CN216674653U - Automatic laser shell breaking stirring egg steaming machine - Google Patents

Abstract

The utility model discloses an automatic laser shell breaking stirring egg steaming machine which comprises a conveying rack, an eggshell separating device and a stirring host, wherein the eggshell separating device is positioned at the right side of the conveying rack, and the stirring host is positioned at the right side of the eggshell separating device; it can carry the egg one by one, carry the precision high, and it can wash the egg in carrying to disinfect and weather, guarantee its cleaning performance, the sanitation is effectual, adopt laser to shell, it does not basically have the eggshell to smash and cut during the cutting, make its yolk egg white with the eggshell separation in basically not have impurity such as eggshell, guarantee follow-up manufacturing product effect and guarantee follow-up product manufacturing quality, and it can stir received egg white voluntarily and break up and carry the take-up (stock) dish voluntarily, make follow-up only need the manual work take the take-up (stock) dish to heat in the steam ager and make can, it need not to carry many times, and is effectual, and high efficiency, greatly reduced manual labor volume.

Description

Automatic laser shell breaking stirring egg steaming machine

The technical field is as follows:

the utility model relates to the field of food processing, in particular to an automatic laser shell breaking stirring egg steaming machine.

Background art:

eggs are a major source of protein intake for humans. People can enjoy delicious food by cooking, steaming, frying and frying eggs in various cooking modes. Wherein the eggs are steamed in the dining room and the dining room of the large-scale enterprise and public institution by the favorite modern people. The egg yolk and the egg white are stirred evenly and then put into a steamer, and the steamed egg is smooth and tender and has rich nutrition and is in short supply.

When processing in the dining room and steaming eggs, generally need the manual work to carry it to the processing position that corresponds, the manual shell breaking is processed it with the egg beater, and its effect is poor, and is inefficient, and the amount of hand labor is big, then, the material that the stirring was accomplished still need the manual work to fall it to the net dish that the egg that steams was used, and it needs artifical transport many times, processing, and the effect is poor, and is inefficient.

The existing automatic egg processing machine mostly separates yolk from clear, and is mostly used for making cakes in large batch; the egg yolk and clear separator firstly adopts a knocking block to knock the top surface of an egg, then a mechanical structure is used for separation, part of eggshell powder is mixed into the yolk egg white in the transmission process, the eggshell powder generally needs subsequent filtration treatment or is not directly treated, and the eggshell powder is mixed into the yolk egg white and directly enters the subsequent procedures for processing, so that the eggshell powder impurities can be generated when the product is subsequently made, and the manufacturing effect and the product quality are influenced;

the utility model has the following contents:

the utility model aims to overcome the defects of the prior art, and provides an automatic laser shell breaking stirring egg steaming machine which can convey eggs one by one, has high conveying precision, can wash, sterilize and blow-dry the conveyed eggs, ensures the cleaning effect and good sanitary effect, adopts laser shell stripping, has no broken eggshells during cutting, ensures that the egg white separated from the eggshells has no impurities such as eggshells and the like, ensures the effect of subsequent manufactured products and the manufacturing quality of the subsequent products, can automatically stir and scatter the received egg white and yolk and automatically convey the egg white and the yolk to a material receiving disc, ensures that the subsequent egg white and the yolk are manufactured by manually taking the material receiving disc into a steaming box for heating without carrying for multiple times, has good effect and high efficiency, and greatly reduces the manual labor amount.

The scheme for solving the technical problem is as follows:

an automatic laser shell breaking, stirring and egg steaming machine comprises a conveying rack, an eggshell separating device and a stirring host, wherein the eggshell separating device is arranged at the right side of the conveying rack, the stirring host is arranged at the right side of the eggshell separating device, the conveying rack comprises a long conveying shell, a long conveying screw rod is placed in the long conveying shell, two ends of the long conveying screw rod are connected to left and right end plates of the long conveying shell through bearings, a long through groove is formed in the middle of a top plate of the long conveying shell, a conveying servo motor is fixed on the left side wall of the left side plate of the long conveying shell and drives the long conveying screw rod to rotate, eggs to be conveyed are positioned in the long through groove, and the bottoms of the eggs are positioned in corresponding screw grooves of the long conveying screw rod;

a feeding conveying frame is fixed on the right side wall of the long conveying shell, and the right ends of two conveying chains of the feeding conveying frame are close to and correspond to a material receiving plate of the eggshell separating device; the bottom end of a main discharge pipe of the eggshell separating device is fixedly provided with a feed end of a middle inclined guide groove body and is communicated with the middle inclined guide groove body; the stirring main machine is positioned at one side of the discharge end of the inclined liquid guide groove body, the discharge end of the inclined liquid guide groove body is inserted and sleeved in an insertion groove formed in the top of a side plate of the stirring barrel body of the stirring main machine, and the discharge end of the inclined liquid guide groove body is communicated with the stirring barrel body; an inclined discharge pipe is fixed at the lower part of one side plate of the stirring barrel body, and the feed end of the inclined discharge pipe is communicated with the stirring barrel body;

the movable material receiving device is arranged on the ground around the stirring barrel body, and a material receiving disc arranged on the movable material receiving device corresponds to the discharge end of the inclined discharge pipe.

The middle part of the long conveying shell is provided with a spraying cover body, the top surface of the top plate of the spraying cover body is provided with a lifting mechanism, the bottom end of a lifting screw rod of the lifting mechanism extends into the spraying cover body and is fixed with a spraying main shell, the bottom surface of a bottom plate of the spraying main shell is communicated with a plurality of spray heads, and the spray heads face the long through groove;

the sterilizing cover is fixed on the top surface of the right part of the long conveying shell, a plurality of ultraviolet sterilizing lamps are fixed on the bottom surface of the top plate of the sterilizing cover, and the ultraviolet sterilizing lamps face the long through groove.

A discharge through hole is formed in the middle of the top surface of the bottom plate of the long conveying shell, the top of the discharge pipe is located in the discharge through hole, and the outer side wall of the top of the discharge pipe is fixed on the inner side wall of the discharge through hole;

oblique wall surfaces are formed on the top surfaces of the bottom plates of the long conveying shells on the left side, the right side, the front side and the rear side of the discharge through hole, and one side, far away from the discharge through hole, of each oblique wall surface is higher than one side, close to the discharge through hole, of each oblique wall surface.

