CN116173788A

CN116173788A - Mixing machine for food processing

Info

Publication number: CN116173788A
Application number: CN202310456873.2A
Authority: CN
Inventors: 曾俊源; 曾树德
Original assignee: Guangdong Oulaishi Biotechnology Co ltd
Current assignee: Guangdong Oulaishi Biotechnology Co ltd
Priority date: 2023-04-26
Filing date: 2023-04-26
Publication date: 2023-05-30
Anticipated expiration: 2043-04-26
Also published as: CN116173788B

Abstract

The invention relates to the technical field of powder food mixing, in particular to a mixer for food processing, which comprises: the bottom of the mixing cylinder is provided with a fixed disc, and the inner wall of the mixing cylinder is provided with a helical blade; the first material guiding table is movably arranged on the mixing drum and used for sequentially paving materials entering the mixing drum for preliminary mixing, and an air bag is arranged on the first material guiding table; the second material guiding table is rotatably arranged on the fixed disc and is movably connected with the first material guiding table, the second material guiding table is used for paving materials on the outer peripheral surface of the second material guiding table again for mixing again, an air inlet pipe connected with the second material guiding table is rotatably arranged on the fixed disc, and a second magnet for pushing and pulling the air bag is arranged on the air inlet pipe; the feeding cover is provided with an exhaust pipe and a poking plate for converting the air pressure in the mixing cylinder into feeding power, the exhaust pipe is provided with a piston, and the poking plate extends into the exhaust pipe and is attached to the piston. The multi-dimensional mixed protein powder improves the mixing effect and reduces the mixing time.

Description

Mixing machine for food processing

Technical Field

The invention relates to the technical field of powder food mixing, in particular to a mixer for food processing.

Background

Food processing refers to grain milling, feed processing, vegetable oil and sugar processing, slaughtering, meat processing, aquatic product processing, and processing activities of foods such as vegetables, fruits and nuts, which are directly carried out by taking agricultural, forestry, pasturing and fishery products as raw materials, and is one type of broad-sense agricultural product processing industry.

The protein powder is generally prepared from purified soybean protein or casein or whey protein, or a combination of the above proteins, or added with other nutritional ingredients, and has high value of supplementing nutrients, and can be widely used for body-building personnel or people with insufficient protein intake.

In the production process of the protein powder, different flavors are added in the processing process of the protein powder to cater to the tastes of different consumers due to different taste requirements of different crowds, and most of the protein powder is poured into a stirring barrel and then mixed with a stirring rod or a stirring blade in the current production mixing process, so that the materials are piled up in the barrel when entering the mixing barrel, the stirring period is improved, the protein powder is stirred in the mixing barrel in a single-way rotation way through the stirring rod during stirring, the stirring mode is single, the stirring effect is not in place, the processing time is long, and the stirring efficiency is reduced due to phase change.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides a mixer for food processing, which can effectively solve the problems of single stirring mode, insufficient stirring, poor mixing effect and low efficiency caused by long stirring time in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a mixer for food processing, comprising:

the mixing drum is rotatable, a fixed disc for installing a second material guiding table is arranged at the bottom of the mixing drum, and a spiral blade for moving bottom materials to the upper end is arranged on the inner wall of the mixing drum;

the first material guiding table is movably arranged on the mixing drum and used for paving materials entering the mixing drum on the outer peripheral surface of the first material guiding table in sequence for preliminary mixing, and an air bag for blowing is arranged on the first material guiding table;

the second material guiding table is rotatably arranged on the fixed disc and is movably connected with the first material guiding table, and is used for paving materials on the outer peripheral surface of the second material guiding table again for mixing again, an air inlet pipe connected with the second material guiding table is rotatably arranged on the fixed disc, and a second magnet for pushing and pulling the air bag is arranged on the air inlet pipe;

the feeding cover is provided with an exhaust pipe and a poking plate for converting the air pressure in the mixing drum into feeding power, the exhaust pipe is provided with a piston, and the poking plate extends into the exhaust pipe and sticks to the piston.

