CN115067494A

CN115067494A - Jelly processing technology

Info

Publication number: CN115067494A
Application number: CN202210811881.XA
Authority: CN
Inventors: 周永明
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-07-11
Filing date: 2022-07-11
Publication date: 2022-09-20

Abstract

The invention relates to the technical field of jelly, in particular to a jelly processing technology, which comprises the following steps: step one, selecting and cleaning raw materials; step two, peeling and dicing the cleaned raw materials; step three, boiling the blocky raw materials, and adding auxiliary materials and additives in the boiling process; step four, adding the boiled raw materials into a split charging device, and uniformly adding the prepared raw materials into a box; and step five, cooling and concentrating the box, sealing the box, and performing sterilization and inspection treatment on the sealed box to finish the processing of the jelly.

Description

Jelly processing technology

Technical Field

The invention relates to the technical field of jelly, in particular to a jelly processing technology.

Background

The jelly is jelly food which is processed by using water, sugar or starch sugar and the like as main raw materials, adding or not adding food additives such as a thickening agent and the like, and adding or not adding fruit and vegetable products, milk, dairy products and other raw materials through the processes of sol, blending, filling, sterilization, cooling and the like.

Disclosure of Invention

The invention aims to provide a jelly processing technology, which can ensure that various fruit pulps are uniformly added into the jelly, and further improve the taste of the assorted jelly.

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

a jelly processing technology comprises the following steps:

step one, selecting and cleaning raw materials;

step two, peeling and dicing the cleaned raw materials;

step three, boiling the blocky raw materials, and adding auxiliary materials and additives in the boiling process;

step four, adding the boiled raw materials into a split charging device, and uniformly adding the prepared raw materials into a box;

and step five, cooling and concentrating the box, sealing the box, and sterilizing and inspecting the sealed box to finish the processing of the jelly.

The raw materials comprise tangerine, coconut, peach and apple.

Preferably, the partial shipment device includes that carriage and fixed connection deposit the bucket with the liquid on the carriage, four solid storage buckets of fixedly connected with on the carriage, the equal fixedly connected with in below of four solid storage buckets oblique slip pipe that has the valve, the below fixedly connected with partial shipment bucket that the bucket was deposited to liquid, partial shipment bucket and four oblique slip pipe fixed connection, sliding connection has the slip to hold in the palm the bucket on the partial shipment bucket, and the below of slip to hold in the palm the bucket rotates to be connected with and shelters from the shrouding.

Preferably, the split charging device further comprises a lifting screw rod, the lifting screw rod is connected to the sliding support barrel through threads, and the lifting screw rod is rotatably connected with one of the inclined sliding pipes.

Preferably, partial shipment device still includes and floats closure plate and electromagnet ring, floats closure plate sliding connection on the partial shipment bucket, and electromagnet ring fixed connection is on the partial shipment bucket.

Preferably, the split charging device further comprises a curved supporting ring, a separating barrel, an inclined filter plate, a solid material discharging pipe and a plugging member, wherein the curved supporting ring is fixedly connected to the supporting frame, the separating barrel is rotatably connected to the curved supporting ring, the separating barrel is rotatably connected to the upper portion of the liquid storage barrel, the inclined filter plate is fixedly connected to the inside of the separating barrel, the solid material discharging pipe is fixedly connected to the inside of the separating barrel, and the plugging member is connected to the inside of the separating barrel.

Preferably, the blocking component comprises two sliding column groups and a blocking curved plate, the two sliding column groups are fixedly connected in the separation barrel, the blocking curved plate is in sliding connection with the two sliding column groups, and the blocking curved plate is attached to the inner curved surface of the separation barrel.

Preferably, the partial shipment device still includes the end and touches the layer board, holds in the palm the change, a plurality ofly places ring and a plurality of storage box, and the end touches layer board fixed connection in the below of carriage, holds in the palm the change and rotates to connect and touch at the end on the layer board, and a plurality ofly places the even fixed connection of ring on holding in the palm the change, and a plurality of storage boxes are placed respectively in a plurality of intra-annular of placing.

Preferably, partial shipment device still includes gear ring and gear shaft, and gear ring fixed connection is on holding in the palm the swivel, and the gear shaft rotates to be connected and touches the layer board at the bottom, and the gear shaft is connected with gear ring meshing transmission.