Elevating system includes elevator motor, and elevator motor's bottom surface is fixed on the roof of the fixed motor frame of the roof top surface that sprays the cover body, and the bottom surface that the roof of motor frame was stretched out to elevator motor's output shaft's bottom has the lift swivel nut through the coupling joint, and the lifting screw plug bush is in the through-hole that the roof middle part that sprays the cover body had, and the top surface and the spiro union that the through-hole was stretched out at the top of lifting screw are in the lift swivel nut, and the bottom surface of through-hole is stretched out to the bottom of lifting screw.

A feeding conveying frame is fixed on the right side wall of the long conveying shell, transmission rotating shafts are arranged on the left portion and the right portion of the feeding conveying frame, two ends of each transmission rotating shaft are connected to the front side plate and the rear side plate of the feeding conveying frame through bearings, conveying chain wheels are fixed on the front portion and the rear portion of each transmission rotating shaft, conveying chains are tensioned on the corresponding two conveying chain wheels, two ends of a plurality of guide rollers extending forwards and backwards are fixed on the two conveying chains, and a long placing groove is formed between every two adjacent guide rollers;

a driving servo motor is fixed on the outer side wall of one side plate of the feeding conveying frame and drives the corresponding transmission rotating shaft to rotate;

the transmission rotating shaft on the left side is close to the end plate on the right side;

an upper support frame is fixed on the top surfaces of the front side plate and the rear side plate of the feeding conveying frame, a plurality of air blowing ventilators are fixed on the top plate of the upper support frame, and air outlets of the air blowing ventilators face to long placing grooves corresponding to the right lower side.

The eggshell separating device comprises a transverse moving support frame, the transverse moving support frame is positioned on the right side of the feeding conveying frame, two transverse moving blocks are arranged on the transverse moving support frame, connecting support frames are fixed on the top surfaces of the two transverse moving blocks, a material receiving plate is arranged above the connecting support frames, a top arc-shaped groove is formed in the middle of the top surface of the material receiving plate, and a discharging through groove is formed in the middle of the bottom surface of the top arc-shaped groove;

the top plate top surface of the connecting and supporting frame is fixed with a main fixing frame, a main pressing mechanism is installed on the top plate top surface of the main fixing frame, a pressing and adjusting plate of the main pressing mechanism is located below the top plate of the main fixing frame, a lower pressing frame is installed on the bottom surface of the pressing and adjusting plate, a laser cutting head is fixed in the middle of the top plate top surface of the lower pressing frame, and the bottom end of a nozzle of the laser cutting head extends out of the bottom surface of the top plate of the lower pressing frame and faces towards the top arc-shaped groove.

A main discharging pipe is fixed in the middle of the bottom surface of the material receiving plate, the top of the main discharging pipe is vertically aligned and communicated with the discharging through groove, and the bottom of the main discharging pipe extends out of a central through hole formed in the middle of a top plate connected with the supporting frame;

the main pressing mechanism comprises a plurality of pressing cylinders, all the pressing cylinders are fixed on the top surface of a top plate of the main fixing frame, the bottom ends of push rods of all the pressing cylinders extend out of the bottom surface of the top plate of the main fixing frame and are fixed on the top surface of the same pressing plate, a plurality of buffer springs are fixed on the bottom surface of the pressing plate, a pressing adjusting plate is fixed on the bottom ends of all the buffer springs, and the top ends of the buffer springs are fixed on the bottom surfaces of the corresponding pressing plates;

the front side and the rear side of the bottom surface of the compression adjusting plate are respectively fixed with a connecting plate, the top plate of the lower compression frame is fixed on the bottom surfaces of the two corresponding connecting plates, two compression roller bodies are arranged between the two side plates at the front part and the rear part of the lower compression frame, the two compression roller bodies are arranged at the left part and the right part between the two side plates of the lower compression frame in parallel, two ends of each compression roller body are connected to the two side plates of the lower compression frame through bearings, a transmission motor is fixed on the outer side wall of one side plate of the lower compression frame, the transmission motor drives the corresponding compression roller body to rotate, and the two compression roller bodies correspond to eggs placed in the arc-shaped grooves at the tops;

the shaping of curb plate below middle part of the outside department of main mount has the waste material discharge gate, is fixed with waste material promotion cylinder on the lateral wall of the curb plate of the inboard department of main mount, and the tip of the push rod of waste material promotion cylinder passes the inside wall of the curb plate of the inboard department of main mount and is fixed with the slurcam, and the slurcam faces the waste material discharge gate, treats that the egg of operation is in between slurcam and the waste material discharge gate.

The stirring main machine comprises a fixed frame, and a stirring barrel body is fixed at the upper part of the fixed frame;

a plurality of side supporting rods are fixed on the outer side wall of the top of the stirring barrel body, an upper fixing plate is fixed on the top surfaces of all the side supporting rods, a stirring motor is fixed in the middle of the top surface of the upper fixing plate, the bottom end of an output shaft of the stirring motor extends out of the bottom surface of the upper fixing plate and is connected with a vertical stirring shaft through a coupler, an egg beating stirring head is fixed at the bottom of the vertical stirring shaft, and the egg beating stirring head is located in the stirring barrel body;

the discharge end of the oblique liquid guide groove body is inserted and sleeved in a slot formed at the top of a side plate of the stirring barrel body;

the movable material receiving device comprises a movable fixing bottom plate, the movable fixing bottom plate is fixed on the ground, end fixing plates are fixed on the front portion and the rear portion of the top surface of the movable fixing bottom plate, two ends of a main transverse moving screw rod are connected to the two end fixing plates through bearings, a movable conveying motor is fixed on the outer side wall of one end fixing plate, the movable conveying motor drives the main transverse moving screw rod to rotate, a material receiving moving block is screwed on the main transverse moving screw rod, a placing and installing groove body is fixed on the top surface of the material receiving moving block, and a material receiving disc is placed in a placing groove formed in the middle of the top surface of the placing and installing groove body;

the left part and the right part of the bottom plate for placing the installation groove body are all formed with pushing through holes, the pushing through holes correspond to lower through holes in the front part of the movable fixing bottom plate, a lower installation cavity is arranged on the ground under the lower through holes, a lifting cylinder is fixed on the bottom surface of the lower installation cavity, a lifting plate is fixed at the top end of a push rod of the lifting cylinder, and the lifting plate faces the lower through holes.

