CN113170865B

CN113170865B - Quick peeling apparatus is used in processing of spiced egg

Info

Publication number: CN113170865B
Application number: CN202110561179.8A
Authority: CN
Inventors: 杨涛; 黄天虹; 田文硕
Original assignee: Houde Food Co Ltd
Current assignee: Houde Food Co Ltd
Priority date: 2021-05-26
Filing date: 2021-05-26
Publication date: 2022-09-20
Anticipated expiration: 2041-05-26
Also published as: CN113170865A

Abstract

The invention discloses a quick peeling device for processing marinated eggs, which comprises a peeling machine and an intermittent conveyer belt arranged in the peeling machine, wherein the intermittent conveyer belt is trapezoidal, one end of the intermittent conveyer belt is connected with a driving mechanism, a peeling mechanism is arranged on the intermittent conveyer belt, and a peeling mechanism is arranged in the intermittent conveyer belt. The egg peeling device has the advantages that the drive mechanism connected with one end of the intermittent conveyor belt can drive cooked eggs on the intermittent conveyor belt to perform intermittent feeding, the arc-shaped baffle plate can prevent the position deviation phenomenon during egg feeding, the peeling mechanism can perform peeling treatment on the eggs, the hole pricking needle reciprocates to perform simultaneous hole pricking treatment on the big end and the small end of the eggs, the fixed sleeve reciprocates to perform airflow impact peeling on the eggs after the holes are pricked, the peeling rate is higher, the breakage rate is low, the peeling mechanism can separate the peeled eggs from egg shells, and the egg peeling device is convenient to use in subsequent processing.

Description

Quick peeling apparatus is used in spiced egg processing

Technical Field

The invention relates to the field of marinated egg processing, in particular to a quick peeling device for marinated egg processing.

Background

Marinated eggs, also known as marinated eggs. Is a cooked egg processed by various seasonings or gravy. The marinated eggs are popular food in the egg products operated by the delicatessen and are popular with people. Eggs processed by the spiced marinade are called spiced marinated eggs, and eggs processed by the sweet osmanthus marinade are called sweet osmanthus marinated eggs. The egg processed by chicken juice is called chicken marinated egg, the egg processed by pork juice is called pork marinated egg, and the egg which is smoked and baked by the marinated egg is called smoked marinated egg.

The processing process flow of the marinated eggs comprises egg weight grading, cleaning, drying and sterilizing, damage detection, oil spraying and fresh keeping, cooking, shelling, shell breaking, egg beating, code printing and the like. In the processing process of the marinated eggs, cooked eggs need to be subjected to cold water treatment and then are subjected to shelling treatment, a vibration shelling method is generally adopted, the shelling rate of the vibration shelling is low, the breakage rate is high, and the eggs with incomplete shelling need to be subjected to secondary processing and shelling.

Disclosure of Invention

Aiming at the defects, the invention provides a quick peeling device for processing marinated eggs, which aims to solve the problem of quick peeling for processing marinated eggs.

In order to achieve the purpose, the invention adopts the following technical scheme:

a quick peeling device for processing marinated eggs comprises a peeling machine and an intermittent conveyer belt arranged in the peeling machine, wherein the intermittent conveyer belt is trapezoidal, one end of the intermittent conveyer belt is connected with a driving mechanism, a peeling mechanism is arranged on the intermittent conveyer belt, and a peeling mechanism is arranged in the intermittent conveyer belt;

the driving mechanism comprises a first driving motor, a first driving shaft, a grooved pulley, a first driving conveying shaft, an intermittent wheel, a first three driven conveying shafts, a plurality of mounting plates, a plurality of marinated egg placing holes, a plurality of groups of arc limiting grooves, an arc baffle and limiting blocks, the first driving motor is horizontally arranged on one side of the rear end of the shelling and peeling machine, the first driving shaft is arranged at the rotating end of the first driving motor, the grooved pulley is arranged at the front end of the first driving shaft, the first driving conveying shaft is movably inserted into one end of the shelling and peeling machine, the rear end of the first driving conveying shaft extends out of the shelling and peeling machine, the intermittent wheel is arranged at the rear end of the first driving conveying shaft and corresponds to the position of the grooved pulley, the first three driven conveying shafts are movably inserted into the shelling and peeling machine, the mounting plates are uniformly arranged on the intermittent conveying belt, the marinated egg placing holes are uniformly formed on the mounting plates, and the groups of arc limiting grooves are formed on the mounting plates, the bottom of the arc-shaped baffle is movably inserted into the arc-shaped limiting groove, and the limiting block is arranged at the bottom of the arc-shaped baffle;

