CN114831184A

CN114831184A - Milk powder processing method

Info

Publication number: CN114831184A
Application number: CN202210527670.3A
Authority: CN
Inventors: 姚春雨
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-16
Filing date: 2022-05-16
Publication date: 2022-08-02

Abstract

The invention relates to the technical field of milk powder processing, in particular to a milk powder processing method, which comprises the following steps: step one, checking and accepting raw milk, pretreating the raw milk, adding the raw milk into a processing device, and heating and distilling the raw milk; step two, finishing the processing of the milk powder semi-finished product and quantitatively discharging the milk powder semi-finished product; step three, adding the milk powder semi-finished product and various additives into a mixing box in sequence; and step four, stirring the semi-finished milk powder and various additives in the mixing direction to finish the processing of the milk powder.

Description

Milk powder processing method

Technical Field

The invention relates to the technical field of milk powder processing, in particular to a milk powder processing method.

Background

The milk powder is powder prepared by removing water from animal milk, is suitable for storage, is prepared by using fresh milk or goat milk as a raw material, removing almost all water in the milk by a freezing or heating method, drying and adding a proper amount of vitamins, minerals and the like to prepare reconstituted food, is easy to reconstitute, convenient to carry and rich in nutrition, is larger and looser than common milk powder particles, has good wettability and high dispersity, can be quickly dissolved even by warm water during reconstitution, is powder prepared by removing water from fresh milk of mammals and is convenient to carry, but the liquid in the milk or goat milk is uniformly collected and processed by the prior art when the milk or goat milk is processed.

Disclosure of Invention

The invention aims to provide a milk powder processing method, which can uniformly collect and process liquid extracted from milk or goat milk when the milk or goat milk is processed.

The purpose of the invention is realized by the following technical scheme:

a milk powder processing method comprises the following steps:

step one, checking and accepting raw milk, pretreating the raw milk, adding the raw milk into a processing device, and heating and distilling the raw milk;

step two, finishing the processing of the milk powder semi-finished product and quantitatively discharging the milk powder semi-finished product;

step three, adding the milk powder semi-finished product and various additives into a mixing box in sequence;

and step four, stirring the semi-finished milk powder and various additives in the mixing direction to finish the processing of the milk powder.

The raw milk is cow milk or goat milk.

Preferably, the milk powder is sterilized after the stirring treatment.

Preferably, processingequipment includes distillation case, supporting leg, lid shrouding, a plurality of bleeder vent and retrieves the component, fixedly connected with supporting leg on the distillation case, and lid shrouding fixed connection is in the top of distillation case, and a plurality of bleeder vents evenly set up on the distillation case, can carry out the recovery component fixed connection of condensation to steam on the distillation case.

Preferably, the recycling member comprises an inclined storage box, a drain pipe and a condensing member, the inclined storage box is fixedly connected to the distillation box, the drain pipe is fixedly connected to the inclined storage box, and the condensing member is fixedly connected to the distillation box.

Preferably, processingequipment still includes bearing seat, hot plate, a plurality of protrusion board and interlock wheel, bears seat fixed connection on the distillation retort, and the hot plate rotates to be connected on bearing the seat, and the hot plate rotates to be connected in the distillation retort, and the even fixed connection of a plurality of protrusion boards is on the hot plate, and interlock wheel fixed connection is in the below of hot plate.

Preferably, processingequipment still includes idle running chamber, hole even board, extrusion chamber, liquid feeding taper chamber and filter layer, and idle running chamber fixed connection is on covering the shrouding, and hole even board rotates to be connected on idle running chamber, and extrusion chamber fixed connection is on idle running chamber, and liquid feeding taper chamber fixed connection is on extrusion chamber, and the filter layer setting is on liquid feeding taper chamber.

Preferably, the processing device further comprises two extrusion members and a switch member, the two extrusion members capable of extruding the raw material are respectively connected to two ends of the extrusion cavity, and the switch member capable of rotating is connected to the extrusion cavity.

Preferably, processingequipment still includes the storage chamber, stores chamber fixed connection in the below that bears the weight of the seat, supporting leg and storage chamber fixed connection.

Preferably, the processing device further comprises a blocking and sliding ball rod and an eccentric rod, the blocking and sliding ball rod is connected in the heating plate in a sliding mode, the bearing seat is connected with the blocking and sliding ball rod in a sliding mode, and the eccentric rod is connected to the storage cavity in a rotating mode.

