CN113812870A

CN113812870A - Aseptic egg breaking equipment with splashproof function

Info

Publication number: CN113812870A
Application number: CN202110987772.9A
Authority: CN
Inventors: 陈晓苑
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-26
Filing date: 2021-08-26
Publication date: 2021-12-21
Anticipated expiration: 2041-08-26
Also published as: CN113812870B

Abstract

The invention discloses a sterile egg shell breaking device with an anti-splash function. The aseptic egg shell breaking equipment with the anti-splash function is capable of automatically and stably transmitting aseptic eggs, automatically breaking shells of the aseptic eggs and conveniently and separately collecting aseptic yolk egg white and eggshell. An aseptic egg breaking device with an anti-splash function comprises: the supporting legs are symmetrically connected to two sides of the outer part of the shell; the lower material plate is connected to one side of the lower part of the shell; the middle of the lower part in the shell is rotatably connected with the supporting disc; first bracing piece, the even symmetry rotary type in supporting disk outside interval is connected with four first bracing piece. According to the invention, the second push rod and the clamping rod are pushed to move through the sleeve, so that the clamping rod loosens the knocking rod, the knocking rod rotates anticlockwise under the action of the special-shaped rod, and the knocking rod rotates clockwise after being separated from the special-shaped rod to knock a sterile egg, so that the effect of automatically knocking the sterile egg is achieved, and the sterile egg is more conveniently broken.

Description

Aseptic egg breaking equipment with splashproof function

Technical Field

The invention relates to a shell breaking device, in particular to a sterile egg shell breaking device with an anti-splash function.

Background

With the increasing of living standard of people, more foods with rich nutrition become daily dishes of people, wherein eggs are rich in protein, are beneficial to the growth of human bodies and become one of the popular foods, and sterile eggs are eggs after sterilization and disinfection treatment, so that the harm of bacteria to human bodies can be reduced.

In order to conveniently eat yolk and egg white in sterile eggs, the sterile eggs are needed to be broken, most of the conventional sterile egg breaking technologies are that people manually knock off the sterile eggs, then the yolk and egg white are poured into a container, and the eggshells are collected and cleaned, however, the sterile eggs are knocked off manually, time and labor are wasted, operation is inconvenient, and meanwhile, the sterile eggs cannot be broken at one time, and then manual repeated feeding is carried out, so that the efficiency is low.

Therefore, there is a need to develop a device for automatically and stably conveying sterile eggs, automatically breaking shells of the sterile eggs, and conveniently and separately collecting sterile yolk egg white and eggshell, and having a splash-proof function.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the aseptic egg shell breaking equipment with the anti-splash function, which can automatically and stably transmit aseptic eggs, automatically break shells for the aseptic eggs and conveniently and separately collect aseptic yolk egg white and eggshells.

The purpose of the invention can be achieved by adopting the following technical scheme:

in a first aspect, an aseptic egg breaking apparatus with splash protection comprises: the supporting legs are symmetrically connected to two sides of the outer part of the shell; the lower material plate is connected to one side of the lower part of the shell; the middle of the lower part in the shell is rotatably connected with the supporting disc; the outer side of the supporting disc is uniformly and symmetrically connected with four first supporting rods in a rotating mode at intervals; the fixing component is arranged on the lower side in the shell, and the fixing component is arranged between the supporting disc and the first supporting rod; and the rotating assembly is arranged on the outer side of the supporting plate.

Further, the fixed subassembly includes: the motor is mounted on one side of the inner lower part of the shell; the motor output shaft is connected with the gear lack; the upper part of the supporting disc transmission shaft is connected with the first gear, and the gear lacking part is meshed with the first gear after rotating; the inner sides of the lower parts of the first supporting rods are connected with the first connecting rods in a sliding manner; the first spring is connected between the first connecting rod and the first supporting rod; the outer sides of the lower parts of the first supporting rods are connected with the sleeves in a sliding mode, the inner sides of the upper parts of the sleeves are provided with openings, and the sleeves are in contact with the first connecting rods on the same side; the second springs are connected between the sleeve and the first supporting rod; the inner sides of the sleeves are connected with the suckers in a sliding manner; the third spring is connected between the sucker and the sleeve; the clamping blocks are connected to the outer sides of the bottoms of the first supporting rods in a sliding mode and can clamp the first connecting rod; the fourth spring is connected between the fixture block and the first supporting rod; the first wedge block is connected to one side of the upper portion in the shell, and the first connecting rod rotates to be pushed to move downwards after the first wedge block contacts.