the husking mechanism comprises a first hole pricking shaft, a first transmission belt, a second hole pricking shaft, a second transmission belt, a first group of rotating discs, a first group of connecting pin shafts, a first two groups of opposite fixed round rods, a first two groups of sliding shaft sleeves, a first group of reciprocating hole pricking plates, a first group of transmission rods, a plurality of hole pricking needles, a husking shaft, a third transmission belt, a second group of rotating discs, a second group of connecting pin shafts, a second group of fixed round rods, a second group of sliding shaft sleeves, reciprocating husking plates, a second transmission rod, a plurality of connecting rods, a fixed sleeve and a telescopic pipe, wherein the first hole pricking shaft is movably arranged on one side of the upper end of the husking and husking machine, the transmission belt is sleeved between the first driving shaft and the first hole pricking shaft, the second hole pricking shaft is movably inserted in the husking machine, the rear end of the second hole pricking shaft extends out of the husking machine, the second transmission belt is sleeved between the first hole pricking shaft and the second hole pricking shaft, the first group of rotating discs are respectively arranged at the front ends of the first hole pricking shaft and the second hole pricking shaft, a group of connecting pin shafts are respectively arranged on one side of the front ends of a group of rotating round rods, two groups of opposite fixed round rods are respectively arranged on one side in the husking and peeling machine, two groups of sliding shaft sleeves are respectively arranged on two groups of opposite fixed round rods in a sliding manner, a group of reciprocating pricking plates are respectively arranged between the two groups of sliding shaft sleeves, one end of a group of transmission rods is respectively movably hinged with the connecting pin shafts, the other end of the group of transmission rods is movably hinged with the reciprocating pricking plate, a plurality of pricking pins are uniformly arranged at the bottom of the reciprocating pricking plate, the husking shaft is movably arranged at the center of the upper end of the husking and peeling machine, a transmission belt is sleeved between the pricking shaft I and the husking shaft, the rotating round plates are arranged at the front ends of the husking shaft, the connecting pin shafts are arranged on one side of the front ends of the rotating round plates, a group of fixed round rods are arranged at the center in the husking and peeling machine, a group of sliding shaft sleeves are respectively arranged on the fixed round rods, the reciprocating peeling plate is arranged between the group of sliding shaft sleeves II, one end of the transmission rod II is movably hinged with the connecting pin shaft II, the other end of the transmission rod II is movably hinged with the reciprocating peeling plate, the connecting rods are uniformly arranged at the bottom of the reciprocating peeling plate, the fixed sleeve is movably sleeved at the lower end of the connecting rod, the telescopic pipe is arranged at the bottom of the connecting rod, and the bottom of the telescopic pipe is connected with the inner wall of the fixed sleeve;

the peeling mechanism comprises a peeling conveying frame, a driving motor II, a driving shaft II, a driving conveying shaft II, a driven conveying shaft II, a peeling conveying belt, a driving bevel gear, a transmission shaft, a driven bevel gear, a peeling rack, a PC roller, a transmission belt IV, a plurality of spiral rubber strips and a material baffle plate, the peeling conveying frame is arranged in the peeling machine and positioned between the intermittent conveying belts, the driving motor II is horizontally arranged on one side of the peeling conveying frame, the driving shaft II is arranged at the rotating end of the driving motor II, the driving conveying shaft II is movably inserted into one end of the peeling conveying frame, the front end of the driving conveying shaft II is connected with the driving shaft II, the driven conveying shaft II is movably inserted into the other end of the peeling conveying frame, the driving conveying belt is sleeved on the driving conveying shaft II and the driven conveying shaft II, the driving bevel gear is arranged on the driving shaft II, and the transmission shaft is movably arranged on one side of the peeling conveying frame, the automatic peeling machine is characterized in that the driven bevel gear is mounted at the rear end of the second driving shaft and is meshed with the driving bevel gear, the peeling rack is mounted on one side of the front end of the peeling machine and is located at the front end of the peeling conveying frame, the PC roller is movably inserted into one side of the peeling rack, the rear end of the PC roller extends out of the peeling rack, the transmission belt is sleeved between the transmission shaft and the PC roller, the plurality of spiral rubber strips are uniformly mounted on the PC roller, and the material baffle plate is mounted on the other side of the peeling rack.

Furthermore, a first spring is installed at the bottom of the arc-shaped limiting groove.

Furthermore, a first stop block is arranged on the first fixed round rod, and a second stop block is arranged on the second fixed round rod.

Furthermore, an inverted L-shaped fixed baffle is installed on one side of the second fixed round rod, the bottoms of the connecting rods are movably inserted into the fixed baffle, and a second spring is sleeved between the bottom of each connecting rod and the corresponding fixed sleeve.

Furthermore, the bottom of the fixed sleeve is provided with a circular sealing ring corresponding to the arc baffle.

Furthermore, a first material guide plate corresponding to the peeling rack is installed at the front end of the peeling conveying rack, a second material guide plate is installed at the front end of the peeling rack, and a marinated egg conveying belt is installed at the front end of the second material guide plate.

Furthermore, an eggshell collecting box is arranged at the bottom of the peeling conveying frame.