Preferably, the condensing member includes condensate sump, refrigeration pipe, bent apron and filler pipe, fixedly connected with refrigeration pipe in the fixedly connected with condensate sump on the distillation retort, and sliding connection has bent apron on the condensate sump, and fixedly connected with filler pipe on the bent apron.

Preferably, the extrusion component includes the telescopic link and the crowded board that slides, and the crowded board that slides of fixedly connected with on the telescopic link, the equal fixedly connected with telescopic link in both ends in extrusion chamber, two crowded board equal sliding connection in extrusion intracavity that slide.

Preferably, the switch component comprises a worm gear rod, a worm and a rotary sealing plate, the extrusion cavity is rotatably connected with the worm gear rod, the extrusion cavity is rotatably connected with the worm, the worm is in meshing transmission connection with the worm gear rod, the worm is fixedly connected with the rotary sealing plate, and the rotary sealing plate is in sliding connection with the inner wall of the extrusion cavity.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic flow chart of a milk powder processing method of the invention;

FIG. 2 is a schematic diagram of the structure of an example of distillation treatment of a raw material;

FIG. 3 is a schematic cross-sectional view showing an example of distillation treatment of a raw material;

FIG. 4 is a schematic structural view of a recovery member of the present invention;

FIG. 5 is a schematic structural view of an example of heating and stirring the raw material;

FIG. 6 is a schematic diagram of an embodiment of extruding a feedstock;

FIG. 7 is a schematic cross-sectional profile view of an embodiment of extruding feedstock;

FIG. 8 is a schematic structural view of an embodiment for adjusting whether or not the raw material falls;

FIG. 9 is a schematic structural view of an embodiment of collecting processed solid materials;

FIG. 10 is a schematic cross-sectional profile view of an embodiment of the collection of processed solid material.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The following detailed description, with reference to the accompanying drawing 1, discloses a milk powder processing method, which comprises the following steps:

The raw milk is cow milk or goat milk as described in detail below with reference to fig. 1.

Further, the milk or the goat milk is subjected to milk purification treatment, so that no impurities or bacteria exist in the milk or the goat milk.

The following description will be made in detail with reference to fig. 1, wherein the milk powder is sterilized after the stirring process.

Furthermore, the production process of the milk powder uses more sterilization methods, and a proper sterilization method can be selected according to the type characteristics of the milk powder, and generally, the most common method is a high-temperature short-time sterilization method, so that the loss of nutritional ingredients is less.

According to the detailed description of the attached drawings 2-4 in the specification, the processing device comprises a distillation box 101, support legs 102, a cover sealing plate 103, a plurality of air holes 104 and a recovery component, wherein the support legs 102 are fixedly connected to the distillation box 101 through welding, the cover sealing plate 103 is fixedly connected above the distillation box 101 through a plurality of screws, the air holes 104 are uniformly formed in the distillation box 101, and the recovery component capable of condensing hot air is fixedly connected to the distillation box 101 through welding.

Furthermore, the distillation box 101 can be heated and dried, the lower part of the distillation box 101 is designed to be a conical structure, so that the semi-finished milk powder product processed by the distillation box 101 can be conveniently discharged, the bottom of the distillation box 101 is provided with a heating plate, the heating plate is started to dry the milk or goat milk in the distillation box 101, so that the separation of the liquid and the main components of the milk or goat milk is realized, after the liquid is discharged, the rest is the semi-finished milk or goat milk, the supporting legs 102 play a role in bearing and fixing, a fixed space can be provided for the whole pile body, the device can be stably placed on the ground, the cover sealing plate 103 can shield the opening above the distillation box 101 to prevent impurities from entering the distillation box 101, the cover sealing plate 103 is provided with an adding port, the milk or goat milk can enter the distillation box 101 through the adding port, when the milk or goat milk is heated and distilled, hot air is generated and can be discharged through the plurality of air vents 104, the discharged hot air can directly contact with the recovery component, the hot air can immediately turn into water drops, and the water drops can directly fall into the recovery component, so that the water recovery treatment is realized.

2-4, the recycling member comprises an inclined storage box 201, a drain pipe 202 and a condensing member, the inclined storage box 201 is fixedly connected to the distillation box 101 through welding, the drain pipe 202 is fixedly connected to the inclined storage box 201 through welding, and the condensing member is fixedly connected to the distillation box 101 through welding.