Further, the rotating assembly comprises: the inner sides of the transmission shafts of the first supporting rods are connected with the second gears; the outer side of the supporting disc is evenly and slidably connected with four first racks at intervals, and the first racks are meshed with the second gear; the fifth springs are symmetrically connected between the first rack and the supporting plate; and one side of the upper part in the shell is connected with the second wedge block, and the first rack rotates to be in contact with the second wedge block and then is pushed to move downwards.

Further, still include the subassembly of untiing, untie the subassembly and include: the outer sides of the clamping blocks are connected with the first push rods; one side of the lower part in the shell is connected with the second supporting rod; the upper part of the second supporting rod is connected with the lug, and the first push rod rotates to be in contact with the lug and then is pushed to move outwards.

Further, still include and strike the subassembly, strike the subassembly and include: the outer side of the lower part of the supporting disc is uniformly connected with the third supporting rods at intervals; the lower parts of the third support rods are respectively and rotatably connected with the knocking rods; the torsion springs are connected between the knocking rod and the third supporting rod; the third supporting rod is connected with the second push rod in a sliding mode, and the second push rod is in contact with the sleeve; the sixth springs are connected between the second push rod and the third supporting rod; the clamping rods are connected to one sides of the second push rods and can clamp the knocking rods; the special-shaped rod is connected to one side of the inner lower portion of the shell, and the knocking rod is pushed to move downwards after rotating to contact with the special-shaped rod.

Further, still include the feeding subassembly, the feeding subassembly includes: the outer side of the upper part of the supporting disc is uniformly connected with four second connecting rods at intervals; the feeding plate is connected to one side of the upper part of the shell, and the lower part of the feeding plate is connected with one side of the shell; the first baffle is rotatably connected to one side of the lower part of the feeding plate; the second baffle is rotatably connected to one side of the lower part of the feeding plate; the belt pulleys are connected to the outer sides of the transmission shafts of the first baffle and the second baffle; the transmission belt is wound between the belt pulleys on the two sides; the outer sides of the second baffle transmission shafts are connected with the third gears; the second rack is connected to one side of the lower part of the feeding plate in a sliding mode, and the second connecting rod pushes the second rack to move backwards after rotating to be in contact with the second rack; and the second rack is meshed with the third gear, and the seventh spring is symmetrically connected between the second rack and the feeding plate.

Further, still including buffering subassembly, buffering subassembly includes: the guide rods are connected to two sides in the blanking plate at intervals, uniformly and vertically symmetrically and slidably; the stop levers are connected between the outer sides of the guide levers on the same side; and the eighth springs are symmetrically connected between the stop lever and the blanking plate from top to bottom, and are wound on the guide rods.

Further, still including splashproof subassembly, the splashproof subassembly includes: one side of the lower part of the blanking plate is connected with the third baffle in a sliding manner; the supporting frame is connected to one side of the lower part of the shell; the lower side inside the supporting frame is connected with the supporting plate in a sliding manner; the ninth spring is connected between the supporting plate and the supporting frame; the roller is symmetrically and rotatably connected to one side of the blanking plate; the pull ropes are connected between the two sides of the lower portion of the third baffle and the supporting plate, and the pull ropes are wound around the rollers on the same side.

The invention has the advantages that:

(1) according to the invention, the clamping block drives the first push rod to rotate, the first push rod is pushed to move outwards after contacting the bump, the clamping block is driven to move outwards to be away from the first connecting rod, and finally, the sucking disc loosens the sterile eggshell, so that the effect of assisting in automatically loosening the sterile eggshell is achieved;

(2) according to the invention, the sleeve pushes the second push rod and the clamping rod to move, so that the clamping rod loosens the knocking rod, the knocking rod rotates anticlockwise under the action of the special-shaped rod, and the knocking rod rotates clockwise after being separated from the special-shaped rod to knock a sterile egg, so that the effect of automatically knocking the sterile egg is achieved, and the sterile egg is more conveniently broken;

(3) according to the invention, the sterile eggs slide downwards and are matched with the stop lever, so that the sliding speed of the sterile eggs can be reduced, the supporting disc drives the second connecting rod to rotate, the second connecting rod is matched with the second rack to drive the third gear to rotate, and finally the first baffle and the second baffle are driven to rotate, the effects of avoiding damage to the sterile eggs and automatic quantitative feeding are achieved, and the working efficiency is improved;

(4) according to the invention, the sterile yolk and the egg white slide down from the blanking plate and then slide into the container along the third baffle plate, the container and the supporting plate are pushed to move downwards along the increase of the amount of the yolk and the egg white in the container, and the third baffle plate is driven to move upwards by the pull rope, so that the sliding height of the yolk and the egg white along the third baffle plate is reduced, and the effect of effectively preventing the yolk and the egg white from splashing is achieved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic cross-sectional structure of the present invention.

