CN215224556U - Production line of liquid meat drink - Google Patents

Abstract

The utility model provides a production water line of liquid meat drink. The production line comprises a fixing frame, a rolling control system, an intelligent conveying system, an intelligent control box, a grinding and mixing system and a colloid grinding system, wherein the rolling control system, the intelligent conveying system and the intelligent control box are installed on the fixing frame, and the grinding and mixing system and the colloid grinding system are installed in the rolling control system. The rolling control system comprises a rolling fixed seat and a rolling rotor connected with the rolling fixed seat through a rolling bearing; the grinding and mixing system is used for grinding and mixing a barrel, a solid charging and discharging door is arranged on the grinding and mixing barrel, and a grinding and mixing device is arranged in the grinding and mixing barrel; colloid grinding system includes main grinder, intelligence conveying system includes the liquid pump to reach and rub mixing barrel and chop and stir the transport output pipe network that the device links to each other. The production line fully realizes the intellectualization and integration of the whole process of the liquid meat beverage from coarse grinding to fine grinding to uniform mixing, fishy smell removal, seasoning and the like, improves the fine grinding efficiency and the whole service life of the production line, and greatly reduces the particle size of the meat blocks.

Description

Production line of liquid meat drink

Technical Field

The utility model belongs to the processing field of liquid meat drink, concretely relates to production water line of liquid meat drink.

Background

The condition of aging of the population of China is getting more and more serious, and the health problems of the old people are also endless. Many chronic diseases of the old are related to diet, for example, the old has aged teeth, not only meat can not be chewed and swallowed, but also the digestive and absorptive capacity of the old is gradually declined, meat which is thick in fiber and difficult to chew can not be well digested and absorbed in vivo, and then the old can be lack of nutrition, and various chronic diseases are caused. According to the investigation and research on the dietary conditions of infants in a certain market, the infants have the food preference, do not like eating vegetables and meat, prefer puffed snacks and sweet foods, cause body obesity and have some healthy diseases. Through research and investigation on the dietary habits of students at a university, nearly 50% of college students have irregular diet, the nutritional value cannot be considered when selecting food, and a part of students have the habit of eating overnight. Therefore, the product is needed to solve the problem of dyspepsia of middle-aged and elderly people, solve the problems that infants prefer sweet foods and are not loved to eat meat, and solve the problem that teenagers have irregular diets after three meals.

SUMMERY OF THE UTILITY MODEL

The utility model provides a production water line of liquid meat drink. The production line has simple structure and novel idea, and the produced liquid meat beverage can solve the problems of meat dyspepsia of middle-aged and elderly people and malnutrition of teenagers and infants.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme to realize:

a production line of liquid meat drinks comprises a fixed frame, a rolling control system, an intelligent conveying system, an intelligent control box, a grinding and uniformly mixing system and a colloid grinding system, wherein the rolling control system, the intelligent conveying system and the intelligent control box are arranged on the fixed frame;

the rolling control system comprises a rolling fixed seat arranged on the fixed frame; the rolling rotor is installed in the rolling fixed seat through a rolling bearing; the rolling power motor is connected with the rolling fixed seat;

the grinding and uniformly mixing system comprises a rotary power motor fixed in the rolling rotor; the rotary contact shaft is connected with the rotary power motor; the grinding and mixing barrel is arranged outside the rotary contact shaft; a solid feeding and discharging door is arranged on the mincing and mixing barrel, and a mincing and mixing device is arranged in the mincing and mixing barrel; the grinding and uniformly mixing power motor and the bidirectional gear set are respectively arranged at the top of the grinding and uniformly mixing device; the mincing and uniformly mixing barrel is also provided with a temperature sensor and a heater;

the colloid grinding system comprises a fixed plate arranged in the other rolling rotor; the main grinding device is fixed on the fixing plate through a tensioning mechanism;