Preferably, the split charging device further comprises a vertical plate, a switch button, a limiting sliding cavity and a round-head column, the vertical plate is fixedly connected to the bottom contact supporting plate, the switch button is arranged on the vertical plate, the limiting sliding cavity is fixedly connected to the vertical plate, the round-head column is slidably connected to the limiting sliding cavity, and a spring is arranged between the limiting sliding cavity and the round-head column.

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 jelly processing process according to the present invention;

FIG. 2 is a schematic diagram of an embodiment of mixing a plurality of fruits and water;

FIG. 3 is a schematic diagram of an embodiment of a storage for various fruits and water;

FIG. 4 is a schematic structural view of an embodiment for uniformly discharging a plurality of fruits and water;

FIG. 5 is a schematic cross-sectional profile view of an embodiment of storage of various fruits and water;

FIG. 6 is a schematic diagram of an embodiment for achieving separation of fruit from water;

FIG. 7 is a cross-sectional profile configuration schematic of an embodiment for achieving separation of fruit from water;

FIG. 8 is a schematic diagram of an embodiment of automated filling of feedstock;

FIG. 9 is a schematic view of a portion of an embodiment of automated filling of feedstock;

fig. 10 is a schematic view of the structure of the riser, switch button, limiting slide cavity and round head post of the present invention.

Detailed Description

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

The following detailed description, with reference to fig. 1, provides a jelly processing process, which comprises the following steps:

step one, selecting and cleaning raw materials;

step two, peeling and dicing the cleaned raw materials;

As described in detail below with reference to FIG. 1, the raw materials include orange, coconut, peach, and apple.

Further, the processing of the assorted flavor jelly is realized by processing oranges, coconut, peaches and apples.

The following detailed description is provided with reference to fig. 2-5 and 8, the sub-packaging device includes a support frame 101, a liquid storage barrel 102, four solid material barrels 103, four oblique sliding tubes 104, a sub-packaging barrel 105, a sliding support barrel 106 and a shielding sealing plate 107, the liquid storage barrel 102 is connected to the support frame 101 through welding, the four solid material barrels 103 are uniformly connected to the support frame 101 through welding, the four oblique sliding tubes 104 with valves are respectively connected to the lower sides of the four solid material barrels 103 through welding, the sub-packaging barrel 105 is connected to the lower side of the liquid storage barrel 102 through welding, the four oblique sliding tubes 104 are respectively connected to the sub-packaging barrel 105 through welding, the sliding support barrel 106 is connected to the sub-packaging barrel 105 through three sliding columns, and the shielding sealing plate 107 is connected to the lower side of the sliding support barrel 106 through rotation of a central shaft.

Furthermore, the supporting frame 101 can provide a fixed space for the liquid storage barrel 102, water for boiling fruits can be added into the liquid storage barrel 102, finally water containing fruit nutrients can enter the sub-packaging barrel 105, then the massive pulps of the oranges, the coconuts, the peaches and the apples can be respectively added into the four solid material barrels 103, the oranges, the coconuts, the peaches and the apples can enter the sub-packaging barrel 105 through the four inclined sliding pipes 104 with valves, at this time, various fruits can be uniformly discharged and enter the sub-packaging barrel 105, the content of various fruits contained in the processed assorted flavor jelly is ensured to be the same, the water containing fruit nutrients and the massive pulps of the oranges, the coconuts, the peaches and the apples which enter the sub-packaging barrel 105 can fall into the sliding support barrel 106, the raw materials can be stored, the shielding sealing plate 107 is rotatably connected below the sliding support barrel 106 through the central shaft, the shielding sealing plate 107 can shield an opening below the sliding support barrel 106, center pin and gear motor I's output shaft fixed connection, gear motor I fixed connection is on smooth support bucket 106, when the raw materials that needs will slide in the support bucket 106 is discharged, can drive behind the start gear motor I and shelter from shrouding 107 and rotate, the raw materials that is located at this moment smooth support bucket 106 will discharge and enter into the box, later cool off the concentrated processing to the raw materials in the box, can accomplish the processing of assorted flavor jelly, and split charging bucket 105 can take place relative slip with smooth support bucket 106, thereby change the storage capacity of raw materials between split charging bucket 105 and the smooth support bucket 106, further change the volume of processing out assorted flavor jelly, realize the processing of the jelly of different sizes.

According to the detailed description of the attached drawings 2 and 4 in the specification, the split charging device further comprises a lifting screw 201, the lifting screw 201 is connected to the sliding support barrel 106 through threads, and the lifting screw 201 is rotatably connected with one of the inclined sliding pipes 104 through a bearing seat.

