gets into a plurality of the cold squeezer 312 of one-level carries out the one-level cold press, and remaining dregs of rice follow one-level dregs of rice discharge gate 3111 gets into to set up in the second auger material machine 313 of one-level dregs of rice discharge gate 3111, a plurality of the dregs of the cold squeezer 312 of one-level are all concentrated in the second auger material machine 313, unified transportation and send into a plurality of the cold squeezer 332 of second level carries out the cold press of secondary. The second auger feeding machine 313 is added to transport all the material residues in a centralized manner, so that each feeding hole of the secondary cold press machine 332 is provided with the material residues and can work at full load, the idle consumption of the equipment is reduced, and the service life of the secondary cold press machine 332 is prolonged.

Specifically, a material lifting machine 320 is arranged at a discharge hole of the second auger feeding machine 313, and the material lifting machine 320 can lift the material slag to a feed hole of the secondary cold pressing equipment 330. For example, the second auger feeding machine 313 transports the slag to the material elevator 320 arranged at the discharge port of the second auger feeding machine 313, and the material elevator 320 lifts the slag to the feed port of the secondary cold pressing device 330 for secondary cold pressing. The material lifting machine 320 is added, so that the secondary cold pressing equipment 330 and the primary cold pressing equipment 310 are on the same working surface, and the space utilization rate is improved.

In a preferred embodiment, for convenience of operation, the secondary cold pressing device 330 further comprises a third auger feeding machine 331, a feed inlet of the third auger feeding machine 331 is connected to a discharge outlet of the material lifting machine 320, and a discharge outlet of the third auger feeding machine 331 is connected to a feed inlet of the secondary cold pressing machine 332. For example, material lifting machine 320 promotes the setting with the material sediment to be in the cold squeezer 332 feed inlet of second grade third auger material loading machine 331, just third auger material loading machine 331 feed inlet is connected 320 discharge gates of material lifting machine, the material sediment by third auger material loading machine 331 transports a plurality of respectively the cold squeezer 332 of second grade, and is a plurality of simultaneously the cold squeezer 332 of second grade carries out the cold squeeze of second grade, when improving work efficiency, makes the operation more simple convenient.

In a preferred embodiment, for convenience of operation, the vacuum equipment 200 is further included, the vacuum equipment 200 includes a vacuum chamber 220, and a vacuum pump 230, the vacuum chamber 220 is disposed above the storage tank 240, the vacuum pump 230 is capable of forming a negative pressure in the vacuum chamber 220, and a discharge hole is disposed at a lower portion of the vacuum chamber 220. For example, the vacuum device 200 is disposed above the storage tank 240, the vacuum pump 230 is disposed on the upper bin 220, the vacuum pump 230 forms a negative pressure in the upper bin 220, the negative pressure forms a suction force to enable the flaxseeds to enter the upper bin 220 along the feed inlet of the upper bin 220 and then enter the storage tank 240, so that the flaxseeds in the storage tank 240 always meet the normal operation of the primary cold pressing device 310. According to opening of vacuum pump 230 stops, control go up feed bin 220 rate of transportation, compare in auger material loading machine more save space, power consumption is lower to practice thrift the cost, make the operation more convenient, space utilization is higher.

Further, the vacuum apparatus 200 further includes a gas pressure gauge 222 disposed at one side of the vacuum, and the gas pressure gauge 222 can check the gas pressure in the vacuum chamber 220. For example, when the flaxseeds are transported along the first transporting pipe 210, the speed is not easy to control, and the storage amount of the flaxseeds in the vacuum chamber 220 is difficult to know due to the sealing, the barometer 222 is disposed at one side of the vacuum chamber 220, the air in the vacuum chamber 220 is extracted, the air pressure in the vacuum chamber 220 is observed, so as to adjust the negative pressure, the higher the negative pressure in the vacuum chamber 220 is, the faster the flaxseeds are transported, whereas the lower the negative pressure in the vacuum chamber 220 is, the slower the flaxseeds are transported, and the power of the vacuum pump 230 is adjusted according to the corresponding negative pressure displayed by the barometer 222, so as to change the pressure change in the vacuum chamber 220, so that the cold-pressed flaxseed oil producing system 10 is simple and convenient.

Specifically, an air supply pipe for supplying air into the vacuum chamber 220 is arranged on the vacuum chamber 220, an air supply valve 221 is arranged on the air supply pipe, and the air supply valve 221 is in telecommunication connection with the barometer 222. For example, in order to ensure vacuum sealing and relatively small volume of the vacuum chamber 220, and the phenomenon of burst is easily caused when the vacuum pump 230 is over powered, the air make-up valve 221 is disposed on one side of the vacuum chamber 220, the vacuum pump 230 is turned on to pump air in the vacuum chamber 220 so as to form negative pressure in the vacuum chamber 220, flaxseeds enter the vacuum chamber 220 under the condition of negative pressure, the air make-up valve 221 is adjusted according to the flaxseed transportation rate, and the air in the vacuum chamber 220 is supplemented, so that the transportation rate of flaxseeds is reduced. When the vacuum bin 220 is full of flaxseeds, the vacuum pump 230 needs to be closed to enable the flaxseeds to be cold pressed in the equipment 300, and at this time, the air replenishing valve 221 only needs to be opened to enable the air pumping rate of the vacuum pump 230 to be the same as the air replenishing rate of the air replenishing valve 221, so that the vacuum pump 230 is reduced in closing and opening, and the operation is simpler and more convenient.