the main grinding device comprises a chopping and stirring device and colloid grinding barrels arranged on two sides of the chopping and stirring device; the colloid grinding barrel comprises a grinding stator, a grinding rotor is arranged outside the grinding stator, and a rotor shell is arranged outside the grinding rotor; the grinding inner bearing is arranged at the lower end of the grinding rotor; one side of the grinding inner bearing is connected with the rotor shell, and the other side of the grinding inner bearing is connected with a grinding power motor; the grinding outer bearing is connected with the grinding power motor; the chopping and stirring device comprises a gear conversion device arranged in the rotor shell and is connected with a speed reduction motor fixed on the fixed plate; the chopping mixers are arranged on two sides of the gear conversion device; the electric valve is arranged on one side of the chopping mixer close to the grinding inner bearing and is connected with the electric expansion piece fixed on the fixed plate;

the intelligent conveying system comprises a liquid pumping device, a circulating pump is arranged above the liquid pumping device, a movable sliding block is arranged below the liquid pumping device, and conveying output pipe networks are arranged on two sides of the liquid pumping device and are respectively connected with the grinding and mixing barrel and the chopping and mixing device through quick connection mechanisms;

the intelligent control box is provided with a CPU, and the CPU is connected with the touch screen, the power supply controller, the wireless transmission module and the voice recognition module through electric wires.

Furthermore, the rolling fixed seat, the rolling rotor and the rolling power motor are respectively provided with two.

Further, a discharge plate is arranged in the mincing and uniformly mixing barrel and transversely arranged at the middle upper part of the mincing and uniformly mixing barrel; the discharge plate is provided with a pore through which the mincing and mixing device can pass.

Further, the mincing and mixing device comprises a mincing and mixing knife, an inner rotating shaft and an outer rotating shaft, wherein the mincing and mixing knife is respectively arranged on the inner rotating shaft and the outer rotating shaft in a reverse direction, the inner rotating shaft is connected with the outer rotating shaft, and the outer rotating shaft is arranged on the mincing and mixing barrel; the mincing and uniformly mixing knife is driven by the inner rotating shaft and the outer rotating shaft to reversely rotate.

Furthermore, each top end of the mincing and mixing device is provided with a bidirectional gear set, the bidirectional gear set is provided with two gears which run in reverse directions, one of the gears is connected with the inner rotating shaft, and the other gear is connected with the outer rotating shaft.

Furthermore, the grinding stator, the grinding rotor, the grinding inner bearing, the grinding power motor and the grinding outer bearing are respectively provided with two grinding rotors; the two grinding rotors move in opposite directions.

Furthermore, a flow valve is arranged on the conveying output pipe network.

Furthermore, two sides of the liquid pumping device are also provided with 4 liquid inlet and outlet interfaces, and the liquid inlet and outlet interfaces are provided with flow valves.

Further, the flow valve comprises an electromagnetic valve and a flow controller, and is used for accurately conveying liquid and recording feedback data in real time during the operation process of the production line.

Furthermore, the tensioning mechanism comprises an electric push rod and a current loop detection module, and the current loop detection module can increase or decrease the gap between the grinding stator and the grinding rotor through the current value of the electric push rod.

Further, the fixing plate is C-shaped.

Compared with the prior art, the utility model discloses an advantage and beneficial technological effect do:

1. the production line of the utility model realizes the three-dimensional grinding of the liquid meat through the reverse operation, the reciprocating rolling and the reciprocating circulation between the two colloid grinding barrels, thereby not only avoiding the uneven grinding caused by the traditional one-dimensional grinding, but also improving the grinding efficiency, reducing the particle size of the liquid meat to the maximum extent and making the liquid meat more easily become colloid; under the data feedback of the current detection module, the tensioning mechanism increases and decreases the gap between the stator and the rotor in real time, so that on one hand, the liquid meat can be ground to be nano-scale in stages, on the other hand, the friction heating between the stator and the rotor can be reduced to the greatest extent, and the service life is prolonged; under the action of the chopping mixer, the missed large-particle liquid meat is treated again, and the uniformity of the liquid meat beverage is improved.