The utility model has the following outstanding effects:

the egg conveying device can convey eggs one by one, is high in conveying precision, and ensures that the eggs collide with each other and break in the conveying process. And it can wash the sterilization to carry the egg and weather, guarantee its cleaning performance, the sanitation is effectual, it adopts laser to shell, it cuts time does not basically have the eggshell to smash and cut, make its yolk egg white of separating with the eggshell basically not have impurity such as eggshell, guarantee follow-up manufacturing product effect and guarantee follow-up product manufacturing quality, and it can stir received egg white yolk automatically and break up and carry the take-up reel automatically, make follow-up only need the manual work take the take-up reel heat make in the steam ager, it need not to transport many times, high efficiency, greatly reduced artifical amount of labour.

Description of the drawings:

FIG. 1 is a schematic view of a partial structure of the present invention;

FIG. 2 is a schematic view of a partial structure at a conveyor rack;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a partial cross-sectional view at the elongated conveyor screw of the present invention;

FIG. 5 is a partial schematic view of the feed carriage;

fig. 6 is a partial structural schematic view at the eggshell separation device;

FIG. 7 is an enlarged view of a portion of FIG. 6;

fig. 8 is a schematic view of an angle-changing partial structure of the eggshell separating device;

fig. 9 is a partially enlarged view of fig. 8.

FIG. 10 is a partial schematic structural view of the material receiving transition rack and the stirring main machine of the utility model;

FIG. 11 is a schematic view of the alternate angle partial structure of FIG. 10;

FIG. 12 is a partial cross-sectional view of FIG. 11;

fig. 13 is a partially enlarged view of fig. 11.

The specific implementation mode is as follows:

in the embodiment, as shown in fig. 1 to 13, an automatic laser shell breaking and stirring egg steaming machine includes a conveyor frame 10, an egg shell separating device 200, and a stirring host 60, wherein the conveyor frame 10, the egg shell separating device 200, and the stirring host 60 are all fixed on the ground (or on the horizontal plane surface), the egg shell separating device 200 is located at the right side of the conveyor frame 10, the stirring host 60 is located at the right side of the egg shell separating device 200, the conveyor frame 10 includes a long conveyor housing 11, a long conveyor screw 12 is placed in the long conveyor housing 11, two ends of the long conveyor screw 12 are connected to two left and right end plates 13 of the long conveyor housing 11 through bearings, a long through slot 14 is formed in the middle of a top plate of the long conveyor housing 11, a conveyor servo motor 15 is fixed on a left side wall of a left side plate of the long conveyor housing 11, the conveyor servo motor 15 drives the long conveyor screw 12 to rotate, the eggs 100 to be conveyed are positioned in the long through grooves 14, and the bottoms of the eggs 100 are positioned in the corresponding screw grooves of the long conveying screws 12;

a feeding conveying frame 20 is fixed on the right side wall of the long conveying shell 11, and the right ends of two conveying chains 23 of the feeding conveying frame 20 are close to the material receiving plate 33 of the eggshell separating device 200 and correspond to the material receiving plate 33; the bottom end of the main discharging pipe 333 of the eggshell separating device 200 is fixed with the feeding end of the middle slant guiding groove body 300 (the feeding end of the middle slant guiding groove body 300 is higher than the discharging end) and is communicated with the middle slant guiding groove body 300, a material receiving transition frame 50 is arranged between the eggshell separating device 200 and the stirring main machine 60, a slant liquid guiding groove body 51 is arranged on the material receiving transition frame 50, and the discharging ends of all the middle slant guiding groove bodies 300 extend into the slant liquid guiding groove body 51 and are communicated with the slant liquid guiding groove body 51; the stirring main machine 60 is positioned at one side of the discharge end of the inclined liquid guiding groove body 51, the discharge end of the inclined liquid guiding groove body 51 is inserted into a slot formed at the top of a side plate of the stirring barrel body 62 of the stirring main machine 60, and the discharge end of the inclined liquid guiding groove body 51 is communicated with the stirring barrel body 62; an inclined discharge pipe 63 is fixed at the lower part of one side plate of the stirring barrel body 62, and the feed end of the inclined discharge pipe 63 is communicated with the stirring barrel body 62;

the movable material receiving device is arranged on the ground around the stirring barrel body 62, and a material receiving disc 70 arranged on the movable material receiving device corresponds to the discharge end of the inclined discharge pipe 63.

A plurality of lower support legs are fixed on the bottom surface of the bottom plate of the long conveying shell 11; the middle part of the long conveying shell 11 is provided with a spraying cover body 16, the top surface of the top plate of the spraying cover body 16 is provided with a lifting mechanism 17, the bottom end of a lifting screw 171 of the lifting mechanism 17 extends into the spraying cover body 16 and is fixed with a spraying main shell 161, the bottom surface of the bottom plate of the spraying main shell 161 is communicated with a plurality of spray heads 162, and the spray heads 162 face the long through groove 14;

a sterilization cover 18 is fixed on the top surface of the right part of the long conveying shell 11, a plurality of ultraviolet sterilization lamps 181 are fixed on the bottom surface of the top plate of the sterilization cover 18, and the ultraviolet sterilization lamps 181 face the long through groove 14.

Furthermore, a discharge through hole 111 is formed in the middle of the top surface of the bottom plate of the long conveying shell 11, the top of the discharge pipe 112 is located in the discharge through hole 111, and the outer side wall of the top of the discharge pipe 112 is fixed on the inner side wall of the discharge through hole 111;

inclined wall surfaces are formed on the top surfaces of the bottom plates of the long conveying shell 11 on the left side, the right side, the front side and the rear side of the discharge through hole 111, and one side, far away from the discharge through hole 111, of each inclined wall surface is higher than one side, close to the discharge through hole 111, of each inclined wall surface.

Further, the front part and the rear part of the top surface of the elongated conveying shell 11 at the elongated through groove 14 are both fixed with a guiding bending plate 114, a circulation through groove 115 is formed between the two guiding bending plates 114, the circulation through groove 115 is aligned and communicated with the elongated through groove 14 up and down, and the upper part of the egg 100 is inserted into the circulation through groove 115. The bottom surfaces of the spraying cover body 16 and the sterilizing cover 18 are fixed on the top surfaces of the horizontal plates of the two guide bending plates 114.

Further, the top surface of the left end plate 13 of the elongated conveying housing 11 is higher than the top surface of the right end plate 13, and the top surface of the right end plate 13 is lower than the top surface of the screw groove of the elongated conveying screw 12;

a blocking horizontal plate 131 extending rightward is fixed to the top surface of the end plate 13 at the left end of the elongated through groove 14.