Further, a cavity is arranged in the mixing cylinder, a plurality of groups of first air blowing holes which are distributed spirally and communicated with the cavity are arranged on the inner wall of the mixing cylinder, and the air blowing direction of the first air blowing holes faces to the spiral blades.

Further, N guide grooves I are formed in the first guide table, M guide grooves II are formed in the second guide table, N is smaller than M, and a plurality of even-numbered air blowing holes II are formed in the inner wall of the guide grooves II.

Further, a sealing piece attached to the inner wall of the material guiding table II is arranged on the fixed disc, and a plurality of groups of through holes II which are arranged in a staggered mode are arranged on the sealing piece and are used for intermittently communicating with the air blowing holes II on the material guiding table II, so that air is blown into the mixing cylinder to further mix materials.

Further, the air bag is arranged on the first material guiding table and extends into the second material guiding table, a pushing disc is arranged on one side, close to the air inlet pipe, of the air bag, and a first magnet is arranged on the pushing disc.

Further, the first magnets are multiple groups and distributed on the pushing disc in an annular array, the magnetic poles of the adjacent first magnets are opposite, and the second magnets on the air inlet pipe are arranged in the same mode as the first magnets on the pushing disc.

Further, a through hole III communicated with the cavity in the mixing cylinder is formed in the air inlet pipe, one-way valves are arranged on the air inlet pipe and the first air blowing hole, a driving rod is arranged on the air inlet pipe, and the rotation direction of the driving rod is opposite to that of the mixing cylinder.

Further, be equipped with storage tank and the feed port of intercommunication each other on the feeding lid, and the storage tank can be manually closed for selectively opening according to the reinforced demand and close, the feeding is covered the elastic mounting and is had the plectrum that pastes with the piston mutually, and is equipped with on the plectrum with the crisscross through-hole one of feed port when being located initial position.

Further, the piston is boss-shaped, and is equipped with the exhaust groove on the blast pipe, the bottom of exhaust groove is higher than the top that the piston is in under the initial condition, the one side that is close to the piston of dialling the board is equipped with the baffle that inclines.

Further, the number of the storage tanks is multiple, the feeding cover is provided with storage hoppers provided with storage cavities the number of which is the same as that of the storage tanks, and the air inlet end of the exhaust pipe is provided with a film for filtering materials.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects: the material guide table I is arranged along with the differential rotation of the material guide table II and the material guide grooves with different numbers, so that the materials just entering the mixing drum can be uniformly spread and mixed, the situation that the materials enter the mixing drum to be piled is avoided, and the mixing time is reduced; the first magnet, the second magnet and the air inlet pipe for unidirectional air inlet are matched, the circulating push-pull air bag blows the material on the second material guiding table to the mixing drum for re-mixing, the spiral blade on the mixing drum drives the material at the bottom of the mixing drum to the upper part for blowing down, the materials are mixed again, the protein powder is mixed in dimensions, and the mixing effect is improved; the piston on the exhaust pipe is pushed to exhaust through internal pressurization, and the shifting plate is pushed in the exhaust process to guide materials in the storage hopper into the mixing drum, so that the kinetic energy of internal gas is recycled.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of a mixing drum of the present invention;

FIG. 3 is a cross-sectional view of the charging lid of the present invention;

FIG. 4 is a schematic view of the connection structure of the air inlet pipe and the mixing drum of the present invention;

FIG. 5 is a cross-sectional view of the connection of the first and second guide tables of the present invention;

FIG. 6 is an exploded view of the connection of the first and second guide tables of the present invention;

fig. 7 is a diagram showing the positions of the first magnet on the push plate and the second magnet on the air inlet pipe.