2. Rub mixing bucket in the production water line include that two-wayly contains to rub mixing sword, rubbing the subtend spiral impact force that the in-process formed through two-wayly rubbing sword, make the material make a round trip to strike between two mixing sword and rub, efficiency and quality have been improved greatly, two equal reversible operation of rubbing sword in addition, play the effect to the material stirring, realize a tractor serves several purposes, and combine colloid grinding system and rubbing device through intelligent conveyor, compare than original corase grind back manual work to the colloid mill, on the one hand fully avoided the entering of oxidation reaction and air bacterium, quality and food safety have been improved, on the other hand has also improved work efficiency and has reduced the material and has remained extravagantly.

3. The assembly line has realized that liquid meat drink removes the intellectuality and the integration of the overall process such as fishy smell to flavouring from thick hank to the correct grinding to the mixing, realizes the unattended operation management to arbitrary one kind edible animal meat, plant meat to liquid meat drink even. Through the cooperation of two opposite direction grinding barrels and the middle chopping and stirring device and the feedback cooperation of the current detection module and the tensioning device, the efficiency of fine grinding is improved, the particle size is greatly reduced, and the service life of colloid grinding is prolonged. Through the reverse operation of two mincing sword, through the abundant cooperation of roll control part and rotating electrical machines control part, improved coarse twisting efficiency and quality, shortened production time, indirect improvement the holistic life of assembly line.

Drawings

Fig. 1 is a schematic perspective view of a production line of a liquid meat beverage.

Fig. 2 is a schematic sectional structure view of a production line of the liquid meat beverage.

Fig. 3 is an enlarged schematic view of the lower portion B of fig. 2.

Fig. 4 is a schematic cross-sectional view at C-C of fig. 2.

Fig. 5 is a schematic cross-sectional view at D-D of fig. 2.

FIG. 6 is a schematic structural diagram of the mincing and mixing device.

Fig. 7 is a top view of a production line for a liquid meat drink.

In the figure, 1, a scroll control system; 11. a rolling fixed seat A; 12. a rolling fixed seat B; 13. a rolling rotor A; 14. a rolling rotor B; 15. a rolling power motor A; 16. a rolling power motor B; 17. a rolling bearing;

2. mincing and uniformly mixing the materials; 21. a rotary power motor; 22. a rotating contact shaft; 23. mincing and uniformly mixing barrel; 231. A solid feed and discharge gate; 232. mincing and uniformly mixing the components; 233. a discharge plate; 234. mincing and uniformly mixing a power motor; 235. A bidirectional gear set; 236. a temperature sensor; 237. a heater; 2321. mincing and uniformly mixing knife A; 2322. mincing and uniformly mixing knife B; 2323. an inner rotating shaft; 2324. an outer rotating shaft;

3. a colloid milling system; 31. a fixing plate; 32. a main grinding device; 33. a tensioning mechanism; 34. a chopping and stirring device; 35. a colloid milling barrel; 36. grinding the power motor; 341. a gear shifting device; 342. a reduction motor; 343. a chopper A; 344. a chopper B; 345. an electrically operated valve A; 346. an electrically operated valve B; 347. an electric expansion piece; 348. grinding the outer bearing; 351. grinding the stator; 352. grinding the rotor; 353. grinding the inner bearing; 354. a rotor housing;

4. an intelligent conveying system; 41. a liquid pumping device; 42. a circulation pump; 43. moving the slide block; 44. a liquid inlet and outlet interface; 45. a flow valve; 46. a conveying output pipe network; 47. a quick-connection mechanism; 451. an electromagnetic valve; 452. a flow controller; 461. a conveying output pipe network A; 462. a conveying output pipe network B;

5. an intelligent control box; 51. a touch screen; 52. a CPU; 53. a power supply controller; 54. a wireless transmission module; 55. a voice recognition module; 6. a fixing frame.