Further, elevating system 17 includes elevator motor 172, and on the roof of the fixed motor frame of the roof top surface that sprays the cover body 16 was fixed to elevator motor 172's bottom surface, the bottom surface that the roof of motor frame was stretched out to elevator motor 172's output shaft's bottom and has lift swivel nut 173 through the coupling joint, in the through-hole that the lifting screw 171 plug bush has in the roof middle part that sprays the cover body 16, the top surface that the through-hole was stretched out at the top of lifting screw 171 and the spiro union is in lift swivel nut 173, the bottom surface that the through-hole was stretched out to lifting screw 171's bottom.

Further, a plurality of vertical guide rods 163 are fixed on the top surface of the spraying main housing 161, the vertical guide rods 163 are inserted into guide through holes formed in the top plate of the spraying cover body 16, and a limiting plate is fixed on the top end of the vertical guide rods 163, and the diameter of the limiting plate is larger than that of the guide through holes.

Further, a plurality of threading through holes 164 are formed in the top plate of the spraying main shell 161, the threading through holes 164 face to the liquid circulation connectors 165 connected to the left side wall and the right side wall of the spraying main shell 161, the liquid circulation connectors 165 are connected to water inlet pipes, and the water inlet pipes are inserted in the corresponding threading through holes 164.

Further, a feeding conveying frame 20 is fixed on the right side wall of the long conveying shell 11, a plurality of lower support legs are fixed on the bottom surface of the bottom plate of the feeding conveying frame 20, the left part and the right part of the feeding conveying frame 20 are respectively provided with a transmission rotating shaft 21, two ends of the transmission rotating shaft 21 are connected to the front side plate and the rear side plate of the feeding conveying frame 20 through bearings, conveying chain wheels 22 are fixed on the front part and the rear part of the transmission rotating shaft 21, the conveying chains 23 are tensioned on the two corresponding conveying chain wheels 22, two ends of a plurality of guide rollers 24 extending forwards and backwards are fixed on the two conveying chains 23, a long placing groove 25 is formed between the two adjacent guide rollers 24, the long placing groove 25 on the rightmost side corresponds to the material receiving plate 33, and the height of the material receiving plate 33 is lower than the top surface of the upper chain of the conveying chains 23;

a driving servo motor 26 is fixed on the outer side wall of one side plate of the feeding conveying frame 20, an output shaft of the driving servo motor 26 is a spline shaft, the spline shaft is inserted in a spline hole formed in one end of the corresponding transmission rotating shaft 21 in a sleeved mode, and the driving servo motor 26 drives the corresponding transmission rotating shaft 21 to rotate;

the left drive shaft 21 is adjacent the right end plate 13.

Furthermore, an upper support frame 27 is fixed on the top surfaces of the front and rear side plates of the feeding and conveying frame 20, a plurality of blowing fans 28 are fixed on the top plate of the upper support frame 27, and the air outlets of the blowing fans 28 face the corresponding long placing grooves 25 right below.

Further, an infrared emitter 1 and an infrared receiver 2 are respectively fixed on the upper portions of the two side plates on the right side of the feeding and conveying frame 20, the infrared receiver 2 receives infrared rays emitted by the infrared emitter 1, and the infrared rays are located above the right portions of the two conveying chains 23.

A horizontal guide block 132 is fixed on the top of the right side of the right end plate 13, and the top surface of the right end of the horizontal guide block 132 is close to the guide rollers 24 on the top of the two conveying chains 23 at the transmission rotating shaft 21 at the left part of the feeding conveying frame 20.

The eggshell separating device 200 comprises a transverse moving support frame 30, two transverse moving blocks 31 are arranged on the transverse moving support frame 30, connecting support frames 32 are fixed on the top surfaces of the two transverse moving blocks 31, a material receiving plate 33 is arranged above the connecting support frames 32, a top arc-shaped groove 331 is formed in the middle of the top surface of the material receiving plate 33, and a discharging through groove 332 is formed in the middle of the bottom surface of the top arc-shaped groove 331;

the top surface of the top plate of the connecting and supporting frame 32 is fixed with a main fixing frame 40, the top surface of the top plate of the main fixing frame 40 is provided with a main pressing mechanism 41, a pressing and adjusting plate 42 of the main pressing mechanism 41 is positioned below the top plate of the main fixing frame 40, the bottom surface of the pressing and adjusting plate 42 is provided with a lower pressing frame 43, the middle part of the top surface of the top plate of the lower pressing frame 43 is fixed with a laser cutting head 44, and the bottom end of a nozzle of the laser cutting head 44 extends out of the bottom surface of the top plate of the lower pressing frame 43 and faces the top arc-shaped groove 331.

Further, at least one transverse guide rail 34 is fixed in the middle of the top plate top surface of the transverse moving support frame 30, side fixing plates 35 are fixed on the left and right sides of the top plate top surface of the transverse moving support frame 30, pushing cylinders 36 are fixed on the outer side walls of the two side fixing plates 35, the end portions of push rods of the pushing cylinders 36 extend out of the inner wall surfaces of the corresponding side fixing plates 35 and are fixed with transverse moving blocks 31, bottom sliders 311 are fixed on the bottom surfaces of the transverse moving blocks 31, and the transverse guide rails 34 are inserted and sleeved in sliding grooves formed in the bottom surfaces of the bottom sliders 311.

Further, a main discharging pipe 333 is fixed in the middle of the bottom surface of the receiving plate 33, the top of the main discharging pipe 333 is aligned with and communicated with the discharging through groove 332, and the bottom of the main discharging pipe 333 extends out of a central through hole 321 formed in the middle of the top plate of the connecting support frame 32.

Furthermore, an annular elastic buffer block 338 is fixed on the bottom surface of the receiving plate 33, and the bottom surface of the annular elastic buffer block 338 is fixed on the top surface of the top plate of the connecting support frame 32. It can have certain buffering effect when egg 100 drops to connect flitch 33, prevents to knock through.