Fig. 3 is a schematic view of the installation of the fixing assembly of the present invention.

Fig. 4 is a schematic view of a first partial structure of the fixing assembly of the present invention.

Fig. 5 is a second partial structural view of the fixing assembly of the present invention.

Fig. 6 is a schematic view of the installation of the rotating assembly of the present invention.

Fig. 7 is an enlarged schematic view of the structure at a of the present invention.

Figure 8 is a schematic view of the installation of the release assembly of the present invention.

Fig. 9 is a schematic view of the installation of the rapping assembly of the present invention.

Fig. 10 is a schematic view of a first partial structure of the rapping assembly of the present invention.

Fig. 11 is a schematic view of a second partial structure of the rapping assembly of the present invention.

FIG. 12 is a schematic view of the installation of the feeder assembly of the present invention.

Fig. 13 is an enlarged schematic view of the present invention at B.

FIG. 14 is a schematic view of the installation of the cushioning assembly of the present invention.

Fig. 15 is an enlarged schematic view of the present invention at C.

Figure 16 is a schematic view of the installation of the splash guard assembly of the present invention.

Figure 17 is a schematic view of a portion of a splash guard assembly of the present invention.

Wherein: 1-shell, 2-blanking plate, 21-supporting foot, 3-supporting disk, 4-first supporting rod, 5-fixed component, 51-motor, 52-missing gear, 53-first gear, 54-first connecting rod, 55-first spring, 56-sleeve, 57-second spring, 58-sucker, 59-third spring, 510-clamping block, 511-fourth spring, 512-first wedge block, 6-rotating component, 61-second gear, 62-first rack, 63-fifth spring, 64-second wedge block, 7-unlocking component, 71-first push rod, 72-second supporting rod, 73-lug, 8-knocking component, 81-third supporting rod, 82-knocking rod, 83-torsion spring, 84-second push rod, 85-sixth spring, 86-clamping rod, 87-profile rod, 9-feeding assembly, 91-second connecting rod, 92-feeding plate, 93-first baffle, 94-second baffle, 95-belt pulley, 96-driving belt, 97-third gear, 98-second rack, 99-seventh spring, 10-buffer assembly, 101-guide rod, 102-baffle rod, 103-eighth spring, 11-splash-proof assembly, 111-third baffle, 112-supporting frame, 113-supporting plate, 114-ninth spring, 115-roller and 116-pulling rope.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1-7, the embodiment discloses a sterile egg shell breaking device with splash-proof function, including shell 1, lower flitch 2, supporting legs 21, supporting disk 3, first bracing piece 4, fixed subassembly 5 and rotating assembly 6, the equal bilateral symmetry in both sides is connected with supporting legs 21 around shell 1 is outside, shell 1 lower part front side is connected with lower flitch 2, the middle rotary type in lower part is connected with supporting disk 3 in shell 1, the even symmetrical rotary type in interval in the supporting disk 3 outside is connected with four first bracing pieces 4, the inside downside of shell 1, be equipped with fixed subassembly 5 between supporting disk 3 and the first bracing piece 4, the supporting disk 3 outside is equipped with rotating assembly 6.