Further, the inclined storage box 201 plays a role in collection, the bottom surface of the inclined storage box 201 is designed to be an inclined surface, the bottom surface of the inclined storage box 201 sequentially becomes high from left to right, at the moment, water entering the inclined storage box 201 can flow to the left end of the inclined storage box 201, water in the inclined storage box 201 can be discharged completely, water entering the inclined storage box 201 can be discharged from the drain pipe 202, a valve is arranged on the drain pipe 202 and can control whether water is discharged from the drain pipe 202 or not, after the hot air is discharged from the plurality of air holes 104, the hot air can be immediately contacted with the condensing member, cold water is stored in the condensing member, when the hot air meets the cold condensing member, the hot air can form water beads, the hot air can be changed into water beads, the hot air can be recycled conveniently, and the recycled water can be treated uniformly.

The condensing element includes condensate tank 203, refrigeration pipe 204, bent apron 205 and filler pipe 206, through welded fastening connection with condensate tank 203 on the distillation case 101, through welded fastening connection with refrigeration pipe 204 in the condensate tank 203, has bent apron 205 through sliding plug sliding connection on the condensate tank 203, through welded fastening connection with filler pipe 206 on the bent apron 205.

Further, can add water to in the filler pipe 206, water can advance in the condensate tank 203, utilize the refrigeration pipe 204 can realize carrying out refrigeration treatment to the water in the condensate tank 203, at this moment, the water in the condensate tank 203 will be in cryogenic treatment, the condensate tank 203 also will be in the low temperature state, and when steam and the condensate tank 203 contact that is in the low temperature state, steam will become the drop of water, after a certain amount of drop of water is accumulated on the condensate tank 203, because the reason of gravity will drip and advance to the inclined storage box 201 in, finally flow out from drain pipe 202 again.

According to the detailed description of the specification, namely the drawings 2, 3, 5, 9 and 10, the processing device further comprises a bearing seat 301, a heating plate 302, a plurality of protruding plates 303 and a linkage wheel 304, wherein the bearing seat 301 is fixedly connected to the distillation box 101 through welding, the heating plate 302 is rotatably connected to the bearing seat 301 through a bearing, the heating plate 302 is rotatably connected to the distillation box 101 through a cavity, the protruding plates 303 are uniformly fixedly connected to the heating plate 302 through welding, and the linkage wheel 304 is fixedly connected to the lower side of the heating plate 302 through welding.

Furthermore, the bearing seat 301 plays a role of bearing connection, and can provide a rotating space for the heating plate 302, a plurality of resistance wires are arranged in the heating plate 302, the resistance wires are connected with a power line through a wire and a switch, heat can be generated after the resistance wires are electrified, so that the heating plate 302 can generate heat, the heat generated by the heating plate 302 can be applied to milk or goat milk, thereby realizing the distillation treatment of the milk or goat milk, ensuring that the moisture in the milk or goat milk is extracted, the heating plate 302 can also rotate in the distillation box 101, realizing the uniform heating treatment of the milk or goat milk in the distillation box 101, and the heating plate 302 can generate larger stirring force after the plurality of protruding plates 303 are arranged, further improving the uniform heating treatment of the milk or goat milk, a driving device can be fixedly connected to the bearing seat 301, and is in transmission connection with the linkage wheel 304, the driving device is used to drive the coupling wheel 304 to rotate, and when the coupling wheel 304 rotates, the heating plate 302 can be driven to rotate, so as to finally realize the uniform heating treatment of the milk or goat milk.

According to the detailed description of the drawings 6-8 in the specification, the processing device further comprises an idle rotation cavity 401, a hole connecting plate 402, an extrusion cavity 403, a liquid feeding conical cavity 404 and a filter layer 405, wherein the idle rotation cavity 401 is fixedly connected to the cover plate 103 through welding, the hole connecting plate 402 is rotatably connected to the idle rotation cavity 401 through a cavity, the extrusion cavity 403 is fixedly connected to the idle rotation cavity 401 through welding, the liquid feeding conical cavity 404 is fixedly connected to the extrusion cavity 403 through welding, and the filter layer 405 is arranged on the liquid feeding conical cavity 404.