Furthermore, the main pressing mechanism 41 includes a plurality of pressing cylinders 45, all the pressing cylinders 45 are fixed on the top surface of the top plate of the main fixing frame 40, the bottom ends of the push rods of all the pressing cylinders 45 extend out of the bottom surface of the top plate of the main fixing frame 40 and are fixed on the top surface of the same pressing plate 46, a plurality of buffer springs 47 are fixed on the bottom surface of the pressing plate 46, the pressing adjustment plate 42 is fixed on the bottom ends of all the buffer springs 47, and the top ends of the buffer springs 47 are fixed on the bottom surfaces of the corresponding pressing plates 46. A central guide post is fixed in the middle of the top surface of the pressing adjustment plate 42, the central guide post is inserted into a central guide through hole formed in the middle of the pressing plate 46, and the top end of the central guide post faces the central through hole formed in the middle of the top plate of the main fixing frame 40.

Furthermore, the front side and the rear side of the bottom surface of the pressing adjustment plate 42 are both fixed with a connecting plate, the top plate of the lower pressing frame 43 is fixed on the bottom surfaces of the two corresponding connecting plates, two pressing roller bodies 431 are arranged between the two side plates at the front part and the rear part of the lower pressing frame 43, the two pressing roller bodies 431 are arranged at the left part and the right part between the two side plates of the lower pressing frame 43 in parallel, two ends of the pressing roller bodies 431 are connected to the two side plates of the lower pressing frame 43 through bearings, a transmission motor 432 is fixed on the outer side wall of one of the side plates of the lower pressing frame 43, the output shaft of the transmission motor 432 is a spline shaft, the spline shaft is inserted and sleeved in a spline hole formed in one end of the corresponding pressing roller body 431, the corresponding pressing roller body 431 is driven to rotate, and the two pressing roller bodies 431 correspond to the eggs 100 placed in the top arc-shaped groove 331.

Further, the two pressing roller bodies 431 of the lower pressing frame 43 are located at the left and right sides of the nozzle of the laser cutting head 44.

Furthermore, the outer side walls of the two pressing roller bodies 431 of the lower pressing frame 43 are both fixed with elastic sleeves, the outer side wall of the elastic sleeve on the outer side wall of one pressing roller body 431 is a smooth layer, and the outer side wall of the elastic sleeve on the outer side wall of the other pressing roller body 431 is formed with an outer tooth part.

Furthermore, a waste material outlet 48 is formed in the middle of the lower portion of the side plate at the outer side of the main fixing frame 40, a waste material pushing cylinder 49 is fixed on the outer side wall of the side plate at the inner side of the main fixing frame 40, the end portion of a push rod of the waste material pushing cylinder 49 penetrates through the inner side wall of the side plate at the inner side of the main fixing frame 40 and is fixed with a push plate 491, the push plate 491 faces the waste material outlet 48, and the egg 100 to be operated is located between the push plate 491 and the waste material outlet 48.

Furthermore, an elastic anti-sticking layer 492 is fixed on the wall surface of the pushing plate 491, a plurality of transverse guiding rods are fixed on the pushing plate 491, and the transverse guiding rods are inserted into guiding through holes formed on the side plates at the inner side of the corresponding main fixing frame 40.

An inclined waste guide groove 481 is fixed on the outer side wall of the side plate at the outer side of the main fixing frame 40 at the waste discharge port 48, and the inclined waste guide groove 481 is communicated with and corresponds to the corresponding waste discharge port 48.

Connect flitch 33's right side top surface to be fixed with the baffle, be fixed with elasticity stopper 339 on the left side wall of baffle, the middle part shaping of elasticity stopper 339 has the spiro union through-hole that runs through, and proximity switch spiro union is in running through the spiro union through-hole, and proximity switch's left end is close to corresponding egg 100, response egg 100.

The material receiving transition frame 50 and the stirring main machine 60 are fixed on the ground, an oblique liquid guide groove body 51 is fixed on the material receiving transition frame 50, the stirring main machine 60 is positioned at one side of the discharge end of the oblique liquid guide groove body 51, and the discharge end of the oblique liquid guide groove body 51 is lower than the feed end of the oblique liquid guide groove body 51;

the stirring main machine 60 comprises a fixed frame 61, and a stirring barrel body 62 is fixed at the upper part of the fixed frame 61;

a plurality of side supporting rods 630 are fixed on the outer side wall of the top of the stirring barrel body 62, an upper fixing plate 64 is fixed on the top surfaces of all the side supporting rods 630, a stirring motor 65 is fixed in the middle of the top surface of the upper fixing plate 64, the bottom end of an output shaft of the stirring motor 65 extends out of the bottom surface of the upper fixing plate 64 and is connected with a vertical stirring shaft 66 through a coupling, an egg-breaking stirring head 661 is fixed at the bottom of the vertical stirring shaft 66, and the egg-breaking stirring head 661 is positioned in the stirring barrel body 62;

the discharge end of the inclined liquid guiding groove body 51 is inserted in a slot formed at the top of a side plate of the stirring barrel body 62.

Further, an electric control valve 631 is installed at the discharge end of the inclined discharge pipe 63.

Further, the movable material receiving device comprises a movable fixing bottom plate 71, the movable fixing bottom plate 71 is fixed on the ground, end fixing plates 72 are fixed on the front portion and the rear portion of the top surface of the movable fixing bottom plate 71, two ends of a main transverse moving screw 73 are connected to the two end fixing plates 72 through bearings, a movable conveying motor 74 is fixed on the outer side wall of one end fixing plate 72, an output shaft of the movable conveying motor 74 is a spline shaft, the spline shaft is inserted in a spline hole formed in one end of the main transverse moving screw 73, the movable conveying motor 74 drives the main transverse moving screw 73 to rotate, a material receiving moving block 75 is screwed on the main transverse moving screw 73, a placing and installing groove body 76 is fixed on the top surface of the material receiving moving block 75, and the material receiving disc 70 is placed in a placing groove formed in the middle of the top surface of the placing and installing groove body 76.

Furthermore, a grid frame 701 is arranged in the middle of the receiving tray 70, and the grid frame 701 divides the receiving tray 70 into a plurality of forming grooves.

Furthermore, a plurality of guide blocks 761 are fixed on the bottom surface of the placing and mounting groove 76, a plurality of transverse guide rods 77 are disposed between the two end fixing plates 72, the ends of the transverse guide rods 77 are fixed on the corresponding end fixing plates 72, and the transverse guide rods 77 are inserted into the transverse through holes of the corresponding guide blocks 761.