Detailed Description

The present invention will be described with reference to the accompanying drawings, and it is to be understood that the embodiments described herein are merely illustrative and explanatory of the present invention, and are not restrictive thereof.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Example 1

Referring to fig. 1 and fig. 2, the utility model provides a production water line of liquid meat drink, including roll control system 1, rub mixing system 2, colloid grinding system 3, intelligent conveying system 4 and intelligent control case 5 and mount 6.

The rolling control system 1 comprises a rolling fixed seat, a rolling rotor and a rolling power motor. The rolling fixed seat, the rolling rotor and the rolling power motor are respectively provided with two. The rolling permanent seat A11 and the rolling permanent seat B12 are symmetrically arranged at the left side and the right side of the fixed frame 6. The rolling rotor a 13 and the rolling rotor B14 are respectively installed in the rolling holders a 11 and B12 through rolling bearings 17. The rolling power motor A15 and the rolling power motor B16 are fixed on the fixed seat 6 and are respectively connected with the rolling fixed seat A11 and the rolling fixed seat B12. The rolling power motor can provide power for the rotation of the rolling rotor, and further drives the grinding and blending system 2 and the colloid grinding system 3 which are arranged inside the rolling rotor A13 and the rolling rotor B14 to perform reciprocating rolling anticlockwise or clockwise. It should be noted that, in other embodiments of the present invention, the rolling fixing seat may also be asymmetrically installed on the fixing frame, and the fixing frame 6 may also be replaced by other fixing devices or planes, but is not limited thereto, and only the fixing requirement of the rolling fixing seat needs to be satisfied.

Referring to fig. 1, the mincing and mixing system 2 includes a rotating power motor 21 fixed in a rolling rotor a 14, a rotating contact shaft 22 connected with the rotating power motor 21, and a mincing and mixing barrel 23 installed outside the rotating contact shaft 22. Specifically, one end of a rotary power motor 21 is fixed on the inner side of the rolling rotor a 14, and the other end is connected to one end of a rotary contact shaft 22; the other end of the rotating contact shaft 22 passes through the kneading barrel 23 and is fixed to the inner side of the rolling rotor a 14. The electric power generated by the rotary power motor 21 can provide power for the rotary contact shaft 22, and further drives the mincing and uniformly mixing barrel 23 to swing, rock and rotate, so that the three-dimensional shearing of the animal meat blocks is realized.

Referring to fig. 2 and 5, the mincing and mixing barrel 23 is provided with a solid charging and discharging door 231 which can be opened and closed, and 8 mincing and mixing devices 232 are installed inside the mincing and mixing barrel. Referring to fig. 6, each mincing and mixing device 232 comprises mincing and mixing knife, inner rotating shaft 2323 and outer rotating shaft 2324. Specifically, the mincing and mixing knife a 2321 is mounted on the inner rotating shaft 2323, the mincing and mixing knife B2322 is mounted on the outer rotating shaft 2324, the mincing and mixing knife a 2321 and the mincing and mixing knife B2322 are mounted in the opposite direction, the inner rotating shaft 2323 is connected with the outer rotating shaft 2324, and the bottom end of the outer rotating shaft 2324 is mounted on the lower bottom surface in the mincing and mixing barrel 23, but the rotation of the outer rotating shaft 2324 is not affected. It should be noted that the number of the mincing and mixing devices 232 arranged in the mincing and mixing barrel 23 can be more than 8, or less than 8, and all the number can be set according to the actual production requirement; the mincing and mixing device 232 can be composed of a group of mincing and mixing knives and an inner and outer rotating shaft, or a plurality of groups of mincing and mixing knives and an inner and outer rotating shaft, which can be arranged according to the requirements of actual production; in addition, the size of the blades of the mincing and uniformly mixing knife and the length of the inner and outer rotating shafts can be set according to actual requirements, and only corresponding functions are required to be met.