The invention provides a quick peeling device for processing marinated eggs, which has the following beneficial effects that cooked eggs on an intermittent conveyor belt can be driven to be fed intermittently by a driving mechanism connected to one end of the intermittent conveyor belt, an arc-shaped baffle plate can prevent the position deviation phenomenon from occurring during egg feeding, a peeling mechanism can be used for peeling the eggs, a punching needle reciprocates to perform simultaneous punching processing on the big end and the small end of each egg, a fixed sleeve reciprocates to perform airflow impact peeling on the punched eggs, the peeling rate is higher, the breakage rate is low, the peeling mechanism can be used for separating the peeled eggs from egg shells, and the quick peeling device is convenient for subsequent processing and use.

Drawings

FIG. 1 is a schematic diagram of a quick peeling device for marinated egg processing.

Fig. 2 is a schematic view of the sheave and intermittent wheel transmission of the present invention.

FIG. 3 is a cross-sectional view of the decorticator of the present invention.

Fig. 4 is a front view of the reciprocating pricking plate of the present invention.

Fig. 5 is a schematic view of a hole pricking operation for a marinated egg in accordance with the present invention.

Figure 6 is a front view of a reciprocating stripper plate according to the present invention.

Fig. 7 is an enlarged view of the retaining sleeve of the present invention.

Fig. 8 is an enlarged view of the mounting plate of the present invention.

Fig. 9 is a schematic view of the contact between the fixing sleeve and the mounting plate according to the present invention.

FIG. 10 is a schematic view of the retraction of the curved baffle of the present invention.

Fig. 11 is a schematic view of the shelling of marinated eggs in accordance with the present invention.

FIG. 12 is a schematic view of the compression of the extension tube of the present invention.

FIG. 13 is a schematic view of the peeling mechanism of the present invention.

FIG. 14 is a schematic view of the transmission shaft and PC roller of the present invention.

In the figure: 1. a husking and peeling machine; 2. an intermittent conveyor belt; 3. driving a motor I; 4. a first driving shaft; 5. a grooved wheel; 6. a first driving conveying shaft; 7. a batch wheel; 8. a driven conveying shaft I; 9. mounting a plate; 10. placing holes for marinated eggs; 11. an arc-shaped limiting groove; 12. an arc-shaped baffle plate; 13. a limiting block; 14. a first hole binding shaft; 15. a first transmission belt; 16. a second hole binding shaft; 17. a second transmission belt; 18. rotating the first disc; 19. a first connecting pin shaft; 20. fixing the first round rod; 21. a first sliding shaft sleeve; 22. punching the hole plate in a reciprocating way; 23. a first transmission rod; 24. pricking a hole needle; 25. peeling the shaft; 26. a third transmission belt; 27. rotating the second disk; 28. a second connecting pin shaft; 29. fixing a second round rod; 30. a second sliding shaft sleeve; 31. a reciprocating shelling plate; 32. a second transmission rod; 33. a connecting rod; 34. fixing the sleeve; 35. a telescopic pipe; 36. peeling and conveying frames; 37. a second driving motor; 38. a second driving shaft; 39. a second active conveying shaft; 40. a driven conveying shaft II; 41. peeling and conveying the belt; 42. a driving bevel gear; 43. a drive shaft; 44. a driven bevel gear; 45. a peeling frame; 46. a PC roller; 47. a fourth transmission belt; 48. a spiral adhesive tape; 49. a striker plate; 50. a circular blanking hole; 51. a first spring; 52. a first stop block; 53. a second stop block; 54. fixing a baffle plate; 55. a second spring; 56. a circular seal ring; 57. a first material guide plate; 58. a second material guide plate; 59. a marinated egg conveying belt.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, as shown in FIGS. 1-14: a quick peeling device for processing marinated eggs comprises a peeling machine 1 and an intermittent conveyor belt 2 arranged in the peeling machine 1, wherein the intermittent conveyor belt 2 is trapezoidal, one end of the intermittent conveyor belt 2 is connected with a driving mechanism, a peeling mechanism is arranged on the intermittent conveyor belt 2, and a peeling mechanism is arranged in the intermittent conveyor belt 2;

the driving mechanism comprises a driving motor I3, a driving shaft I4, a sheave 5, a driving conveying shaft I6, an intermittent wheel 7, three driven conveying shafts I8, a plurality of mounting plates 9, a plurality of marinated egg placing holes 10, a plurality of groups of arc limiting grooves 11, an arc baffle 12 and a limiting block 13, wherein the driving motor I3 is horizontally arranged at one side of the rear end of the shelling and peeling machine 1, the driving shaft I4 is arranged at the rotating end of the driving motor I3, the sheave 5 is arranged at the front end of the driving shaft I4, the driving conveying shaft I6 is movably inserted into one end of the shelling and peeling machine 1, the rear end of the driving conveying shaft I6 extends out of the shelling and peeling machine 1, the intermittent wheel 7 is arranged at the rear end of the driving conveying shaft I6 and corresponds to the position of the sheave 5, the three driven conveying shafts I8 are movably inserted into the shelling and peeling machine 1, the mounting plates 9 are uniformly arranged on the intermittent conveying belt 2, and the marinated egg placing holes 10 are uniformly arranged on the mounting plates 9, a plurality of groups of arc-shaped limiting grooves 11 are formed in the mounting plate 9 and are positioned on two sides of the marinated egg placing hole 10, the bottoms of the arc-shaped baffles 12 are movably inserted into the arc-shaped limiting grooves 11, and the limiting blocks 13 are mounted at the bottoms of the arc-shaped baffles 12;