Furthermore, the split charging barrel 105 is slidably connected with the sliding support barrel 106 through a plurality of limiting sliding columns, so that the limiting treatment of the sliding support barrel 106 can be realized, the sliding support barrel 106 can only slide along the direction of the split charging barrel 105, the sliding support barrel 106 can be driven to lift on the split charging barrel 105 by rotating the lifting screw 201, the relative position of the split charging barrel 105 and the sliding support barrel 106 can be changed, the volume of the raw materials stored between the split charging barrel 105 and the sliding support barrel 106 can be further adjusted, the storage of different amounts of the raw materials can be realized, the limitation on the height of the sliding support barrel 106 can be realized through the lifting screw 201, the situation that when the sliding support barrel 106 stores the raw materials, the sliding support barrel 106 moves downwards due to gravity, the amount of the raw materials stored in the sliding support barrel 106 can be changed, and the assorted flavor jelly with the same specification cannot be processed.

According to the detailed description of the specification, fig. 2, 4 and 5, the subpackaging device further comprises a floating and blocking plate 202 and an electromagnet ring 203, wherein the floating and blocking plate 202 is connected to the subpackaging barrel 105 in a sliding mode through four cylinders, and the electromagnet ring 203 is fixedly connected to the subpackaging barrel 105 through welding.

Further, a plurality of cylinders of top fixedly connected with of floating closure plate 202, a plurality of cylinders and partial shipment bucket 105 sliding connection, and a plurality of cylindrical tops all are provided with the plectane that is greater than its self diameter, the plectane is iron, after the cubic pulp of orange, coconut palm fruit, peach and apple enters into partial shipment bucket 105, add the water of cooking fruit again in partial shipment bucket 105, at this moment partial shipment bucket 105 interior liquid level will rise, when the surface of water is enough high, the buoyancy of water will be used on floating closure plate 202, let floating closure plate 202 rebound, at this moment the epaxial plectane of a plurality of cylinders will adsorb electromagnet ring 203, realize the fixed to floating closure plate 202, at this moment the water of cooking fruit will not advance again in partial shipment bucket 105, give the electricity back of electricity ring 203, electromagnet ring 203 will produce magnetic force, the magnet of electromagnet ring 203 will disappear immediately after the outage.

According to the detailed description of the specification drawings 2, 3, 6 and 7, the split charging device further comprises a curved supporting ring 301, a separation barrel 302, an inclined filtering plate 303, a solid material discharging pipe 304 and a plugging member, wherein the curved supporting ring 301 is fixedly connected to the supporting frame 101 through welding, the separation barrel 302 is rotatably connected to the curved supporting ring 301 through a bearing, the separation barrel 302 is rotatably connected to the upper portion of the liquid storage barrel 102 through a circular hole, the inclined filtering plate 303 is fixedly connected to the separation barrel 302 through welding, the solid material discharging pipe 304 is fixedly connected to the separation barrel 302 through welding and communicated with the separation barrel 302, and the plugging member is connected to the separation barrel 302.

Furthermore, the curved supporting ring 301 can provide a fixed space for the separating barrel 302, boiled fruits and water can be poured into the separating barrel 302, the inclined filter plate 303 is designed to be inclined, a plurality of filter holes are arranged above the inclined filter plate 303, when the water and the fruits fall onto the inclined filter plate 303 at the same time, the water can directly fall from the inclined filter plate 303 to the bottom of the separating barrel 302 and finally enter the liquid storage barrel 102, the blocking member can block the solid material discharge pipe 304, when the water completely enters the liquid storage barrel 102, the blocking member is moved upwards, fruit blocks left on the inclined filter plate 303 are discharged through the solid material discharge pipe 304, the blocky fruits fall into the solid material barrels 103, at this time, the adding of one kind of fruits into one solid material barrel 103 is completed, then the separating barrel 302 is rotated ninety degrees, the solid material discharge pipe 304 is positioned above the other solid material barrel 103, and the steps are repeated, the adding of the second kind of fruits into the second solid material barrel 103 is completed, until the four solid material buckets 103 are stored with fruits, then a plurality of fruits and water containing fruit nutrients are discharged.

According to the detailed description of the specification, shown in fig. 6 and 7, the blocking member comprises two sliding column groups 305 and a blocking curved plate 306, the two sliding column groups 305 are fixedly connected in the separation barrel 302 through welding, the blocking curved plate 306 is in sliding connection with the two sliding column groups 305 through two round holes, and the blocking curved plate 306 is attached to the inner curved surface of the separation barrel 302.