The top end of the mincing and mixing device 232 is also provided with a mincing and mixing power motor 234 for providing power for the mincing and mixing device; one grinding and mixing power motor 234 can be installed to provide power for a plurality of grinding and mixing devices 232, or one grinding and mixing power motor 234 can be installed at the top end of each grinding and mixing device 232, and the requirement for providing power for the grinding and mixing devices 232 is only required to be met. Each mincing and mixing device 232 is provided with a group of bidirectional gear sets 235. The bi-directional gear set 235 has two gears, one gear connected to the inner rotating shaft 2324 and the other gear connected to the outer rotating shaft 2324. When the mincing and uniformly mixing power motor 234 provides power, the two gears of the bidirectional gear set 235 can rotate in opposite directions, and the mincing and uniformly mixing blades on the bidirectional gear set are driven to rotate in opposite directions through the inner rotating shaft and the outer rotating shaft, so that the mincing and uniformly mixing of animal meat is facilitated. A discharge plate 233 is also arranged in the mincing and uniformly mixing barrel 23; which is transversely arranged at the middle upper part of the mincing and evenly mixing barrel 23; the discharge plate 233 is provided with a hole for the mincing and mixing device 232 to pass through, but does not affect the normal operation of the mincing and mixing knife and the inner and outer rotating shafts. In the process of mincing animal meat, the discharge plate 233 can be in full contact with the meat slurry to neutralize the charge of the meat slurry and promote the formation of a colloidal state. The mincing and mixing barrel 23 is also provided with a temperature sensor 236 and a heater 237 for cooking meat pulp and removing fishy smell, and the specific positions of the temperature sensor 236 and the heater can be set according to actual requirements.

Referring to fig. 1-2, the colloid mill system 3 includes a primary grinding apparatus 32; the main grinding device 32 is longitudinally fixed on a fixing plate 31 in a "C" shape by a tensioning mechanism 33, and the fixing plate 31 is fixedly installed inside the rolling rotor B14. The main grinding device 32 comprises two colloid grinding barrels 35 and a chopping and stirring device 34; the two colloid milling barrels 35 are symmetrically arranged at the upper and lower sides of the chopping and stirring device 34. Taking the colloid mill barrel on the upper side as an example for description, the colloid mill barrel 35 includes a mill stator 351 having a trapezoidal vertical section with a wide upper part and a narrow lower part; a grinding rotor 352 is provided outside the grinding stator 351; a grinding inner bearing 353 is provided at the lower end of the grinding rotor 352; a rotor housing 354 is provided outside the grinding rotor 352. One side of the grinding inner bearing 353 is connected with the rotor housing 354, the grinding power motor 36 for providing power for the grinding inner bearing 353 is arranged above the other side of the grinding inner bearing 353, the lower side of the grinding inner bearing is connected with the grinding outer bearing 348, and the grinding outer bearing 348 is connected with the grinding power motor 36, so that the grinding outer bearing 348 can drive the grinding inner bearing 353 to rotate through the power provided by the grinding power motor 36, and then drive the colloid grinding barrel 35 to rotate. Since the colloid mill barrel on the lower side and the colloid mill barrel on the upper side are in the horizontal axial symmetry, the elements of the two colloid mill barrels 35 are completely the same, but the rotation directions of the two mill rotors 352 are opposite, so that the two colloid mill barrels 35 are driven to rotate in opposite directions.