the husking mechanism comprises a first hole pricking shaft 14, a first transmission belt 15, a second hole pricking shaft 16, a second transmission belt 17, a first group of rotating discs 18, a first group of connecting pin shafts 19, a first two groups of opposite fixed round rods 20, a first two groups of sliding shaft sleeves 21, a second group of reciprocating hole pricking plates 22, a first group of transmission rods 23, a plurality of hole pricking needles 24, a husking shaft 25, a third transmission belt 26, a second group of rotating discs 27, a second group of connecting pin shafts 28, a second group of fixed round rods 29, a second group of sliding shaft sleeves 30, a reciprocating husking plate 31, a second transmission rod 32, a plurality of connecting rods 33, a fixed sleeve 34 and an extension pipe 35, wherein the first hole pricking shaft 14 is movably installed on one side of the upper end of the husking machine 1, the first transmission belt 15 is sleeved between the first driving shaft 4 and the first hole pricking shaft 14, the second hole pricking shaft 16 is movably inserted in the husking machine 1, the rear end of the husking machine 1 extends out of the husking machine 1, the second transmission belt 17 is sleeved between the first hole pricking shaft 14 and the second hole pricking shaft 16, the group of first rotating discs 18 are respectively arranged at the front ends of the first piercing shaft 14 and the second piercing shaft 16, the group of first connecting pin shafts 19 are respectively arranged at one side of the front ends of the group of first rotating discs 18, the group of first fixed round rods 20 opposite to each other are arranged at one side in the husking and peeling machine 1, the group of first sliding shaft sleeves 21 are respectively arranged on the group of first fixed round rods 20 opposite to each other in a sliding manner, the group of reciprocating piercing holes plates 22 are respectively arranged between the group of first sliding shaft sleeves 21, the group of first transmission rods 23 are respectively and movably hinged with the first connecting pin shafts 19 at one end and movably hinged with the reciprocating piercing holes plates 22 at the other end, the plurality of piercing pins 24 are uniformly arranged at the bottom of the reciprocating piercing holes plates 22, the husking shaft 25 is movably arranged at the center of the upper end of the husking machine 1, the third transmission belt 26 is sleeved between the first piercing shaft 14 and the husking shaft 25, the second rotating discs 27 are arranged at the front end of the husking shaft 25, the second connecting pin shafts 28 are arranged at one side of the front ends of the second rotating discs 27, a group of second fixed round rods 29 is arranged at the center in the husking and peeling machine 1, a group of second sliding shaft sleeves 30 is respectively and slidably arranged on the group of second fixed round rods 29, the reciprocating husking plate 31 is arranged between the group of second sliding shaft sleeves 30, one end of the second transmission rod 32 is movably hinged with the second connecting pin shaft 28, the other end of the second transmission rod is movably hinged with the reciprocating husking plate 31, a plurality of connecting rods 33 are uniformly arranged at the bottom of the reciprocating husking plate 31, the fixed sleeves 34 are movably sleeved at the lower ends of the connecting rods 33, the telescopic pipes 35 are arranged at the bottoms of the connecting rods 33, and the bottoms of the telescopic pipes are connected with the inner walls of the fixed sleeves 34;

the peeling mechanism comprises a peeling conveying frame 36, a driving motor II 37, a driving shaft II 38, a driving conveying shaft II 39, a driven conveying shaft II 40, peeling conveying belts 41, a driving bevel gear 42, a transmission shaft 43, a driven bevel gear 44, a peeling rack 45, a PC roller 46, a transmission belt IV 47, a plurality of spiral rubber strips 48 and a material baffle 49, wherein the peeling conveying frame 36 is arranged in the peeling machine 1 and is positioned between the intermittent conveying belts 2, the driving motor II 37 is horizontally arranged at one side of the peeling conveying frame 36, the driving shaft II 38 is arranged at the rotating end of the driving motor II 37, the driving conveying shaft II 39 is movably inserted at one end in the peeling conveying frame 36, the front end of the driving conveying shaft II is connected with the driving shaft II 38, the driven conveying shaft II 40 is movably inserted at the other end in the peeling conveying frame 36, the peeling conveying belt 41 is sleeved on the driving conveying shaft II 39 and the driven conveying shaft II 40, the driving bevel gear 42 is mounted on the second driving shaft 38, the driving shaft 43 is movably mounted on one side of the peeling conveying frame 36, the driven bevel gear 44 is mounted at the rear end of the second driving shaft 38 and is meshed with the driving bevel gear 42, the peeling rack 45 is mounted on one side of the front end of the peeling machine 1 and is located at the front end of the peeling conveying frame 36, the PC roller 46 is movably inserted into one side of the peeling rack 45, the rear end of the PC roller extends out of the peeling rack 45, the driving belt IV 47 is sleeved between the driving shaft 43 and the PC roller 46, a plurality of spiral rubber strips 48 are uniformly mounted on the PC roller 46, and the material baffle plate 49 is mounted on the other side of the peeling rack 45.