Furthermore, the two sliding column groups 305 can provide a sliding space for the blocking curved plate 306 and limit the blocking curved plate 306, so that the blocking curved plate 306 can only slide up and down, a handle is fixedly connected to the blocking curved plate 306, the blocking curved plate 306 can be conveniently pulled up by the handle, when the blocky fruits left on the inclined filter plate 303 need to be discharged, the handle is pulled to drive the blocking curved plate 306 to move upwards, the solid material discharge pipe 304 at the moment is communicated with the inclined filter plate 303, the blocky fruits which pass through the inclination of the inclined filter plate 303 can directly slide out and enter the solid material discharge pipe 304, finally the blocky fruits can enter one solid material barrel 103 to finish the addition of the blocky fruits, after the addition is finished, the handle is loosened to allow the blocking bent plate 306 to move downwards to block the solid material discharging pipe 304 again, the second fruit is added until fruits are stored in the four solid material buckets 103.

According to the detailed description of the attached drawings 8 and 9 of the specification, the split charging device further comprises a bottom touch supporting plate 401, a supporting rotary ring 402, a plurality of placing rings 403 and a plurality of storage boxes 404, the bottom touch supporting plate 401 is fixedly connected below the supporting frame 101 through welding, the supporting rotary ring 402 is rotatably connected to the bottom touch supporting plate 401 through a vertical circular cavity, the plurality of placing rings 403 are uniformly and fixedly connected to the supporting rotary ring 402 through welding, and the plurality of storage boxes 404 are respectively placed in the plurality of placing rings 403.

Further, the bottom contact supporting plate 401 can provide a fixed space for the supporting frame 101 and provide a rotating space for the supporting ring 402, when the supporting ring 402 rotates, the plurality of placing rings 403 can be driven to rotate, and finally the plurality of storage boxes 404 can be driven to rotate, the movement mode of the supporting ring 402 is that the supporting ring 402 stops after rotating a certain angle, and in the stopping process, one storage box 404 is certainly positioned under the sliding supporting barrel 106, at this time, after the shielding sealing plate 107 rotates, the raw materials in the sliding supporting barrel 106 can be discharged and enter the storage box 404, at this time, the supporting ring 402 rotates again, and the next storage box 404 is moved to be under the sliding supporting barrel 106, and in the rotating process of the supporting ring 402, a plurality of fruits and water can be supplemented into the sliding supporting barrel 106, and when the next storage box 404 rotates to be under the sliding supporting barrel 106, the sliding support barrel 106 can be automatically discharged, and the steps are circulated to finish the batch filling treatment of the jelly.

According to the detailed description of the specification, referring to fig. 8 and 9, the split charging device further comprises a gear ring 501 and a gear shaft 502, wherein the gear ring 501 is fixedly connected to the supporting and rotating ring 402 through welding, the gear shaft 502 is rotatably connected to the bottom contact supporting plate 401 through a shaft, and the gear shaft 502 is in meshing transmission connection with the gear ring 501.

Further, ring gear 501 can drive and hold in the palm swivel 402 and rotate, ring gear 501 comprises axle and gear, the axle touches layer board 401 with the end and rotates and be connected, the gear is connected with ring gear 501 meshing transmission, touch fixedly connected with gear motor II on the layer board 401 at the end, gear motor II's output shaft is connected with gear shaft 502 transmission, start gear motor II and can drive gear shaft 502 and rotate, can drive ring gear 501 when gear shaft 502 takes place to rotate and rotate, gear motor II's rotation mode is intermittent type and rotates, will stop a period of time after rotating a period, thereby it carries out intermittent type rotation to drive and hold in the palm swivel 402.

According to the detailed description of the drawings 8-10 in the specification, the split charging device further comprises a vertical plate 601, a switch button 602, a limiting sliding cavity 603 and a round-head column 604, wherein the vertical plate 601 is fixedly connected to the bottom contact supporting plate 401 through welding, the switch button 602 is arranged on the vertical plate 601, the limiting sliding cavity 603 is fixedly connected to the vertical plate 601 through welding, the round-head column 604 is slidably connected in the limiting sliding cavity 603, and a spring is arranged between the limiting sliding cavity 603 and the round-head column 604.