The fixing component 5 comprises a motor 51, a gear lack 52, a first gear 53, a first connecting rod 54, a first spring 55, a sleeve 56, a second spring 57, a sucker 58, a third spring 59, a clamping block 510, a fourth spring 511 and a first wedge block 512, the motor 51 is installed on the left side of the inner lower part of the shell 1, the gear lack 52 is connected to an output shaft of the motor 51, the first gear 53 is connected to the upper part of a transmission shaft of the support plate 3, the gear lack 52 is meshed with the first gear 53 after rotating, the first connecting rod 54 is connected to the inner side of the lower part of the first support rod 4 in a sliding way, the first spring 55 is connected between the first connecting rod 54 and the first support rod 4, the sleeve 56 is connected to the outer side of the lower part of the first support rod 4 in a sliding way, the inner side of the upper part of the sleeve 56 is provided with an opening, the sleeve 56 is in contact with the first connecting rod 54 on the same side, the second spring 57 is connected between the sleeve 56 and the first support rod 4, the inner side of the sleeve 56 is connected with the sucker 58 in a sliding way, third springs 59 are connected between the suction cups 58 and the sleeves 56, clamping blocks 510 are connected to the outer sides of the bottoms of the first supporting rods 4 in a sliding mode, the first connecting rods 54 can be clamped by the clamping blocks 510, fourth springs 511 are connected between the clamping blocks 510 and the first supporting rods 4, first wedge blocks 512 are connected to the left side of the upper portion in the shell 1, and the first connecting rods 54 are pushed to move downwards after rotating to the contact of the first wedge blocks 512.

The rotating assembly 6 comprises a second gear 61, a first rack 62, a fifth spring 63 and a second wedge block 64, the inner side of a transmission shaft of the first supporting rod 4 is connected with the second gear 61, the outer side of the supporting disk 3 is evenly and slidably connected with four first racks 62 at intervals, the first racks 62 are meshed with the second gear 61, the fifth spring 63 is symmetrically connected between the first racks 62 and the supporting disk 3, the right front side of the upper part in the shell 1 is connected with the second wedge block 64, and the first racks 62 are rotated to be in contact with the second wedge block 64 and then pushed to move downwards.

When a user needs to break the shell of the sterile egg, firstly, the sterile egg with a crack is placed between two first supporting rods 4 opposite to each other on the rear side, in an initial state, the rear first connecting rod 54 abuts against the rear clamping block 510, the rear fourth spring 511 is in a compressed state, the motor 51 is started to drive the gear lacking 52 to rotate, after the gear lacking 52 rotates to be meshed with the first gear 53, the first gear 53 is driven to rotate 90 degrees anticlockwise to drive the supporting plate 3 to rotate 90 degrees anticlockwise, the first rack 62, the first supporting rod 4, the first connecting rod 54, the clamping block 510, the sleeve 56 and the suction disc 58 are driven to rotate 90 degrees anticlockwise to drive the sterile egg to rotate 90 degrees anticlockwise, after the gear lacking 52 rotates to be not meshed with the first gear 53, the supporting plate 3, the first supporting rod 4 and the sterile egg stop rotating, and after the rear first connecting rod 54 rotates anticlockwise to be contacted with the first wedge block 512, will be pushed to move downwards away from the side latch 510, the side first spring 55 will be compressed, under the action of the side fourth spring 511, the side latch 510 will be pushed to move inwards, thereby clamping and fixing the side first link 54, at the same time the side first link 54 will be moved downwards will push the side sleeve 56 and the suction cup 58 to move inwards, the side second spring 57 will be stretched, the side suction cup 58 will stop moving after moving against the sterile egg, while the side sleeve 56 will continue to move inwards, the side third spring 59 will be compressed, so that the air between the side suction cup 58 and the sterile egg will be discharged from the opening on the side sleeve 56, then the opening on the side sleeve 56 will be blocked by the first support rod 4, so that the side suction cup 58 will suck the sterile egg firmly, the rear side first link 54 will be rotated anticlockwise successively until the first wedge 512 comes into contact, finally the rear two suction cups 58 will suck the sterile egg, then, when the rear first rack 62 rotates counterclockwise to contact the second wedge-shaped block 64, the rear first rack 62 is pushed to move downward, the side fifth spring 63 is compressed to drive the side second gear 61 to rotate outward, so as to drive the side first support rod 4, the first connecting rod 54, the fixture block 510, the sleeve 56 and the suction cups 58 to rotate outward, so that the suction cups 58 on both sides drive the sterile eggshell to move to both sides, thereby breaking the sterile eggshell, the yolk and the albumen in the sterile eggshell flow out onto the blanking plate 2 and flow down along the blanking plate 2, the user can collect the yolk and the albumen, and then the side first rack 62 continues to rotate counterclockwise to be far away from the second wedge-shaped block 64, and then under the action of the side fifth spring 63, the side first rack 62 is pushed to move upward, the side second gear 61 is driven to rotate inward, thereby driving the side first support rod 4, the first connecting rod 54, the side second connecting rod 61, The clamping block 510, the sleeve 56 and the suction cup 58 rotate inwards to return to the original state, at this time, the side clamping block 510 is pushed outwards to move away from the side first connecting rod 54, the side fourth spring 511 is compressed, the side first connecting rod 54 is pushed upwards under the action of the side first spring 55, the side sleeve 56 is not pushed any more, the side sleeve 56 is pushed outwards under the action of the side second spring 57, the side third spring 59 extends backwards, the opening hole in the side sleeve 56 is not blocked by the first supporting rod 4 any more, so that air can enter between the side suction cup 58 and the sterile eggshell, and then the third spring 59 extends back to the original state to drive the side suction cup 58 to move outwards together to separate from the sterile eggshell, so that the sterile eggshell falls into the shell 1 and slides down along the shell 1, a user can receive the sterile eggshell to collect, the side clamping block 510, under the effect of this side fourth spring 511, promote this side fixture block 510 and move to the inboard for this side fixture block 510 is withstood by this side first connecting rod 54 once more, and this side fourth spring 511 still is in compression state, resumes to the original state, so reciprocal, all aseptic eggs all break the shell after finishing, close motor 51, reach automatic firm transmission aseptic egg, break the shell for aseptic egg automatically, conveniently separately collect the effect of aseptic yolk egg clear sum eggshell.