Referring to fig. 3, the chopping and homogenizing device 34 includes a gear shifting device 341 installed in the rotor housing 354, and the gear shifting device 341 is connected to a reduction motor 342 installed on the fixed plate 31. The chopper a 343 and the chopper B344 are connected to both sides of the gear shifting device 341, respectively. The gear motor 342 provides power to drive the gear switching device 341 to operate, so as to drive the two choppers to operate, and the missing large-particle liquid meat can be treated again. An electric valve A345 is arranged on the upper side of the chopper A343, and an electric valve B346 is arranged on the lower side of the chopper B344. Both the two electric valves are connected with an electric expansion piece 347 fixed on the fixing plate 31; the electric valve is a channel switch between the grinding barrel 35 and the grinding and blending device 34. When the meat grinder is opened, the liquid meat flows into the grinding and uniformly mixing device 34 from the grinding barrel 35 or flows into the grinding barrel 35 from the grinding and uniformly mixing device 34; when the electric valve is closed, the flow is blocked, so that the liquid meat can be ground between the two colloid grinding barrels in a reciprocating way under the action of the electric valve. The tensioning mechanism 33 comprises an electric push rod and a current loop detection module; in the grinding process, the current loop detection module detects and feeds back the current values of the grinding power motor 36 and the electric push rod, and the electric push rod stretches to increase or decrease the gap between the grinding stator 351 and the grinding rotor 352 according to the change of the current values, so that the particle size of liquid meat can be reduced to the maximum degree, the friction heating between the grinding stator 351 and the grinding rotor 352 can be reduced to the maximum degree, and the service life is prolonged.

Referring to fig. 1 and 7, the intelligent delivery system 4 is mounted on a mount 6 and includes a liquid extractor 41. The upper part of the liquid extractor 41 is provided with 3 circulating pumps 42, the lower part thereof is provided with 2 movable sliding blocks 43, and the left side and the right side thereof are both connected with a conveying output pipe network 46. The delivery outlet network 46 is comprised of a plurality of pipes for delivering the comminuted or ground liquid meat or liquid meat beverage. The conveying output pipe network A461 and the conveying output pipe network B462 are respectively connected with the mincing and mixing barrel 23 and the chopping and mixing device 34 through the quick-connection mechanism 47, and a flow valve 45 is arranged on a pipeline close to the quick-connection mechanism 47. The movable sliding block 43 can be matched with the quick connection mechanism 47, and can be automatically separated when not needed by quickly butting the mincing and uniformly mixing barrel 23 and the chopping and uniformly mixing device 34 through intelligent control when needed. The flow valve 45 comprises an electromagnetic valve 451 and a flow controller 452, and can accurately convey liquid meat and other solutions and record feedback data in real time during operation. It should be noted that, in other embodiments of the present invention, the numbers of the circulating pumps 42 and the moving sliders 43 may be set according to actual needs, and are not limited thereto. The left side and the right side of the liquid extractor 41 are respectively provided with 2 liquid inlet and outlet connectors 44, and the liquid inlet and outlet connectors 44 are respectively provided with a flow valve 45 for collecting the finally prepared liquid meat beverage.

Referring to fig. 1 and 4, the intelligent control box 5 is mounted on the fixing frame 6, and the top surface thereof is provided with a touch screen 51, a CPU 52, a power controller 53, a wireless transmission module 54 and a voice recognition module 55, which are all connected to each other through an electric line, and the mounting position can be adjusted according to actual requirements, only by satisfying the functions of the intelligent control box 5. A technician can set various parameters required for production through the touch screen 51; the power controller 53 controls the power of the pipeline to be turned off; controllers and the like in the production line are controlled by the CPU 52; the voice recognition module 55 can automatically recognize abnormal sounds occurring in the operation process of the equipment, and judges whether to start or stop, early warning and the like through the CPU 52; the wireless transmission module 54 transmits the operation data to the user end system in real time in the operation process of the equipment, and protects the operation of the production line under the cooperation of the CPU 52, the voice recognition module 55 and the wireless transmission module 54, thereby avoiding accidents to the maximum extent.

It should be noted that the utility model discloses in, rolling motor power, rotatory motor power, grinding motor power, gear motor etc. all can be according to the demand of reality or the size selection of device suitable commercially available motor, only need satisfy for providing the demand of power can.