A plurality of circular blanking holes 50 corresponding to the marinated egg placing holes 10 are evenly arranged on the intermittent conveyor belt 2.

The first spring 51 is installed at the bottom in the arc-shaped limiting groove 11.

The first fixed round rod 20 is provided with a first stop block 52, and the second fixed round rod 29 is provided with a second stop block 53.

An inverted L-shaped fixed baffle 54 is installed on one side of the second fixed round rod 29, the bottoms of the connecting rods 33 are movably inserted into the fixed baffle 54, and a second spring 55 is sleeved between the bottoms of the connecting rods 33 and the fixed sleeve 34.

The bottom of the fixed sleeve 34 is provided with a circular sealing ring 56 corresponding to the arc baffle 12.

The front end of the peeling conveying frame 36 is provided with a first material guide plate 57 corresponding to the peeling rack 45, the front end of the peeling rack 45 is provided with a second material guide plate 58, and the front end of the second material guide plate 58 is provided with a marinated egg conveying belt 59.

An eggshell collecting box is arranged at the bottom of the peeling conveying frame 36.

The working principle of the embodiment is as follows: the electric equipment used by the device is controlled by an external controller, a plurality of mounting plates 9 are uniformly mounted on the intermittent conveyor belt 2, a plurality of marinated egg placing holes 10 are uniformly formed in the mounting plates 9, when the device is used, the cooked eggs are firstly placed in the marinated egg placing holes 10 with the big heads downward and the small heads upward, the eggs can be adjusted in size and automatically placed by the prior art and the equipment, and the detailed description is omitted;

during feeding: the driving motor I3 starts to work firstly, the driving motor I3 is horizontally arranged on one side of the rear end of the husking and peeling machine 1, the driving shaft I4 is arranged on the rotating end of the driving motor I3, the driving motor I3 drives the driving shaft I4 to rotate, the sheave 5 is arranged at the front end of the driving shaft I4, the driving conveying shaft I6 is movably inserted into one end of the husking and peeling machine 1 through a fastening bearing, the rear end of the driving conveying shaft I6 extends out of the husking and peeling machine 1, the intermittent wheel 7 is arranged at the rear end of the driving conveying shaft I6 and corresponds to the sheave 5 in position, as shown in figure 2, three driven conveying shafts I8 are movably inserted into the husking and peeling machine 1 through fastening bearings, the intermittent conveying belt 2 is sleeved on the driving conveying shaft I6 and the three driven conveying shafts I8, the driving shaft I4 drives cooked eggs on the intermittent conveying belt 2 to perform intermittent feeding, a plurality of groups of arc-shaped limiting grooves 11 are arranged on the mounting plate 9, the egg stewing device is positioned on two sides of the marinated egg placing hole 10, the bottom of the arc-shaped baffle plate 12 is movably inserted into the arc-shaped limiting groove 11, the limiting block 13 is installed at the bottom of the arc-shaped baffle plate 12, and the spring I51 is installed at the bottom in the arc-shaped limiting groove 11, as shown in fig. 8, the initial position of the arc-shaped baffle plate 12 is positioned at the upper end, and when eggs are subjected to intermittent feeding and conveying, the arc-shaped baffle plate 12 can prevent the eggs from being subjected to position deviation;

when pricking holes: the intermittent conveyor belt 2 drives eggs to firstly pass through a group of reciprocating hole pricking plates 22, a hole pricking shaft I14 is movably arranged on one side of the upper end of the shelling and peeling machine 1 through a fastening bearing, a transmission belt I15 is sleeved between a driving shaft I4 and the hole pricking shaft I14, the driving shaft I4 simultaneously drives the hole pricking shaft I14 to start rotating, a hole pricking shaft II 16 is movably inserted in the shelling and peeling machine 1 through the fastening bearing, the rear end of the hole pricking shaft II extends out of the shelling and peeling machine 1, a transmission belt II 17 is sleeved between the hole pricking shaft I14 and the hole pricking shaft II 16, the hole pricking shaft I14 drives the hole pricking shaft II 16 to start rotating, a group of rotating discs I18 are respectively arranged at the front ends of the hole pricking shaft I14 and the hole pricking shaft II 16, a group of connecting pin shafts I19 are respectively arranged on one side of the front ends of a group of rotating discs I18, two groups of opposite fixed round rods I20 are arranged on one side of the shelling machine 1, two groups of sliding shaft sleeves I21 are respectively slidably arranged on two groups of opposite fixed round rods 20, a group of reciprocating hole pricking plates 22 are respectively arranged between two groups of sliding shaft sleeves 21, one end of each of a group of transmission rods 23 is movably hinged with a first connecting pin shaft 19, and the other end of each of the group of transmission rods 23 is movably hinged with the reciprocating hole pricking plates 22, as shown in fig. 4, the group of transmission rods 23 can drive the group of reciprocating hole pricking plates 22 to reciprocate up and down, a first stop block 52 is arranged on a first fixed round rod 20 and used for limiting the position of the reciprocating hole pricking plates 22, a plurality of hole pricking needles 24 are uniformly arranged at the bottoms of the reciprocating hole pricking plates 22, and the hole pricking needles 24 can drive the big heads and the small heads of eggs on the intermittent conveyor belt 2 to perform hole pricking treatment simultaneously, as shown in fig. 5;