Example 2

As shown in fig. 1, 2, 8, 9, 10, 11, 12, 13, 14, 15, 16 and 17, in some embodiments, the disclosure further includes an unlocking assembly 7, the unlocking assembly 7 includes a first push rod 71, a second support rod 72 and a protrusion 73, the first push rod 71 is connected to the outer side of each latch 510, the second support rod 72 is connected to the right front side of the lower portion of the housing 1, the protrusion 73 is connected to the upper portion of the second support rod 72, and the first push rod 71 is pushed to move outward after rotating to contact with the protrusion 73.

When the fixture block 510 rotates counterclockwise, the first push rod 71 is also driven to rotate counterclockwise, after the sterile egg is broken, the fixture block 510 drives the first push rod 71 to rotate counterclockwise continuously, the first push rod 71 rotates to contact with the protrusion 73 and is pushed to move outward, thereby driving the fixture block 510 to move outward and away from the first side link 54, the fifth side spring 63 is compressed, so that the first link 54 moves upward and resets, finally the side suction tray 58 releases the sterile egg shell to drop the sterile egg shell, then the first side push rod 71 rotates counterclockwise continuously and away from the protrusion 73, under the action of the fifth side spring 63, the fixture block 510 and the first push rod 71 are pushed to move inward, because the first side link 54 has moved upward and reset at this time, the fixture block 510 after moving inward is pushed by the first side link 54 again, and the fourth side spring 511 keeps a compressed state, the aseptic eggshells are restored to the original state, and the operation is repeated in this way, so that the effect of assisting automatic loosening of the aseptic eggshells is achieved.

Still including beating subassembly 8, beating subassembly 8 is including third bracing piece 81, beat pole 82, torsion spring 83, second push rod 84, sixth spring 85, kelly 86 and dysmorphism pole 87, supporting disk 3 lower part outside interval evenly is connected with third bracing piece 81, third bracing piece 81 lower part all rotary type is connected with beats pole 82, it all is connected with torsion spring 83 to beat between pole 82 and the third bracing piece 81, sliding type is connected with second push rod 84 on the third bracing piece 81, second push rod 84 and sleeve 56 contact, all be connected with sixth spring 85 between second push rod 84 and the third bracing piece 81, all be connected with kelly 86 on the second push rod 84, kelly 86 can block beating pole 82, the left front side of lower part is connected with dysmorphism pole 87 in the shell 1, beating pole 82 rotates to be promoted to move downwards after contacting dysmorphism pole 87.