The specific steps of producing the liquid meat beverage by utilizing the production line are as follows:

(1) swinging and rotating type bidirectional mincing:

the animal meat blocks enter the mincing and uniformly mixing barrel 23 through the solid feeding and discharging door 231, the power controller 53 starts power, the mincing and uniformly mixing device 232 starts, the animal meat blocks are stirred at a slow speed and a fast speed, and preliminary mincing is carried out on the animal meat blocks; shearing in opposite directions between the mincing and mixing blades in the mincing process, and forming impact pressure between the mincing and mixing devices 232 to promote the animal meat to be actively sheared;

in the mincing process, simultaneously starting the rolling control system 1 to drive the mincing and uniformly mixing barrel 23 to perform reciprocating rolling anticlockwise and clockwise, and swinging, shaking and rotating motion according to the set programmed requirement; the animal block particles are cut in a three-dimensional way through rolling, swinging and rotating, so that the particle size of the meat block is reduced to the maximum extent; and the heater 237 and the temperature sensor 236 are also activated according to the programmed requirements, and the minced meat is cooked within a specified time.

(2) Mixing and gradually grinding in two directions:

the minced meat pulp is sent into a colloid grinding system 3 through a conveying output pipe network 46 and a liquid extractor 41 for further grinding; in the grinding process, the current loop detection module detects and feeds back the current values of the grinding power motor 36 and the electric push rod, and the electric push rod stretches to increase or decrease the gap between the grinding stator 351 and the grinding rotor 352 according to the change of the current values, so that the particle size of liquid meat can be reduced to the maximum extent, the friction heating between the grinding stator 351 and the grinding rotor 352 can be reduced to the maximum extent, and the service life is prolonged; meanwhile, the two colloid grinding barrels 35 reversely rotate under the action of the grinding power motor 36 and roll anticlockwise and clockwise in a reciprocating manner according to the set programming requirement; under the action of the electric valve, the liquid meat is repeatedly ground between the two colloid grinding barrels 35. Through the common cooperation, the three-dimensional grinding of the liquid meat is realized, the grinding efficiency is improved, the particle size of the liquid meat is reduced to the maximum extent, and the liquid meat is more easily in a colloid state under the action of the discharge plate 233; in the grinding process, the chopping and mixing device 34 operates according to the programmed requirements, on one hand, the grinding uniformity of the liquid meat can be improved through stirring, and on the other hand, the missing large-particle liquid meat can be treated again through the chopping and mixing device.

(3) Removing fishy smell, cooking and seasoning:

grinding colloid to obtain liquid meat, sending the liquid meat into a mincing and uniformly mixing barrel 35 through an intelligent conveying system 4, uniformly mixing the liquid meat with a spice bag added in advance, starting to work through a heater 237 and a temperature sensor 236, simultaneously stirring uniformly and cooking to remove fishy smell, after cooking and removing the fishy smell, proportionally conveying coffee, milk tea, fruit pulp/juice, vegetable juice and the like into the mincing and uniformly mixing barrel 35 through the intelligent conveying system 4 according to the requirement of taste, and fully mincing and mixing in the mincing and uniformly mixing barrel 35 to obtain the seasoned liquid meat beverage.

(4) Grinding and cooling: and the flavored liquid meat beverage enters the colloid grinding system 3 again for uniform mixing and grinding and cooling, and finally enters the intelligent conveying system 4 for collection and taking out.

In other embodiments of the present invention, various raw materials in various forms such as vegetable meat and bean products may be used, but the present invention is not limited thereto.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.