Furthermore, the idle rotation cavity 401 can provide a rotating space for the hole connecting plate 402, two circular holes are arranged on the hole connecting plate 402, when one of the circular holes is overlapped with the adding port on the cover sealing plate 103, the milk or goat milk in the extrusion cavity 403 can enter the distillation box 101, the simple processing treatment of the milk or goat milk can be realized in the extrusion cavity 403, the quality of the processed milk powder is further improved, the milk or goat milk can be added into the liquid adding conical cavity 404, the milk or goat milk can be contacted with the filter layer 405, the filter layer 405 can be used for filtering the milk or goat milk, no insoluble substance is left in the milk or goat milk, the quality of the processed milk powder is further improved, the idle rotation cavity 401 is fixedly connected with a contact member, the contact member is contacted with the hole connecting plate 402, the limit treatment of the hole connecting plate 402 is realized, the hole connecting plate 402 is prevented from randomly rotating, a pointer is arranged on the hole connecting plate 402, by observing the position of the pointer, it can be known whether one of the two circular holes on the hole connecting plate 402 is overlapped with the adding port on the cover sealing plate 103, and further know whether the milk or goat milk flows through the hole connecting plate 402 and enters the distilling box 101.

According to the detailed description of the drawings 6-8, the processing device further comprises two extrusion components and a switch component, wherein the two extrusion components capable of extruding the raw materials are respectively connected to two ends of the extrusion cavity 403, and the switch component capable of rotating is connected to the extrusion cavity 403.

Furthermore, when milk or goat milk is added, the switch component can be rotated firstly, the switch component is separated from the lower part of the liquid adding conical cavity 404, then the milk or goat milk in the liquid adding conical cavity 404 can enter the extrusion cavity 403, after the milk or goat milk completely enters the extrusion cavity 403, the position of the switch component is adjusted, the switch component is moved to the lower part of the liquid adding conical cavity 404, the sealing treatment of the liquid adding conical cavity 404 is realized, at this time, the two extrusion components are started, the two extrusion components are utilized to realize the moving treatment of the milk or goat milk in the extrusion cavity 403, the internal molecular structure of the extruded milk or goat milk can be changed, so that the extraction of the water in the milk or goat milk at the later stage is facilitated, the processing speed of milk powder is further accelerated, the preparation speed of milk powder is improved, when the milk or goat milk is extruded, the hole connecting plate 402 is rotated, and whether one of the two circular holes on the hole connecting plate 402 coincides with the adding port on the sealing plate 103, the pressed cow or goat milk is finally introduced into the retort 101.

The extrusion component comprises an expansion link 501 and sliding extrusion plates 502, the expansion link 501 is fixedly connected with the sliding extrusion plates 502 through welding, the two ends of the extrusion cavity 403 are both fixedly connected with the expansion link 501 through welding, and the two sliding extrusion plates 502 are both connected in the extrusion cavity 403 through a cavity in a sliding manner.

Furthermore, after the milk or goat milk completely enters the extrusion cavity 403, the two telescopic rods 501 are started to respectively drive the two sliding extrusion plates 502 to slide inwards in the extrusion cavity 403, so that the milk or goat milk is extruded, and the molecular structure of the milk or goat milk is damaged, thereby facilitating the extraction of water in the milk or goat milk at the later stage.

The switch component comprises a worm gear rod 601, a worm 602 and a rotating sealing plate 603, the extrusion cavity 403 is rotatably connected with the worm gear rod 601 through a circular hole, the extrusion cavity 403 is rotatably connected with the worm 602 through a bearing seat, the worm 602 is in meshed transmission connection with the worm gear rod 601, the worm gear rod 601 is fixedly connected with the rotating sealing plate 603 through welding, and the rotating sealing plate 603 is in sliding connection with the inner wall of the extrusion cavity 403.

Further, it can drive worm gear rod 601 and rotate to rotate worm 602, and pivoted worm gear rod 601 can drive and change shrouding 603 and rotate, and pivoted commentaries on classics shrouding 603 can change its position, and when changeing shrouding 603 and being in the below of liquid feeding awl chamber 404, realize the shutoff of liquid feeding awl chamber 404 and handle, when changeing shrouding 603 and breaking away from the below of liquid feeding awl chamber 404, be located milk or goat's milk in liquid feeding awl chamber 404 can advance to squeeze chamber 403 in.

According to the detailed description of the specification, referring to fig. 9 and 10, the processing device further comprises a storage cavity 701, the storage cavity 701 is fixedly connected below the bearing seat 301 through welding, and the supporting leg 102 is fixedly connected with the storage cavity 701 through welding.