Reference numerals in the drawings represent respectively: 100. a mixing drum; 101. a cavity; 102. a first air blowing hole; 110. a helical blade; 120. a fixed plate; 200. a feed cap; 201. a storage tank; 202. a feed hole; 210. a storage hopper; 220. an exhaust pipe; 221. an exhaust groove; 222. a piston; 230. a poking plate; 231. a first through hole; 300. a first material guiding table; 301. a guide chute I; 310. an air bag; 320. pushing the disc; 321. a first magnet; 400. a second material guiding table; 401. a guide chute II; 402. a second air blowing hole; 410. a seal; 411. a second through hole; 430. an air inlet pipe; 431. a third through hole; 432. a second magnet; 440. and a driving rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of 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 will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples: referring to fig. 1-7, a mixer for food processing comprising:

the mixing drum 100, the mixing drum 100 can rotate, can be installed and driven through a fixed frame, the bottom of the mixing drum 100 is provided with a fixed disc 120 for installing a second material guiding table 400, and the inner wall of the mixing drum 100 is provided with a spiral blade 110 for moving the bottom material to the upper end;

specifically, a cavity 101 is disposed in the mixing cylinder 100, and a plurality of groups of first air holes 102 which are spirally distributed and are communicated with the cavity 101 are disposed on the inner wall of the mixing cylinder 100, and the air blowing direction of the first air holes 102 faces the spiral blade 110.

In the above technical scheme, the spiral blade 110 arranged on the inner wall is driven to rotate through the arrangement of the mixing drum 100, so that the materials stacked at the bottom after mixing are moved to the upper part of the mixing drum 100, and the materials are sprayed into the mixing drum 100 again in cooperation with the gas blown out by the first gas blowing hole 102, so that the mixing effect is improved.

The first material guiding table 300 is movably arranged on the mixing drum 100 and is used for sequentially paving materials entering the mixing drum 100 on the outer circumferential surface of the first material guiding table 300 for preliminary mixing, the materials are paved on the circumferential surface of the first material guiding table 300 after entering the mixing drum 100 through rotation of the first material guiding table 300, the preliminary mixing is carried out on the materials, an air bag 310 for blowing is arranged on the first material guiding table 300, and the internal air is blown out through the air bag 310 so as to drive the materials to be fully mixed;

the second material guiding table 400 is rotatably arranged on the fixed disc 120 and is movably connected with the first material guiding table 300, and is used for re-paving materials on the outer peripheral surface of the second material guiding table 400 for re-mixing, wherein the second material guiding table 400 is a driving source for the rotation of the first material guiding table 300, the rotation speed of the first material guiding table 300 is smaller than that of the second material guiding table 400, the fixed disc 120 is rotatably provided with an air inlet pipe 430 connected with the second material guiding table 400, the air inlet pipe 430 is provided with a second magnet 432 for pushing and pulling the air bag 310, and the air inlet pipe 430 drives the second material guiding table 400 to rotate and simultaneously provides power for driving the air bag 310 on the first material guiding table 300.

Specifically, the first guide table 300 is provided with N first guide grooves 301, the second guide table 400 is provided with M second guide grooves 401, N is smaller than M, the first guide grooves 301 and the second guide grooves 401 can better guide materials, so that the materials on the first guide table 300 can be paved on the second guide table 400 again, the rotating speed of the second guide table 400 is greater than that of the first guide table 300, the thickness of each layer of materials on the second guide table 400 is smaller, the materials can be conveniently and fully mixed, the inner wall of the second guide groove 401 is provided with a plurality of even-numbered blowing holes 402, and the materials can be blown into the mixing drum 100 by the arrangement of the second blowing holes 402 to be mixed again.

Further, the fixing plate 120 is provided with a sealing member 410 attached to the inner wall of the second guide table 400, and the sealing member 410 is provided with a plurality of groups of through holes 411 arranged in a staggered manner, and the sealing member 410 is used for being intermittently communicated with the second air blowing hole 402 on the second guide table 400, and the sealing member 410 and the second guide table 400 rotate relatively, so that the second air blowing hole 402 is intermittently communicated with the second through hole 411, and when the second air blowing hole 402 is communicated with the second through hole 411, the air bag 310 just extrudes and exhausts, so that air is blown into the mixing cylinder 100 to further mix materials, and when the second air blowing hole 402 is not communicated with the second through hole 411 in a staggered manner, the air bag 310 stretches and inhales, and the materials are prevented from being sucked into the second guide table 400.