Claims (10)

1. A production line of liquid meat drinks is characterized by comprising a fixed frame, a rolling control system, an intelligent conveying system, an intelligent control box, a grinding and uniformly mixing system and a colloid grinding system, wherein the rolling control system, the intelligent conveying system and the intelligent control box are arranged on the fixed frame;

the rolling control system comprises a rolling fixed seat arranged on the fixed frame; the rolling rotor is installed in the rolling fixed seat through a rolling bearing; the rolling power motor is connected with the rolling fixed seat;

the grinding and uniformly mixing system comprises a rotary power motor fixed in the rolling rotor; the rotary contact shaft is connected with the rotary power motor; the grinding and mixing barrel is arranged outside the rotary contact shaft; a solid feeding and discharging door is arranged on the mincing and mixing barrel, and a mincing and mixing device is arranged in the mincing and mixing barrel; the grinding and uniformly mixing power motor and the bidirectional gear set are respectively arranged at the top of the grinding and uniformly mixing device; the mincing and uniformly mixing barrel is also provided with a temperature sensor and a heater;

the colloid grinding system comprises a fixed plate arranged in the other rolling rotor; the main grinding device is fixed on the fixing plate through a tensioning mechanism;

the main grinding device comprises a chopping and stirring device and colloid grinding barrels arranged on two sides of the chopping and stirring device; the colloid grinding barrel comprises a grinding stator, a grinding rotor is arranged outside the grinding stator, and a rotor shell is arranged outside the grinding rotor; the grinding inner bearing is arranged at the lower end of the grinding rotor; one side of the grinding inner bearing is connected with the rotor shell, and the other side of the grinding inner bearing is connected with a grinding power motor; the grinding outer bearing is connected with the grinding power motor; the chopping and stirring device comprises a gear conversion device arranged in the rotor shell and is connected with a speed reduction motor fixed on the fixed plate; the chopping mixers are arranged on two sides of the gear conversion device; the electric valve is arranged on one side of the chopping mixer close to the grinding inner bearing and is connected with the electric expansion piece fixed on the fixed plate;

the intelligent conveying system comprises a liquid pumping device, a circulating pump is arranged above the liquid pumping device, a movable sliding block is arranged below the liquid pumping device, and conveying output pipe networks are arranged on two sides of the liquid pumping device and are respectively connected with the grinding and mixing barrel and the chopping and mixing device through quick connection mechanisms;

the intelligent control box is provided with a CPU, and the CPU is connected with the touch screen, the power supply controller, the wireless transmission module and the voice recognition module through electric wires.

2. The production line of claim 1, wherein a discharge plate is further arranged in the mincing and mixing barrel and transversely arranged at the middle upper part of the mincing and mixing barrel; the discharge plate is provided with a pore through which the mincing and mixing device can pass.

3. The production line of claim 1, wherein the mincing and mixing device comprises a mincing and mixing knife, an inner rotating shaft and an outer rotating shaft, the mincing and mixing knife is respectively installed on the inner rotating shaft and the outer rotating shaft in a reverse direction, the inner rotating shaft is connected with the outer rotating shaft, and the outer rotating shaft is installed on the mincing and mixing barrel; the mincing and uniformly mixing knife is driven by the inner rotating shaft and the outer rotating shaft to reversely rotate.

4. The production line of claim 3, wherein each said mincing and mixing device has a bi-directional gear set mounted to its top end, said bi-directional gear set having two gears operating in opposite directions, one of said gears being connected to said inner rotating shaft and the other of said gears being connected to said outer rotating shaft.

5. The process line of claim 1, wherein there are two of the grinding stator, the grinding rotor, the grinding inner bearing, the grinding power motor, and the grinding outer bearing; the two grinding rotors move in opposite directions.

6. The process line of claim 1, wherein the delivery outlet conduit is provided with a flow valve.

7. The production line of claim 1, wherein said liquid extractor further comprises 4 liquid inlet and outlet ports on both sides thereof, and said liquid inlet and outlet ports are provided with flow valves.

8. The production line according to claim 6 or 7, wherein said flow valve comprises a solenoid valve and a flow controller for precise delivery of liquid meat and real-time recording of feedback data during operation of said production line.

9. The production line of claim 1, wherein the tensioning mechanism comprises an electric push rod and a current loop detection module, and the current loop detection module can increase or decrease the gap between the grinding stator and the grinding rotor through the current value of the electric push rod.

10. The process line of claim 1, wherein the fixing plate is "C" shaped.

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