when husking: after the big and small ends of the eggs are pricked, the intermittent conveyor belt 2 drives the eggs to continuously convey through the reciprocating peeling plate 31, the peeling shaft 25 is movably arranged at the center of the upper end of the peeling machine 1 through a fastening bearing, the transmission belt III 26 is sleeved between the pricking shaft I14 and the peeling shaft 25, the pricking shaft I14 simultaneously drives the peeling shaft 25 to rotate, the rotating disc II 27 is arranged at the front end of the peeling shaft 25, the connecting pin shaft II 28 is arranged at one side of the front end of the rotating disc II 27, the group of fixed round rods II 29 are arranged at the center of the inner part of the peeling machine 1, the group of sliding shaft sleeves II 30 are respectively and slidably arranged on the group of fixed round rods II 29, the reciprocating peeling plate 31 is arranged between the group of sliding shaft sleeves II 30, one end of the transmission rod II 32 is movably hinged with the connecting pin shaft II 28, the other end of the transmission rod II is movably hinged with the reciprocating peeling plate 31, the transmission rod II 32 can drive the reciprocating peeling plate 31 to reciprocate up and down, a second stopper 53 is arranged on the second fixed round rod 29, the second stopper 53 is used for limiting the position of the reciprocating peeling plate 31, the connecting rods 33 are uniformly arranged at the bottom of the reciprocating peeling plate 31, the fixed sleeve 34 is movably sleeved at the lower end of the connecting rods 33, the telescopic pipe 35 is arranged at the bottom of the connecting rods 33, the bottom of the telescopic pipe is connected with the inner wall of the fixed sleeve 34, one side of the second fixed round rod 29 is provided with an inverted L-shaped fixed baffle 54, the bottoms of the connecting rods 33 are movably inserted in the fixed baffle 54, a second spring 55 is sleeved between the bottom of the connecting rods 33 and the fixed sleeve 34, as shown in figure 6, when the reciprocating peeling plate 31 is arranged at the upper end, the second spring 55 is in a compressed state, the telescopic pipe 35 is in an extended state, the bottom of the fixed sleeve 34 is provided with a circular sealing ring 56 corresponding to the arc baffle 12, when the reciprocating peeling plate 31 moves downwards, the second spring 55 extends, the fixed sleeve 34 is firstly contacted with the mounting plate 9, as shown in fig. 9, the circular sealing ring 56 compresses the arc-shaped baffle plate 12 to shrink, as shown in fig. 10, then the reciprocating shelling plate 31 continues to move downwards, the connecting rod 33 compresses the telescopic tube 35, as shown in fig. 12, the telescopic tube 35 peels eggs on the marinated egg placing holes 10 by air flow impact, a plurality of circular blanking holes 50 corresponding to the marinated egg placing holes 10 are uniformly formed in the intermittent conveying belt 2, the peeled eggs and egg skins fall on the shelling conveying belt 41 through the circular blanking holes 50 to be subjected to subsequent shelling treatment, the intermittent conveying belt 2 drives the eggs to perform intermittent conveying, and meanwhile, the reciprocating hole pricking plate 22 and the reciprocating shelling plate 31 synchronously reciprocate up and down to prick and shell without interference;