The air bag 310 is disposed on the first guide table 300 and extends into the second guide table 400, a pushing plate 320 is disposed on one side of the air bag 310 near the air inlet pipe 430, a first magnet 321 is disposed on the pushing plate 320, and the air bag 310 is extruded or stretched by the first magnet 321 and the second magnet 432.

In addition, the first magnets 321 are multiple groups and are distributed on the pushing disc 320 in a ring-shaped array, the magnetic poles of the adjacent first magnets 321 are opposite, the second magnets 432 on the air inlet pipe 430 are arranged in the same way as the first magnets 321 are arranged on the pushing disc 320, the multiple groups of first magnets 321 and the second magnets 432 are matched, extrusion of the air bag 310 is improved, friction between the first material guiding table 300 and the second material guiding table 400 is increased, and the first material guiding table 300 rotates along with the second material guiding table 400 through friction.

Besides, the air inlet pipe 430 is provided with a third through hole 431 communicated with the cavity 101 in the mixing cylinder 100, the air inlet pipe 430 and the first air blowing hole 102 are respectively provided with a one-way valve, so that air is prevented from leaking out when the air bag 310 blows and materials are sucked into the cavity 101 in the mixing cylinder 100 when the air is sucked, the air inlet pipe 430 is provided with a driving rod 440, the rotation direction of the driving rod 440 is opposite to that of the mixing cylinder 100, and the material guiding table 400 and the mixing cylinder 100 which rotate reversely enable the materials to be mixed more fully.

In the above technical scheme, through the differential rotation of the first guide table 300 and the second guide table 400 and the setting of the guide grooves with different numbers, the materials which just enter the mixing drum 100 are convenient to uniformly spread and mix, the situation that the materials enter the mixing drum is avoided, so that the mixing time is reduced, the air inlet pipe 430 rotates to drive the magnet 432 to be matched with the magnet 321 on the push plate 320 to push and pull the air bag 310, the mixed materials on the second guide table 400 are blown into the mixing drum 100 again to be mixed, meanwhile, the materials on the helical blades 110 inside the mixing drum 100 are blown down, the materials are further mixed, the sealing element 410 is arranged to prevent the materials from being sucked into the second guide table 400 when the air bag 310 sucks air, and the later cleaning trouble is prevented.

The feeding cover 200 is provided with an exhaust pipe 220 and a shifting plate 230 for converting the air pressure in the mixing drum 100 into feeding power, the exhaust pipe 220 is provided with a piston 222, the shifting plate 230 extends into the exhaust pipe 220 and abuts against the piston 222, and the shifting plate 230 is fluctuated by the movement of the piston 222, so that the materials are automatically released.

Specifically, the feeding cover 200 is provided with a storage tank 201 and a feeding hole 202 which are mutually communicated, the storage tank 201 can be manually closed and used for being selectively opened and closed according to feeding requirements, a poking plate 230 attached to the piston 222 is elastically installed on the feeding cover 200, the poking plate 230 is provided with a first through hole 231 which is staggered with the feeding hole 202 when being located at an initial position, and when the piston 222 is not ejected, the poking plate 230 makes the first through hole 231 staggered with the feeding hole 202 under the action of an elastic piece, so that feeding cannot be performed at the moment.

Specifically, the piston 222 is in a boss shape, the exhaust pipe 220 is provided with an exhaust groove 221, the bottom end of the exhaust groove 221 is higher than the top end of the piston 222 in an initial state, so that when the piston 222 is not extruded by gas, the piston 222 can block the exhaust pipe 220, when the piston 222 is extruded by gas and ascends, the shifting plate 230 is extruded to move, then the first through hole 231 is communicated with the feeding hole 202 and feeds, when the piston 222 is higher than the exhaust groove 221, the gas is discharged from the exhaust groove 221, the shifting plate 230 is reset to stop feeding, and one side of the shifting plate 230, close to the piston 222, is provided with an inclined guide plate, so that the shifting plate 230 is extruded and pushed by the piston 222 conveniently.