In an initial state, the rear torsion spring 83 is in a deformed state, the rear clamping rod 86 clamps the rear knocking rod 82, a complete sterile egg is placed on the first supporting rod 4 at the rear side, when the supporting disk 3 and the sterile egg rotate anticlockwise, the third supporting rod 81, the second push rod 84, the knocking rod 82 and the clamping rod 86 rotate anticlockwise, the sterile egg rotates 90 degrees to the left side, the side sleeve 56 and the suction cup 58 move inwards to finally firmly adsorb the sterile egg, when the side sleeve 56 moves inwards, the side second push rod 84 is pushed to move forwards, the side sixth spring 85 is compressed to drive the side clamping rod 86 to move forwards to be separated from the side knocking rod 82, under the action of the side torsion spring 83, the side knocking rod 82 is pushed to rotate clockwise to knock on the sterile egg, the sterile egg shell cracks, and then the supporting disk 3 drives the side third supporting rod 81 and the side knocking rod 82 to continue to rotate anticlockwise, under the action of the special-shaped rod 87, the side knocking rod 82 is pushed to rotate anticlockwise, the side torsion spring 83 deforms, the side first rack 62 rotates to be in contact with the second wedge-shaped block 64, finally, the sleeve 56 and the suction cup 58 rotate outwards to break the eggshell into two parts, the side sleeve 56 rotates to be far away from the side second push rod 84, under the action of the side sixth spring 85, the side second push rod 84 and the clamping rod 86 are pushed to move leftwards, meanwhile, the side knocking rod 82 rotates to be right ahead to be far away from the special-shaped rod 87, the knocking rod 82 is clamped and fixed by the clamping rod 86 after the side left movement, the state is restored to the original state, and the reciprocating is carried out, so that the effect of automatically knocking the sterile eggs is achieved, and the sterile eggs are broken more conveniently.

The feeding assembly 9 comprises a second connecting rod 91, a feeding plate 92, a first baffle plate 93, a second baffle plate 94, a belt pulley 95, a transmission belt 96, a third gear 97, a second rack 98 and a seventh spring 99, wherein the four second connecting rods 91 are uniformly connected to the outer side of the upper part of the supporting plate 3 at intervals, the feeding plate 92 is connected to the rear side of the upper part of the shell 1, the lower part of the feeding plate 92 is connected to the rear side of the shell 1, the first baffle plate 93 is rotatably connected to the rear side of the lower part of the feeding plate 92, the second baffle plate 94 is rotatably connected to the front side of the lower part of the feeding plate 92, the belt pulleys 95 are respectively connected to the outer sides of transmission shafts of the first baffle plate 93 and the second baffle plate 94, the transmission belt 96 is wound between the belt pulleys 95 on the front side and the rear side, the outer side of the transmission shaft of the second baffle plate 94 is respectively connected to the third gear 97, the second rack 98 is rotatably connected to the front side of the lower part of the feeding plate 92, the second connecting rod 91 is rotated to be contacted with the second rack 98, the second rack 98 is pushed to move backwards, the second rack 98 is meshed with the third gear 97, and seventh springs 99 are symmetrically connected between the second rack 98 and the feeding plate 92.

Still including buffering subassembly 10, buffering subassembly 10 is including guide bar 101, pin 102 and eighth spring 103, and the equal interval longitudinal symmetry sliding type in both sides is connected with many guide bars 101 about 2 inside down, all is connected with pin 102 between the homonymy guide bar 101 outside, and equal longitudinal symmetry is connected with eighth spring 103 between pin 102 and the lower feed plate 2, and eighth spring 103 is around on guide bar 101.

Sterile eggs are sequentially placed into the feeding plate 92, the sterile eggs slide downwards along the feeding plate 92, when the sterile eggs slide downwards, the stop rod 102 is pushed to move outwards, the eighth spring 103 is compressed, after the sterile eggs slide downwards and are away from the stop rod 102, the stop rod 102 is pushed to move inwards under the action of the eighth spring 103, so that the effect of slowing down the sliding speed of the sterile eggs can be achieved, in an initial state, the sliding sterile eggs are blocked by the first baffle 93, meanwhile, the second rack 98 is propped by the second connecting rod 91, the seventh spring 99 is in a compressed state, then, when the supporting plate 3 rotates, the second connecting rod 91 is driven to rotate and be away from the second rack 98, under the action of the eighth spring 103, the second rack 98 is pushed to move forwards, the third gear 97 is driven to rotate clockwise, so that the belt pulley 95 and the transmission belt 96 are driven to rotate clockwise, and the first baffle 93 and the second baffle 94 are driven to rotate clockwise, make the aseptic egg of downside pass through first baffle 93 smoothly and be blocked by second baffle 94, and then supporting disk 3 continues to drive second connecting rod 91 and rotate, next second connecting rod 91 rotates to contacting behind second rack 98, will promote second rack 98 and move backward, seventh spring 99 is compressed, drive third gear 97 anticlockwise rotation, thereby drive belt pulley 95 and drive belt 96 anticlockwise rotation, and then drive first baffle 93 and second baffle 94 anticlockwise rotation, make the aseptic egg of downside slide down to the first bracing piece 4 of rear side through second baffle 94, remaining aseptic egg is blocked by first baffle 93 simultaneously, so reciprocal, reach the effect of avoiding damaging aseptic egg and automatic ration material loading, improve work efficiency.