when peeling: the peeling and conveying frame 36 is arranged in the peeling and peeling machine 1 and is positioned between the intermittent conveyor belts 2, the driving motor II 37 is horizontally arranged at one side of the peeling and conveying frame 36, the driving shaft II 38 is arranged at the rotating end of the driving motor II 37, the driving conveying shaft II 39 is movably inserted into one end of the peeling and conveying frame 36 through a fastening bearing, the front end of the driving shaft II is connected with the driving shaft II 38, the driven conveying shaft II 40 is movably inserted into the other end of the peeling and conveying frame 36 through a fastening bearing, the peeling and conveying belt 41 is sleeved on the driving conveying shaft II 39 and the driven conveying shaft II 40, the driving motor II 37 firstly drives the peeling and conveying belt 41 to rotate to convey peeled eggs and egg peels, the driving bevel gear 42 is arranged on the driving shaft II 38, the driving shaft 43 is movably arranged at one side of the peeling and conveying frame 36 through a fastening bearing, the driven bevel gear 44 is arranged at the rear end of the driving shaft II 38 and is meshed with the driving bevel gear 42, the second driving shaft 38 simultaneously drives the driving shaft 43 to rotate, the peeling frame 45 is installed at one side of the front end of the peeling machine 1 and is located at the front end of the peeling conveying frame 36, the first material guide plate 57 corresponding to the peeling frame 45 is installed at the front end of the peeling conveying frame 36, the PC roller 46 is movably inserted into one side of the peeling frame 45 through a fastening bearing, the rear end of the PC roller extends out of the peeling frame 45, the driving belt IV 47 is sleeved between the driving shaft 43 and the PC roller 46, the driving shaft 43 drives the PC roller 46 to rotate, the plurality of spiral rubber strips 48 are uniformly installed on the PC roller 46, the material baffle plate 49 is installed at the other side of the peeling frame 45, as shown in figure 13, the PC roller 46 and the material baffle plate 49 can separate the peeled eggs and the eggshells, an eggshell collecting box is arranged at the bottom of the peeling conveying frame 36, which is not shown in the figure, the eggshell falls into the eggshell collecting box at the bottom of the peeling conveying frame 36, the second material guide plate 58 is installed at the front end of the peeling frame 45, the marinated egg conveying belt 59 is installed at the front end of the second material guide plate 58, and the peeled eggs fall onto the marinated egg conveying belt 59 through the second material guide plate 58 for subsequent processing.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. A quick peeling device for processing marinated eggs comprises a peeling machine (1) and an intermittent conveyor belt (2) arranged in the peeling machine (1), wherein the intermittent conveyor belt (2) is trapezoidal, and is characterized in that one end of the intermittent conveyor belt (2) is connected with a driving mechanism, a peeling mechanism is arranged on the intermittent conveyor belt (2), and a peeling mechanism is arranged in the intermittent conveyor belt (2);

the driving mechanism comprises a driving motor I (3), a driving shaft I (4), a grooved pulley (5), a driving conveying shaft I (6), an intermittent wheel (7), three driven conveying shafts I (8), a plurality of mounting plates (9), a plurality of marinated egg placing holes (10), a plurality of groups of arc limiting grooves (11), an arc baffle (12) and limiting blocks (13), the driving motor I (3) is horizontally arranged on one side of the rear end of the shelling and peeling machine (1), the driving shaft I (4) is arranged on the rotating end of the driving motor I (3), the grooved pulley (5) is arranged at the front end of the driving shaft I (4), the driving conveying shaft I (6) is movably inserted into one end of the shelling and peeling machine (1), the rear end of the driving conveying shaft I (6) extends out of the shelling machine (1), the intermittent wheel (7) is arranged at the rear end of the driving conveying shaft I (6) and corresponds to the position of the grooved pulley (5), the device comprises a shelling and peeling machine (1), a plurality of mounting plates (9), a plurality of marinated egg placing holes (10), a plurality of groups of arc limiting grooves (11), a plurality of driven conveying shafts (8), a plurality of intermittent conveying belts (2), a plurality of marinated egg placing holes (10), a plurality of groups of arc limiting grooves (11), a plurality of arc baffle plates (12), a plurality of arc baffle plates and a plurality of limiting blocks, wherein the driven conveying shafts (8) are movably inserted into the shelling and peeling machine (1);

the husking mechanism comprises a first hole pricking shaft (14), a first transmission belt (15), a second hole pricking shaft (16), a second transmission belt (17), a first group of rotating discs (18), a first group of connecting pin shafts (19), two groups of opposite first fixed round rods (20), two groups of first sliding shaft sleeves (21), a reciprocating hole pricking plate (22), a first group of transmission rods (23), a plurality of hole pricking needles (24), a husking shaft (25), a third transmission belt (26), a second group of rotating discs (27), a second group of connecting pin shafts (28), a second group of fixed round rods (29), a second group of sliding shaft sleeves (30), a reciprocating husking plate (31), a second transmission rod (32), a plurality of connecting rods (33), a fixed sleeve (34) and a telescopic pipe (35), wherein the first hole pricking shaft (14) is movably arranged on one side of the upper end of the husking machine (1), the first transmission belt (15) is sleeved between the first driving shaft (4) and the first hole pricking shaft (14), the hole binding shaft II (16) is movably inserted into the husking and peeling machine (1), the rear end of the hole binding shaft II (16) extends out of the husking and peeling machine (1), the transmission belt II (17) is sleeved between the hole binding shaft I (14) and the hole binding shaft II (16), the group of rotating discs I (18) is respectively installed at the front ends of the hole binding shaft I (14) and the hole binding shaft II (16), the group of connecting pin shafts I (19) is respectively installed at one side of the front end of the group of rotating discs I (18), the two groups of opposite fixed circular rods I (20) are installed at one side in the husking and peeling machine (1), the two groups of sliding shaft sleeves I (21) are respectively installed on the two groups of opposite fixed circular rods I (20) in a sliding mode, the group of reciprocating hole binding plate I (22) is respectively installed between the two groups of sliding shaft sleeves I (21), one end of the group of transmission rod I (23) is movably hinged with the connecting pin shaft I (19), and the other end of the reciprocating hole binding plate (22) is movably hinged, the device comprises a plurality of hole pricking needles (24), a peeling shaft (25), a transmission belt III (26), a rotating disc II (27), a connecting pin shaft II (28), a group of fixed round rods II (29), a group of sliding shaft sleeves II (30), a group of sliding shaft sleeves II (29), a group of reciprocating peeling plates (31), a transmission rod II (32), a plurality of connecting rods (33), a plurality of reciprocating peeling plates (31), a plurality of hole pricking needles (24) and a plurality of hole pricking needles (22), wherein the hole pricking needles are uniformly arranged at the bottom of the reciprocating hole pricking plates, the peeling shaft (25) is movably arranged at the center of the upper end of a peeling machine (1), the transmission belt III (26) is sleeved between the hole pricking shaft I (14) and the peeling shaft (25), the rotating disc II (27) is arranged at the front end of the peeling shaft (25), the connecting pin shaft II (28) is arranged at one side of the front end of the rotating disc II (27), the group of fixed round rods II (29) is arranged at the center in the peeling machine (1), the group of sliding shaft sleeves II (30) respectively, the group of sliding shaft sleeves are arranged between the group of the fixed round rods II (29), the reciprocating peeling plates (31), one end is arranged between the group of the reciprocating peeling plates (31), one group of the reciprocating shaft sleeves (32) in a movable hinged manner, one end of the connecting pin shaft sleeves (33) is uniformly arranged at the reciprocating shaft sleeves (31), the fixed sleeve (34) is movably sleeved at the lower end of the connecting rod (33), the telescopic pipe (35) is installed at the bottom of the connecting rod (33), and the bottom of the telescopic pipe is connected with the inner wall of the fixed sleeve (34);