In a preferred embodiment, for convenience of operation, the recycling apparatus 400 is further included, the recycling apparatus 400 includes a recycling tank 410, a second conveying pipe 420 and a second valve 421, one end of the second conveying pipe 420 is placed in the recycling tank 410, the other end of the second conveying pipe is connected to the vacuum apparatus 200, and the second valve 421 is disposed on the second conveying pipe 420. For example, store in flaxseed in feed bin 110 transports to the flaxseed of storage jar 240 is by the first end transportation of first auger material loading machine 311 is terminal, and in the transportation, the flaxseed is followed first auger material loading machine 311 discharge gate gets into first order cold press 312, and remaining flaxseed is followed first auger material loading machine 311 transports to setting up first auger material loading machine 311 is terminal collection box 410, the flaxseed in collection box 410 is followed by the negative pressure again second transport pipe 420 transports to in the vacuum apparatus 200, and the transportation is automatic, reduces the artifical process of collecting the clout, transporting the clout, improves work efficiency. The surplus material storage amount in the recycling bin 410 is small, and after enough surplus material is stored in the recycling bin 410, the second valve 421 is opened, so that the recycling equipment 400 works at full load, the low-efficiency working time is shortened, and the power consumption is reduced.

Further, the recycling apparatus 400 further includes a second valve 421, and the second valve 421 is disposed at an end of the second transport pipe 420 near the vacuum chamber 220. For example, the second transport pipe 420 is connected to the vacuum chamber 220, the amount of excess material stored in the recycling apparatus 400 is small, a second valve 421 is disposed at a position of the second transport pipe 420 close to the vacuum chamber 220, when sufficient excess material is stored in the recycling apparatus 400, the second valve 421 is opened, and when the excess material is insufficient, the second valve 421 is closed, so that the full load operation can be performed each time the second valve 421 is opened, thereby reducing the inefficient operation time and reducing the power consumption.

Further, a second material sensor 411 is disposed in the recycling bin 410, and the second material sensor 411 is in electrical communication with a second valve 421. For example, the excess material is stored in the recycling bin 410, the second valve 411 is always opened, the storage amount of flaxseeds is small, the power consumption is high, the second material sensor 411 is arranged in the recycling bin 410, when the excess material in the recycling bin 410 reaches the set height of the second material sensor 411, the second valve 421 is opened, the opening time of the second valve 421 is reduced, and therefore the power consumption is reduced. When the clout reaches in the collection box 410 when second material sensor 411 sets for the height, need the manual work to open second valve 421, will second material sensor 411 with second valve 421 telecommunications connection, work as the clout reaches in the collection box 410 send out the signal when second material sensor 411 sets for the height, open automatically second valve 421 returns the clout in the vacuum apparatus 200, reduces the process of manual opening to improve work efficiency.

The above embodiments only express the way of laying out the devices of the present application, and the description is specific and detailed, but not construed as limiting the scope of the application claims; it should be noted that, for a person skilled in the art, several modifications and improvements can be made without departing from the concept of the present application, and these are all within the protection scope of the present application; therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. Cold pressing linseed oil production system, its characterized in that includes:

the storage tank is provided with a first discharge hole and can store flaxseeds;

the primary cold pressing equipment comprises a first auger feeding machine and at least one primary cold pressing machine, wherein a feeding hole of the first auger feeding machine is connected with a discharging hole of the storage tank, a discharging hole of the first auger feeding machine is connected with a feeding hole of the primary cold pressing machine, and the primary cold pressing machine is provided with a primary slag discharging hole; and

and the second-stage cold pressing equipment comprises a second-stage cold pressing machine, and a feed inlet of the second-stage cold pressing machine is connected with the first-stage material residue discharge hole.

2. The cold-pressed linseed oil production system according to claim 1, wherein the primary cold-pressing equipment further comprises a second auger feeder, a feed port of the second auger feeder is connected with the primary residue discharge port, and a discharge port of the second auger feeder is connected with the feed port of the secondary cold-pressing machine.

3. The cold-pressed linseed oil production system according to claim 2, wherein a material elevator is provided at a discharge port of the second auger feeder, and the material elevator can lift the material residue to a feed port of the secondary cold pressing device.

4. The cold pressed linseed oil production system according to claim 3, wherein the secondary cold pressing equipment further comprises a third auger feeder, a feed inlet of the third auger feeder is connected with a discharge outlet of the material elevator, and a discharge outlet of the third auger feeder is connected with a feed inlet of the secondary cold pressing machine.

5. The cold-pressed linseed oil production system according to claim 1, further comprising a vacuum device, wherein the vacuum device comprises a vacuum chamber, a vacuum pump, the vacuum chamber is arranged above the storage tank, the vacuum pump can make a negative pressure form in the vacuum chamber, and a discharge port is arranged at a lower part of the vacuum chamber.

6. The cold-pressed linseed oil production system of claim 5 wherein the vacuum apparatus further comprises a barometer disposed on a side of the vacuum chamber, the barometer being capable of checking a pressure of air in the vacuum chamber.

7. The cold-pressed linseed oil production system according to claim 6, wherein an air supply pipe for supplying air into the vacuum chamber is provided on the vacuum chamber, and an air supply valve is provided on the air supply pipe and is in telecommunication connection with the barometer.

8. The cold-pressed linseed oil production system according to claim 5 further comprising a recovery apparatus, wherein the recovery apparatus comprises a recovery tank and a second transport pipe, one end of the second transport pipe is placed in the recovery tank, and the other end of the second transport pipe is connected to a vacuum apparatus.

9. The cold-pressed linseed oil production system of claim 8 wherein the recovery apparatus further comprises a second valve disposed at an end of the second transport pipe near the vacuum apparatus.

10. The cold-pressed flaxseed oil production system of claim 9, wherein a second material sensor is located in said recovery tank, said second material sensor being in electrical communication with a second valve.

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