Still including splashproof subassembly 11, splashproof subassembly 11 is including third baffle 111, carriage 112, backup pad 113, ninth spring 114, gyro wheel 115 and

stay cord

116, 2 lower parts front sides sliding type of flitch down is connected with third baffle 111, shell 1 lower part front side is connected with carriage 112, the inside downside sliding type of carriage 112 is connected with backup pad 113, be connected with ninth spring 114 between backup pad 113 and the

carriage

112, 2 front sides bilateral symmetry rotary type of flitch down is connected with gyro wheel 115, the third baffle 111 lower part left and right sides all with the backup pad 113 between all be connected with stay cord 116, stay cord 116 walks around homonymy gyro wheel 115.

The container for holding the sterile yolk and the egg white is placed on the supporting plate 113, so that the container is positioned outside the third baffle plate 111, the sterile yolk and the egg white slide into the third baffle plate 111 from the blanking plate 2 and then slide into the container along the third baffle plate 111, the container and the supporting plate 113 are pushed to move downwards along with the increase of the weight of the yolk and the egg white in the container, the ninth spring 114 is compressed, the third baffle plate 111 is driven to move upwards through the pull rope 116, so that the egg yolk and the egg white which slide down from the blanking plate 2 are reduced in height along the third baffle 111, the egg yolk and the egg white can be effectively prevented from splashing when falling into the container, the container is taken down after the aseptic eggs are all broken, under the action of the ninth spring 114, the supporting plate 113 is pushed to move upwards, the pulling rope 116 no longer pulls the third baffle 111, under the action of gravity, the third baffle 111 moves downwards, and reciprocates in such a way, so that the effect of effectively preventing egg yolks and egg whites from splashing is achieved.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides an aseptic egg equipment of breaking shell with splashproof function which characterized in that: comprises the following steps: the supporting legs are symmetrically connected to two sides of the outer portion of the shell (1) (21); the lower material plate (2) is connected to one side of the lower part of the shell (1); the middle of the lower part in the shell (1) is rotatably connected with the supporting disc (3); the outer side of the supporting disc (3) is uniformly and symmetrically connected with four first supporting rods (4) in a rotating mode at intervals; the fixing component (5) is arranged on the lower side inside the shell (1), and the fixing component (5) is arranged between the supporting disk (3) and the first supporting rod (4); the rotating assembly (6) is arranged on the outer side of the supporting disc (3).

2. The apparatus of claim 1, wherein the apparatus further comprises: the fixing component (5) comprises: the motor (51) is mounted on one side of the inner lower part of the shell (1); the output shaft of the motor (51) is connected with the gear lack (52); the upper part of a transmission shaft of the supporting plate (3) is connected with the first gear (53), and the gear lack (52) is meshed with the first gear (53) after rotating; the inner sides of the lower parts of the first supporting rods (4) are connected with the first connecting rods (54) in a sliding manner; the first spring (55) is connected between the first connecting rod (54) and the first supporting rod (4); the outer sides of the lower parts of the first supporting rods (4) are connected with the sleeves (56) in a sliding mode, the inner sides of the upper parts of the sleeves (56) are provided with openings, and the sleeves (56) are in contact with the first connecting rods (54) on the same side; a second spring (57), wherein the second spring (57) is connected between the sleeve (56) and the first support rod (4); the suction cups (58) are connected to the inner sides of the sleeves (56) in a sliding mode; a third spring (59), wherein the third spring (59) is connected between the suction cup (58) and the sleeve (56); the clamping blocks (510) are connected to the outer sides of the bottoms of the first supporting rods (4) in a sliding mode, and the first connecting rod (54) can be clamped by the clamping blocks (510); the fourth spring (511) is connected between the fixture block (510) and the first support rod (4); the first wedge block (512) is connected to one side of the inner upper portion of the shell (1), and the first connecting rod (54) is pushed to move downwards after being rotated to be contacted with the first wedge block (512).