Further, the vertical plate 601 can provide a space for the switch button 602, the switch button 602 can control the valves on the four inclined sliding tubes 104, the electromagnet ring 203 and the shielding plate 107, the limiting sliding cavity 603 can provide a sliding space for the round-headed pillar 604, the round-headed pillar 604 is located below the sliding-supporting barrel 106, the round-headed pillar 604 is acted on by the elastic force generated by the spring, the round-headed pillar 604 is not contacted with the switch button 602, when one of the storage boxes 404 moves to the position right below the sliding-supporting barrel 106, the placing ring 403 connected with the storage box 404 is contacted with the round-headed pillar 604, the round-headed pillar 604 moves inwards and is contacted with the switch button 602, the shielding plate 107 is opened, the valves on the four inclined sliding tubes 104 are closed, the electromagnet ring 203 is energized, the raw material in the sliding-supporting barrel 106 is discharged and flows into the storage box 404, when the rotating ring 402 rotates again, the round-head column 604 is released from contact with the switch button 602, the round-head column 604 is separated from the switch button 602 at this time, the shielding sealing plate 107 is restored to the original position, the sliding support barrel 106 is blocked, the electromagnet ring 203 is powered off, the floating blocking plate 202 moves downwards, valves on the four inclined sliding pipes 104 are opened, various fruits and water enter the sliding support barrel 106 again, after the round-head column 604 is contacted with the switch button 602, the raw materials in the sliding support barrel 106 are discharged, the circulation is performed in sequence, and the split charging treatment of multiple jellies is completed.

Claims

1. The processing technology of the jelly is characterized by comprising the following steps: the process comprises the following steps:

step one, selecting and cleaning raw materials;

step two, peeling and cutting the cleaned raw materials;

2. The jelly processing technology according to claim 1, wherein: the raw materials comprise tangerine, coconut, peach and apple.

3. The jelly processing technology according to claim 1, wherein: the sub-packaging device comprises a supporting frame (101) and a liquid storage barrel (102) fixedly connected to the supporting frame (101), four solid barrels (103) are fixedly connected to the supporting frame (101), oblique sliding pipes (104) with valves are fixedly connected to the lower portions of the four solid barrels (103), a sub-packaging barrel (105) is fixedly connected to the lower portion of the liquid storage barrel (102), the sub-packaging barrel (105) is fixedly connected with the four oblique sliding pipes (104), a sliding support barrel (106) is slidably connected to the sub-packaging barrel (105), and a shielding sealing plate (107) is rotatably connected to the lower portion of the sliding support barrel (106).

4. The jelly processing technology according to claim 3, wherein: the sliding support barrel (106) is connected with a lifting screw rod (201) through threads, and the lifting screw rod (201) is rotatably connected with one of the inclined sliding pipes (104).

5. The jelly processing technology according to claim 3, wherein: the split charging barrel (105) is connected with a floating blocking plate (202) in a sliding mode, and the split charging barrel (105) is fixedly connected with an electromagnet ring (203).

6. The jelly processing technology according to claim 3, wherein: the liquid storage tank is characterized in that a curved supporting ring (301) is fixedly connected to the supporting frame (101), a separating barrel (302) is rotatably connected to the curved supporting ring (301), the separating barrel (302) is rotatably connected above the liquid storage barrel (102), an inclined filtering plate (303) is fixedly connected to the inside of the separating barrel (302), a solid material discharging pipe (304) is fixedly connected to the separating barrel (302), and a blocking component is connected to the inside of the separating barrel (302).

7. The jelly processing technology according to claim 6, wherein: the blocking component comprises two sliding column groups (305) fixedly connected in the separation barrel (302), blocking curved plates (306) are connected on the two sliding column groups (305) in a sliding mode, and the blocking curved plates (306) are attached to the inner curved surface of the separation barrel (302).

8. The jelly processing technology according to claim 3, wherein: support frame (101) fixed connection touches layer board (401) at the bottom on, touches layer board (401) at the bottom and goes up to rotate and be connected with support swivel (402), holds in the palm that even fixedly connected with is a plurality of places ring (403) on swivel (402), all places storage box (404) in a plurality of rings (403) of placing.

9. The jelly processing technology according to claim 8, wherein: the supporting and rotating ring (402) is fixedly connected with a gear ring (501), the bottom contact supporting plate (401) is rotatably connected with a gear shaft (502), and the gear ring (501) is in meshed transmission connection with the gear shaft (502).

10. The jelly processing technology according to claim 8, wherein: the bottom touch support plate (401) is fixedly connected with a vertical plate (601), the vertical plate (601) is provided with a switch button (602), the vertical plate (601) is fixedly connected with a limiting sliding cavity (603), the limiting sliding cavity (603) is internally and slidably connected with a round-head column (604), and a spring is arranged between the limiting sliding cavity (603) and the round-head column (604).