Further, the number of the storage tanks 201 is multiple, and the feeding cover 200 is provided with the storage hoppers 210 with storage cavities the same as the number of the storage tanks 201, so that different ingredients can be conveniently added, and the air inlet end of the air outlet pipe 220 is provided with a film for filtering materials, so that the material powder is prevented from flowing out from the air outlet pipe 220.

In the above technical solution, through the unidirectional air inlet valve arranged on the air inlet pipe 430, the air bag 310 is matched with the unidirectional air inlet valve, only air can be introduced into the mixing drum 100, when the internal air pressure increases, the piston 222 on the air outlet pipe 220 is pushed to exhaust, the shifting plate 230 is pushed to move in the process of moving and exhausting the piston 222, the first through hole 231 on the shifting plate 230 is communicated with the feeding hole 202 on the feeding cover 200, and finally, the material in the storage hopper 210 is guided into the mixing drum 100, so that the kinetic energy of the internal air is recycled.

Working principle: the mixing cylinder 100 and the driving rod 440 are driven to rotate reversely, so that the second material guiding table 400 and the mixing cylinder 100 rotate in opposite directions, the air inlet pipe 430 rotates to drive the second magnet 432 to push and pull the air bag 310 by matching with the first magnet 321 on the pushing disc 320, the outside air is continuously led into the mixing cylinder 100 by matching with the one-way air inlet valve arranged on the air inlet pipe 430, after the inside air pressure reaches a certain value, the piston 222 on the air outlet pipe 220 is pushed to exhaust, the shifting plate 230 is pushed to move in the process of moving and exhausting the piston 222, the first through hole 231 on the shifting plate 230 is communicated with the feeding hole 202 on the feeding cover 200, and finally, the material in the storage hopper 210 is led into the mixing cylinder 100, so that the kinetic energy of the inside air is recycled; the friction between the first guide table 300 and the second guide table 400 is increased through the extrusion of the air bag 310, the first guide table 300 rotates along with the second guide table 400, the first guide table 300 has a speed difference along with the second guide table 400, the first guide table 300 rotates along with the second guide table 400 in a differential speed manner and is arranged in different numbers through the guide grooves, materials just entering the mixing drum 100 are uniformly mixed, the situation that the materials enter the mixing drum 100 and are accumulated is avoided, so that the mixing time is shortened, the air bag 310 is pushed and pulled through the air inlet pipe 430 to rotate and drive the magnet 432 to be matched with the magnet 321 on the push plate 320, the materials mixed on the second guide table 400 are blown into the mixing drum 100 again to be mixed, meanwhile, the materials on the helical blades 110 inside the mixing drum 100 are blown down to be further mixed, the sealing piece 410 arranged on the fixed disc 120 prevents the materials from being sucked into the second guide table 400 when the air bag 310 is sucked, the later cleaning is prevented from being troublesome, finally, the materials just accumulated at the bottom of the mixing drum 100 are moved to the upper part of the mixing drum 100 through the helical blades 110 arranged on the inner wall of the mixing drum 100, the air inlet pipe 430 is matched with the magnet 321, the mixed materials are blown out of the air hole 102 again, and the mixing drum 100 is improved.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. A mixer for food processing comprising:

the mixing drum (100), the mixing drum (100) is rotatable, a fixed disc (120) for installing a second material guiding table (400) is arranged at the bottom of the mixing drum (100), and a spiral blade (110) for moving a bottom material to the upper end is arranged on the inner wall of the mixing drum (100);