the peeling mechanism comprises a peeling conveying frame (36), a driving motor II (37), a driving shaft II (38), a driving conveying shaft II (39), a driven conveying shaft II (40), a peeling conveying belt (41), a driving bevel gear (42), a transmission shaft (43), a driven bevel gear (44), a peeling rack (45), a PC roller (46), a transmission belt IV (47), a plurality of spiral rubber strips (48) and a material baffle plate (49), wherein the peeling conveying frame (36) is installed in the peeling and peeling machine (1) and is positioned between the intermittent conveying belts (2), the driving motor II (37) is horizontally installed on one side of the peeling conveying frame (36), the driving shaft II (38) is installed at the rotating end of the driving motor II (37), the driving conveying shaft II (39) is movably inserted into one end of the peeling conveying frame (36), and the front end of the driving shaft II (38) is connected with the driving shaft II (38), the second driven conveying shaft (40) is movably inserted into the other end of the second peeling conveying frame (36), the peeling conveying belt (41) is sleeved on the second driving conveying shaft (39) and the second driven conveying shaft (40), the driving bevel gear (42) is installed on the second driving shaft (38), the transmission shaft (43) is movably installed on one side of the peeling conveying frame (36), the driven bevel gear (44) is installed at the rear end of the second driving shaft (38) and is meshed with the driving bevel gear (42), the peeling rack (45) is installed on one side of the front end of the peeling machine (1) and is located at the front end of the peeling conveying frame (36), the PC roller (46) is movably inserted into one side of the peeling rack (45) and extends out of the peeling rack (45) at the rear end, the fourth driving belt (47) is sleeved between the transmission shaft (43) and the PC roller (46), and a plurality of spiral rubber strips (48) are uniformly installed on the PC roller (46), the striker plate (49) is arranged on the other side in the peeling rack (45).

2. The quick peeling device for marinated eggs according to claim 1, wherein a plurality of circular blanking holes (50) corresponding to the marinated egg placing holes (10) are uniformly formed on the intermittent conveyor belt (2).

3. The quick peeling device for marinated eggs, as recited in claim 1, wherein a first spring (51) is mounted at the bottom of the arc-shaped limiting groove (11).

4. The quick peeling device for spiced eggs according to claim 1, wherein a first stop block (52) is mounted on the first fixed round bar (20), and a second stop block (53) is mounted on the second fixed round bar (29).

5. The quick peeling device for marinated eggs according to claim 1, wherein an inverted L-shaped fixed baffle (54) is installed on one side of the second fixed round rod (29), the bottoms of a plurality of connecting rods (33) are movably inserted into the fixed baffle (54), and a second spring (55) is sleeved between the bottoms of the connecting rods (33) and the fixed sleeve (34).

6. The quick skinning device for marinated eggs, according to claim 1, characterized in that the bottom of the fixed sleeve (34) is fitted with a circular sealing ring (56) corresponding to the arc baffle (12).

7. The quick peeling device for spiced egg processing according to claim 1, wherein a first material guide plate (57) corresponding to the peeling rack (45) is mounted at the front end of the peeling rack (36), a second material guide plate (58) is mounted at the front end of the peeling rack (45), and a spiced egg conveying belt (59) is mounted at the front end of the second material guide plate (58).

8. The quick peeling apparatus for marinated eggs, as recited in claim 1, wherein an eggshell collection box is placed at the bottom of the peeling conveyor frame (36).