Further, push through holes 78 are formed in the left portion and the right portion of the bottom plate for placing the installation groove body 76, the push through holes 78 correspond to lower through holes 711 in the front portion of the movable fixing bottom plate 71, a lower installation cavity 80 is formed in the ground right below the lower through holes 711, a lifting cylinder 81 is fixed on the bottom surface of the lower installation cavity 80, a lifting plate 82 is fixed at the top end of a push rod of the lifting cylinder 81, and the lifting plate 82 faces the lower through holes 711.

Further, a non-slip pad 83 is fixed to the top surface of the lifting plate 82.

Further, the upper parts of the opposite wall surfaces of the two end fixing plates 72 are both fixed with transversely arranged limiting elastic columns 9, and the limiting elastic columns 9 correspond to the front side plate or the rear side plate for placing the installation groove body 76.

In the embodiment, when in use, the eggs 100 are moved from the blocking horizontal plate 131 to the long through groove 14 by manual or front conveying mechanism, the bottoms of the eggs are placed in the corresponding screw grooves, the long conveying screws 12 are rotated to rotate by the conveying servo motors 15, the eggs 100 are moved to the right along the long through groove 14, when the eggs pass under the spray heads 162, the eggs are washed by spraying water through the spray heads 162, sterilized by the ultraviolet sterilizing lamps 181, then dropped into the corresponding long placing grooves 25 along the horizontal guide blocks 132 and pressed against the corresponding two guide rollers 24, and the two conveying chains 23 are operated by driving the servo motors 26 to operate, so that all the guide rollers 24 operate, and during operation, because the long placing grooves 25 are long through grooves, the eggs 100 are horizontally placed along the long placing grooves 25 during operation to meet the requirement of subsequent processing, meanwhile, during the conveying process, the air is blown by the air blowing ventilator 28, so that the moisture on the surface can be dried, and the cleanness of the surface of the eggs 100 is ensured.

When egg 100 passes through between infrared emitter 1 and infrared receiver 2, block the infrared ray, infrared receiver 2 just can't receive the infrared ray this moment, explains there is egg 100 to pass through, at this moment, just sends sensing signal for the main control system, and its egg 100 behavior can be known to the main control system, and count is preserved.

In this embodiment, it passes through elevator motor 172 and moves, can adjust the height position regulation of shower nozzle 162 to guarantee that its water spray position reaches more reasonable position.

The cleaning water liquid can be discharged along with the discharging pipe 112, a water receiving tank body 500 is arranged below the discharging pipe 112, a moving pushing wheel is fixed on the bottom surface of the bottom plate of the water receiving tank body 500, positioning plates are fixed on the outer side walls of the left side plate and the right side plate of the water receiving tank body 500, a support plate is installed at a plurality of lower supporting legs fixed on the bottom surface of the bottom plate of the long conveying shell 11, a plurality of ball plungers are screwed in the middle of the support plate, the tops of the positioning steel balls of the ball plungers extend out of the top surface of the support plate and are nested in positioning concave holes formed in the bottom surface of the positioning plate to realize limitation, it can connect the material to discharging pipe 112 exhaust water liquid, and its lower part curb plate can lead to and connect the water pipe, and the tip of connecting the water pipe can lead to the water inlet that connects the water pump, and the delivery port department of water pump can lead to and connect the fluid-discharge tube, and the fluid-discharge tube can be arranged water liquid to the wastewater disposal basin and carry out centralized processing, makes things convenient for the emission of waste water.

Meanwhile, in the embodiment, the long conveying screw 12 is an environment-friendly nylon screw such as polytetrafluoroethylene, so that the eggs 100 are not broken, and a sponge layer and the like can be fixed on the inner wall surface of the screw groove as required, so that the eggs are further prevented from being broken.

Then, the egg 100 falls out from the long placing groove 25 at the rightmost end and enters the top arc-shaped groove 331 of the corresponding receiving plate 33, at this time, the proximity switch senses the egg 100, and then the sensing signal is transmitted to the control host, the control host controls the operation of a pneumatic system (the pneumatic system is a common structure and comprises an air pump and a control valve communicated with the air pump, the control valve is communicated with the waste material pushing cylinder 49, the pushing cylinder 36, the pressing cylinder 45 and the waste material pushing cylinder 49 through a connecting pipe and is not detailed any more, the proximity switch, the air pump, the control valve, the host of the laser cutting head 44, the transmission motor 432 and the like are all electrically connected with the control host, the laser cutting head 44 is electrically connected with the host through an electric connecting line and is a common structure and is not detailed any more), the push rod of the corresponding pushing cylinder 36 is controlled to retract, and the transverse moving block 31 of the receiving plate 33 moves outwards, meanwhile, the push rod of the other push cylinder 36 pushes to move the corresponding transverse moving block 31 to the middle part, so that the material receiving plate 33 faces the output end of the conveying mechanism, and subsequent material receiving of the eggs 100 can be performed;

the material receiving plate 33 of the egg 100 which is just moved out and is placed with the egg 100 is pushed by a push rod of a pressing cylinder 45, so that two pressing roller bodies 431 are pressed on the left side and the right side of the top of the egg 100, a buffer spring 47 has a buffer effect when the pressing roller bodies 431 are pressed downwards to prevent the egg 100 from being broken, then, a transmission motor 432 is operated to rotate the pressing roller bodies 431, so as to drive the egg 100 to rotate, meanwhile, the laser cutting head 44 can cut the egg 100 by laser through adjusting the frequency, the power and other numerical values of the laser cutting head 44, the laser cutting head 44 irradiates the laser onto the egg 100, the middle part of the egg 100 is annularly cut through the laser through the rotation of the egg 100 to form two halves, and after the middle part of the egg 100 is cut, the upper parts of the two ends of the egg 100 are upwards inclined due to the arc-shaped bottom surfaces at the front and the back sides of the top arc-shaped groove 331, the bottom ends of the two halves are separated, so that yolk and egg white in the egg 100 flow out from the discharging through groove 332 along the main discharging pipe 333, the discharging end of the main discharging pipe 333 is opposite to the material receiving basin, then the laser cutting head 44 stops running, the transmission motor 432 also stops running, the push rod of the pressing air cylinder 45 retracts, the push rod of the waste material pushing air cylinder 49 pushes the eggshell at the top arc-shaped groove 331 out from the waste material discharging port 48 and discharges the eggshell along the inclined waste material guiding groove 481, wherein the outer end of the inclined waste material guiding groove 481 is provided with a waste material receiving box for receiving waste materials, and the operation is very convenient;

after the processing is finished, the egg is returned to the original position, and meanwhile, the egg 100 at the other material receiving plate 33 is just received to be processed, so that the processing is very convenient, the effect is good, and the efficiency is high.