3. The apparatus of claim 2, wherein the apparatus further comprises: the rotating assembly (6) comprises: the inner sides of transmission shafts of the first supporting rods (4) are connected with the second gears (61); the outer side of the supporting plate (3) is evenly and slidably connected with four first racks (62) at intervals, and the first racks (62) are meshed with the second gear (61); the fifth springs (63) are symmetrically connected between the first rack (62) and the supporting plate (3); the second wedge block (64) is connected to one side of the inner upper portion of the shell (1), and the first rack (62) is pushed to move downwards after being rotated to be in contact with the second wedge block (64).

4. A sterile egg breaking apparatus with splash protection as claimed in claim 3, wherein: still include untie subassembly (7), untie subassembly (7) includes: the outer sides of the clamping blocks (510) are connected with the first push rods (71); the second supporting rod (72) is connected to one side of the inner lower part of the shell (1); the upper part of the second support rod (72) is connected with the lug (73), and the first push rod (71) rotates to be in contact with the lug (73) and then is pushed to move outwards.

5. The apparatus of claim 4, wherein the apparatus further comprises: still including beating subassembly (8), beating subassembly (8) including: the third supporting rods (81) are uniformly connected to the outer side of the lower part of the supporting plate (3) at intervals; the lower parts of the third supporting rods (81) are respectively and rotatably connected with the knocking rods (82); the torsion springs (83) are connected between the knocking rod (82) and the third supporting rod (81); the second push rod (84) is connected to the third supporting rod (81) in a sliding mode, and the second push rod (84) is in contact with the sleeve (56); the sixth spring (85) is connected between the second push rod (84) and the third supporting rod (81); the clamping rods (86) are connected to one sides of the second push rods (84), and the knocking rods (82) can be clamped by the clamping rods (86); the special-shaped rod (87) is connected to one side of the inner lower portion of the shell (1), and the knocking rod (82) is pushed to move downwards after rotating to contact with the special-shaped rod (87).

6. The apparatus of claim 5, wherein the apparatus further comprises: still including feed assembly (9), feed assembly (9) including: the outer side of the upper part of the supporting plate (3) is uniformly connected with four second connecting rods (91) at intervals; the feeding plate (92) is connected to one side of the upper part of the shell (1), and the lower part of the feeding plate (92) is connected with one side of the shell (1); the first baffle (93) is rotatably connected to one side of the lower part of the feeding plate (92); the second baffle (94) is rotatably connected to one side of the lower part of the feeding plate (92); the belt pulley (95) is connected to the outer sides of the transmission shafts of the first baffle (93) and the second baffle (94); the transmission belt (96) is wound between the belt pulleys (95) on the two sides of the transmission belt (96); the outer sides of the transmission shafts of the second baffle plates (94) are connected with the third gears (97); the second rack (98) is connected to one side of the lower portion of the feeding plate (92) in a sliding mode, and the second connecting rod (91) pushes the second rack (98) to move backwards after rotating to be in contact with the second rack (98); and the second rack (98) is meshed with the third gear (97), and the seventh spring (99) is symmetrically connected between the second rack (98) and the feeding plate (92).

7. The apparatus of claim 6, wherein the apparatus further comprises: still including buffering subassembly (10), buffering subassembly (10) including: the guide rods (101) are connected to two sides of the interior of the blanking plate (2) in a sliding manner at intervals, uniformly and vertically symmetrically; the stop levers (102) are connected between the outer sides of the guide rods (101) on the same side; the eighth springs (103) are symmetrically connected between the stop lever (102) and the blanking plate (2) from top to bottom, and the eighth springs (103) are wound on the guide rods (101).

8. The apparatus of claim 7, wherein the apparatus further comprises: still including splashproof subassembly (11), splashproof subassembly (11) including: the third baffle (111) is connected to one side of the lower part of the blanking plate (2) in a sliding manner; the supporting frame (112) is connected to one side of the lower part of the shell (1); the supporting plate (113) is connected to the lower side inside the supporting frame (112) in a sliding mode; a ninth spring (114), wherein the ninth spring (114) is connected between the support plate (113) and the support frame (112); the roller (115) is connected to one side of the blanking plate (2) in a symmetrical and rotating mode; and the pull ropes (116) are connected between the two sides of the lower part of the third baffle (111) and the supporting plate (113), and the pull ropes (116) are wound around the rollers (115) on the same side.