Further, after milk or goat's milk in the distilling box 101 is processed into the solid, will discharge through hot plate 302, the solid that discharges from hot plate 302 will enter into storage chamber 701, the below of storage chamber 701 is provided with the output tube, be provided with the valve on its output tube, open the valve, the solid material that advances in storage chamber 701 will discharge through the output tube, the below of storage chamber 701 will be placed to the mixing box that will store multiple additive, let the solid material that discharges from storage chamber 701 directly advance the mixing box and realize the mixture with multiple additive.

According to the detailed description of the specification with reference to fig. 9 and 10, the processing device further comprises a blocking ball rod 702 and an eccentric rod 703, the blocking ball rod 702 is slidably connected in the heating plate 302 through a cavity, the bearing seat 301 and the blocking ball rod 702 are slidably connected through a circular hole, and the eccentric rod 703 is rotatably connected to the storage cavity 701 through a circular hole.

Further, the blocking and sliding ball rod 702 can be used for blocking and sliding the heating plate 302, at this time, the solid material in the heating plate 302 will not be discharged from the heating plate 302, the eccentric rod 703 is composed of two cylinders and a plate, the different sides of the upper and lower ends of the plate are fixedly connected with cylinders, one of the cylinders is rotatably connected with the storage cavity 701, the other cylinder will be in contact with the blocking and sliding ball rod 702, the storage cavity 701 is fixedly connected with a speed reducing motor, the output shaft of the speed reducing motor is fixedly connected with the cylinder rotatably connected with the storage cavity 701, after the speed reducing motor is started, the other cylinder can be driven to eccentrically rotate by the cylinder rotatably connected with the storage cavity 701, when the other cylinder eccentrically rotates, the blocking and sliding ball rod 702 can be driven to move up and down, when the blocking and sliding ball rod 702 moves upwards, the blocking of the heating plate 302 is released, the solid material in the heating plate 302 will be discharged, when the sliding blocking ball rod 702 moves downwards, the heating plate 302 is blocked again, the time for separating the sliding blocking ball rod 702 from the heating plate 302 can be changed by changing the rotating speed of the speed reducing motor, finally, the volume of the solid material discharged from the heating plate 302 in each period is changed, and the rotating speed of the speed reducing motor is changed according to requirements.

Claims

1. A milk powder processing method is characterized in that: the processing method comprises the following steps:

2. The milk powder processing method according to claim 1, wherein: the raw milk is cow milk or goat milk.

3. The milk powder processing method according to claim 1, wherein: and after the stirring treatment, the milk powder needs to be sterilized.

4. The milk powder processing method according to claim 1, wherein: the processing device comprises a distillation box (101) and supporting legs (102) fixedly connected to the distillation box (101), a cover plate (103) is fixedly connected to the upper portion of the distillation box (101), a plurality of air holes (104) are formed in the distillation box (101), and a recovery component capable of condensing hot air is fixedly connected to the distillation box (101).

5. The milk powder processing method according to claim 4, wherein: the recycling component comprises an inclined storage box (201) fixedly connected to the distillation box (101) and a drain pipe (202) fixedly connected to the inclined storage box (201), and a condensing component is fixedly connected to the distillation box (101).

6. The milk powder processing method according to claim 4, wherein: fixedly connected with bears seat (301) on distilling box (101), bears and rotates on seat (301) and is connected with hot plate (302), and hot plate (302) rotate to be connected in distilling box (101), a plurality of protruding boards of fixedly connected with (303) on hot plate (302), below fixedly connected with interlock wheel (304) of hot plate (302).

7. The milk powder processing method according to claim 4, wherein: cover shrouding (103) go up fixedly connected with idle rotation chamber (401), rotate on idle rotation chamber (401) and be connected porose even board (402), fixedly connected with extrusion chamber (403) on idle rotation chamber (401), fixedly connected with liquid feeding taper chamber (404) on extrusion chamber (403), be provided with filter layer (405) on liquid feeding taper chamber (404).

8. The milk powder processing method according to claim 7, wherein: two extrusion components capable of extruding the raw materials are connected to the extrusion cavity (403), and a switch component capable of rotating is connected to the extrusion cavity (403).

9. The milk powder processing method according to claim 7, wherein: the lower part of the bearing seat (301) is fixedly connected with a storage cavity (701), and the storage cavity (701) is fixedly connected with the supporting leg (102).

10. The milk powder processing method according to claim 9, wherein: the heating plate (302) is internally and slidably connected with a blocking slide ball rod (702), the blocking slide ball rod (702) is slidably connected with the bearing seat (301), and the storage cavity (701) is rotatably connected with an eccentric rod (703).