the first material guiding table (300) is movably arranged on the mixing drum (100) and is used for paving materials entering the mixing drum (100) on the outer peripheral surface of the first material guiding table (300) in sequence for preliminary mixing, and an air bag (310) for blowing is arranged on the first material guiding table (300);

the material guiding platform II (400) is rotatably arranged on the fixed disc (120) and is movably connected with the material guiding platform I (300) and used for re-paving materials on the outer peripheral surface of the material guiding platform II (400) for re-mixing, the fixed disc (120) is rotatably provided with an air inlet pipe (430) connected with the material guiding platform II (400), and the air inlet pipe (430) is provided with a magnet II (432) for pushing and pulling the air bag (310);

the feeding cover (200), be equipped with blast pipe (220) and be used for converting mixing drum (100) inside atmospheric pressure into feeding power dial (230) on feeding cover (200), be equipped with piston (222) on blast pipe (220), dial (230) stretch into blast pipe (220) and paste piston (222).

2. The mixer for food processing according to claim 1, wherein the mixing drum (100) is provided with a cavity (101), and the inner wall of the mixing drum (100) is provided with a plurality of groups of air blowing holes I (102) which are spirally distributed and communicated with the cavity (101), and the air blowing direction of the air blowing holes I (102) faces the spiral blade (110).

3. The mixer for food processing according to claim 1, wherein N guide grooves (301) are formed in the first guide table (300), M guide grooves (401) are formed in the second guide table (400), N is smaller than M, and a plurality of even number of air blowing holes (402) are formed in the inner wall of the second guide groove (401).

4. The mixer for food processing according to claim 1, wherein the fixed disk (120) is provided with a sealing member (410) attached to the inner wall of the second guiding table (400), and the sealing member (410) is provided with a plurality of groups of second through holes (411) arranged in a staggered manner, and the sealing member is used for intermittently communicating with the second air blowing holes (402) on the second guiding table (400), so that air is blown into the mixing drum (100) to further mix materials.

5. The mixer for food processing according to claim 4, wherein the air bag (310) is arranged on the first guide table (300) and extends into the second guide table (400), a pushing disc (320) is arranged on one side, close to the air inlet pipe (430), of the air bag (310), and a first magnet (321) is arranged on the pushing disc (320).

6. The mixer for food processing according to claim 5, wherein the first magnets (321) are arranged in a plurality of groups and distributed on the pushing plate (320) in a ring-shaped array, and the magnetic poles of the adjacent first magnets (321) are opposite, and the second magnets (432) on the air inlet pipe (430) are arranged in the same manner as the first magnets (321) are arranged on the pushing plate (320).

7. The mixer for food processing according to claim 1, wherein the air inlet pipe (430) is provided with a through hole III (431) communicated with the cavity (101) in the mixing drum (100), the air inlet pipe (430) and the air blowing hole I (102) are provided with one-way valves, the air inlet pipe (430) is provided with a driving rod (440), and the rotation direction of the driving rod (440) is opposite to that of the mixing drum (100).

8. The mixer for food processing according to claim 1, wherein the feeding cover (200) is provided with a storage tank (201) and a feeding hole (202) which are mutually communicated, and the storage tank (201) can be manually closed for selectively opening and closing according to feeding requirements, the feeding cover (200) is elastically provided with a poking plate (230) attached to the piston (222), and the poking plate (230) is provided with a first through hole (231) which is staggered with the feeding hole (202) when being positioned at an initial position.

9. The mixer for food processing according to claim 8, wherein the piston (222) is boss-shaped, and the exhaust pipe (220) is provided with an exhaust groove (221), the bottom end of the exhaust groove (221) is higher than the top end of the piston (222) in the initial state, and the side of the poking plate (230) close to the piston (222) is provided with an inclined guide plate.

10. The mixer for food processing according to claim 8, wherein the number of the storage tanks (201) is multiple, a storage hopper (210) with storage cavities the same as the number of the storage tanks (201) is installed on the feeding cover (200), and a film for filtering materials is arranged at the air inlet end of the air outlet pipe (220).