The egg white and yolk after peeling will flow out from the main discharging pipe 333, enter the middle oblique guiding trough 300, and then enter the oblique liquid guiding trough 51 from the middle oblique guiding trough 300 (when the transverse moving block 31 moves, the middle oblique guiding trough 300 will be driven to move transversely along the oblique liquid guiding trough 51, no matter how it moves, the discharging end of the middle oblique guiding trough 300 will extend into the oblique liquid guiding trough 51, a moving trough is formed on the upper portion of the left side plate of the oblique liquid guiding trough 51, the discharging end of the middle oblique guiding trough 300 is inserted into the moving trough and moves back and forth along the moving trough), then enter the stirring barrel 62 along the discharging port of the oblique liquid guiding trough 51, run through the stirring motor 65, stir and scatter the egg white in the stirring barrel 62, after reaching a certain amount, the corresponding control button of the control host can be manually pressed, the electric control valve 631 is opened (the electric control valve 631 is electrically connected with a control host machine through an electric connection line, which is a product that can be purchased directly on the market and is not described in detail), at this time, the scattered egg liquid falls into the receiving tray 70 from the inclined discharge pipe 63, because the grid frame 701 is placed on the receiving tray, and the top surface of the grid frame 701 is lower than the top surface of the receiving tray 70, at this time, the egg liquid fills each forming groove, then, the electric control valve 631 is closed, the receiving tray 70 is moved forward and leaned on the front limiting elastic column 9 by moving the conveying motor 74, then, the push rod of the lifting cylinder 81 is pushed, so that the lifting plate 82 passes through the lower through hole 711, pushes the through hole 78 and lifts the receiving tray 70, thereby facilitating manual taking, then, the receiving tray 70 is manually conveyed into the steam box for use (the receiving tray 70 can also be manually poured into warm water or hot water in advance in the receiving tray 70 or manually added warm water or the like when the egg liquid is stirred in the stirring barrel body 62 according to needs, thereby make egg liquid and warm water mixture that receives in the take-up (stock) pan 70, make the water wave egg), it is very convenient, greatly reduced hand labor amount, place such as dining room in this embodiment can be applied to enterprise and public institution, are fit for evaporating egg in batches and use, and the effect is very good.

The stirring motor 65, the electric control valve 631 and the mobile conveying motor 74 are electrically connected with the control host through electric connection lines, electric components such as an air pump and a control valve of the pneumatic system are also electrically connected with the control host, the lifting cylinder 81 is communicated with the corresponding control valve through a connection pipe, the control valve is communicated with the air pump through a connection pipe, and the components such as the pneumatic system and the control host are common components and are not detailed.

The above embodiments are only for illustrating the utility model and are not to be construed as limiting the utility model, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the utility model, therefore, all equivalent technical solutions also belong to the scope of the utility model, and the scope of the utility model is defined by the claims.

Claims (9)

1. The utility model provides an automatic broken shell of laser stirring egg steamer, includes conveyor frame (10), eggshell separator (200), stirring host computer (60), and eggshell separator (200) are in conveyor frame's (10) right side department, and stirring host computer (60) are in the right side department of eggshell separator (200), its characterized in that: the conveying rack (10) comprises a long conveying shell (11), a long conveying screw rod (12) is placed in the long conveying shell (11), two ends of the long conveying screw rod (12) are connected to left and right end plates (13) of the long conveying shell (11) through bearings, a long through groove (14) is formed in the middle of a top plate of the long conveying shell (11), a conveying servo motor (15) is fixed on the left side wall of the left side plate of the long conveying shell (11), the conveying servo motor (15) drives the long conveying screw rod (12) to rotate, eggs (100) to be conveyed are located in the long through groove (14), and the bottom of the eggs (100) is located in a corresponding screw groove of the long conveying screw rod (12);

a feeding conveying frame (20) is fixed on the right side wall of the long conveying shell (11), and the right ends of two conveying chains (23) of the feeding conveying frame (20) are close to a material receiving plate (33) of the eggshell separating device (200) and correspond to the material receiving plate (33); the bottom end of a main discharge pipe (333) of the eggshell separating device (200) is fixedly provided with a feed end of a middle inclined guide groove body (300) and is communicated with the middle inclined guide groove body (300), a material receiving transition frame (50) is arranged between the eggshell separating device (200) and the stirring main machine (60), an inclined liquid guide groove body (51) is arranged on the material receiving transition frame (50), and discharge ends of all the middle inclined guide groove bodies (300) extend into the inclined liquid guide groove body (51) and are communicated with the inclined liquid guide groove body (51); the stirring main machine (60) is positioned at one side of the discharge end of the inclined liquid guide groove body (51), the discharge end of the inclined liquid guide groove body (51) is inserted and sleeved in a slot formed at the top of a side plate of a stirring barrel body (62) of the stirring main machine (60), and the discharge end of the inclined liquid guide groove body (51) is communicated with the stirring barrel body (62); an inclined discharge pipe (63) is fixed at the lower part of one side plate of the stirring barrel body (62), and the feed end of the inclined discharge pipe (63) is communicated with the stirring barrel body (62);

the movable material receiving device is arranged on the ground around the stirring barrel body (62), and a material receiving disc (70) arranged on the movable material receiving device corresponds to the discharge end of the inclined discharge pipe (63).

2. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 1, characterized in that: a spray cover body (16) is arranged in the middle of the long conveying shell (11), a lifting mechanism (17) is arranged on the top surface of a top plate of the spray cover body (16), the bottom end of a lifting screw (171) of the lifting mechanism (17) extends into the spray cover body (16) and is fixed with a main spray shell (161), a plurality of spray heads (162) are communicated with the bottom surface of a bottom plate of the main spray shell (161), and the spray heads (162) face the long through groove (14);

a sterilization cover (18) is fixed on the top surface of the right part of the long conveying shell (11), a plurality of ultraviolet sterilization lamps (181) are fixed on the bottom surface of the top plate of the sterilization cover (18), and the ultraviolet sterilization lamps (181) face the long through groove (14).

3. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 2, characterized in that: a discharge through hole (111) is formed in the middle of the top surface of the bottom plate of the long conveying shell (11), the top of the discharge pipe (112) is located in the discharge through hole (111), and the outer side wall of the top of the discharge pipe (112) is fixed on the inner side wall of the discharge through hole (111);

inclined wall surfaces are formed on the top surfaces of the bottom plates of the long conveying shells (11) on the left side, the right side, the front side and the rear side of the discharge through hole (111), and one side, far away from the discharge through hole (111), of each inclined wall surface is higher than one side, close to the discharge through hole (111).

4. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 2, characterized in that: elevating system (17) are including elevator motor (172), and the bottom surface of elevator motor (172) is fixed on the roof of the fixed motor frame of the roof top surface that sprays the cover body (16), and the bottom surface that the roof of motor frame was stretched out to the bottom of the output shaft of elevator motor (172) has lift swivel nut (173) through the coupling joint, lifting screw (171) plug bush is in the through-hole that the roof middle part that sprays the cover body (16) has, and the top surface and the spiro union that the through-hole was stretched out at the top of lifting screw (171) are in lift swivel nut (173), and the bottom surface of through-hole is stretched out to the bottom of lifting screw (171).

5. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 2, characterized in that: the left part and the right part of the feeding conveying frame (20) are respectively provided with a transmission rotating shaft (21), two ends of the transmission rotating shaft (21) are connected to the front side plate and the rear side plate of the feeding conveying frame (20) through bearings, conveying chain wheels (22) are fixed to the front part and the rear part of the transmission rotating shaft (21), conveying chains (23) are tensioned on the two corresponding conveying chain wheels (22), two ends of a plurality of guide rollers (24) extending forwards and backwards are fixed on the two conveying chains (23), and a long placing groove (25) is formed between every two adjacent guide rollers (24);

a driving servo motor (26) is fixed on the outer side wall of one side plate of the feeding conveying frame (20), and the driving servo motor (26) drives the corresponding transmission rotating shaft (21) to rotate;

the left transmission rotating shaft (21) is close to the right end plate (13);

an upper support frame (27) is fixed on the top surfaces of the front side plate and the rear side plate of the feeding conveying frame (20), a plurality of air blowing ventilators (28) are fixed on the top plate of the upper support frame (27), and air outlets of the air blowing ventilators (28) face to long placing grooves (25) corresponding to the right lower side.

6. The automatic laser shell breaking, stirring and egg steaming machine as claimed in claim 1, wherein: the eggshell separating device (200) comprises a transverse moving support frame (30), the transverse moving support frame (30) is positioned on the right side of a feeding conveying frame (20), two transverse moving blocks (31) are arranged on the transverse moving support frame (30), connecting support frames (32) are fixed on the top surfaces of the two transverse moving blocks (31), a material receiving plate (33) is installed above the connecting support frames (32), a top arc-shaped groove (331) is formed in the middle of the top surface of the material receiving plate (33), and a discharging through groove (332) is formed in the middle of the bottom surface of the top arc-shaped groove (331);

the roof top surface of joint support frame (32) is fixed with main mount (40), install main hold-down mechanism (41) on the roof top surface of main mount (40), the roof below that compresses tightly regulating plate (42) of main hold-down mechanism (41) is in main mount (40), compress tightly the bottom surface of regulating plate (42) and install down and compress tightly frame (43), the roof top surface middle part of frame (43) is fixed with laser cutting head (44) down, the bottom of the nozzle of laser cutting head (44) stretches out the bottom surface of the roof of frame (43) down and is facing to top arc recess (331).

7. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 6, characterized in that: a main discharge pipe (333) is fixed in the middle of the bottom surface of the material receiving plate (33), the top of the main discharge pipe (333) is vertically aligned and communicated with the discharge through groove (332), and the bottom of the main discharge pipe (333) extends out of a central through hole (321) formed in the middle of a top plate of the connecting support frame (32);

the main pressing mechanism (41) comprises a plurality of pressing cylinders (45), all the pressing cylinders (45) are fixed on the top surface of a top plate of the main fixing frame (40), the bottom ends of push rods of all the pressing cylinders (45) extend out of the bottom surface of the top plate of the main fixing frame (40) and are fixed on the top surface of the same pressing plate (46), a plurality of buffer springs (47) are fixed on the bottom surface of the pressing plate (46), the pressing adjusting plate (42) is fixed on the bottom ends of all the buffer springs (47), and the top ends of the buffer springs (47) are fixed on the bottom surfaces of the corresponding pressing plates (46);

the front side and the rear side of the bottom surface of the pressing adjusting plate (42) are both fixed with connecting plates, the top plate of the lower pressing frame (43) is fixed on the bottom surfaces of the two corresponding connecting plates, two pressing roller bodies (431) are arranged between the two side plates at the front part and the rear part of the lower pressing frame (43), the two pressing roller bodies (431) are arranged at the left part and the right part between the two side plates of the lower pressing frame (43) in parallel, two ends of each pressing roller body (431) are connected on the two side plates of the lower pressing frame (43) through bearings, a transmission motor (432) is fixed on the outer side wall of one side plate of the lower pressing frame (43), the transmission motor (432) drives the corresponding pressing roller body (431) to rotate, and the two pressing roller bodies (431) correspond to eggs (100) placed in the top arc-shaped groove (331);

the shaping of curb plate below middle part of the outside department of main mount (40) has waste material discharge gate (48), is fixed with waste material push cylinder (49) on the lateral wall of the curb plate of the inboard department of main mount (40), and the tip of the push rod of waste material push cylinder (49) passes the inside wall of the curb plate of the inboard department of main mount (40) and is fixed with slurcam (491), and slurcam (491) are facing to waste material discharge gate (48), and the egg (100) of treating the operation are in between slurcam (491) and waste material discharge gate (48).

8. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 1, characterized in that: the stirring main machine (60) comprises a fixed rack (61), and a stirring barrel body (62) is fixed at the upper part of the fixed rack (61);

a plurality of side supporting rods (630) are fixed on the outer side wall of the top of the stirring barrel body (62), an upper fixing plate (64) is fixed on the top surfaces of all the side supporting rods (630), a stirring motor (65) is fixed in the middle of the top surface of the upper fixing plate (64), the bottom end of an output shaft of the stirring motor (65) extends out of the bottom surface of the upper fixing plate (64) and is connected with a vertical stirring shaft (66) through a coupler, an egg-beating stirring head (661) is fixed at the bottom of the vertical stirring shaft (66), and the egg-beating stirring head (661) is positioned in the stirring barrel body (62);

the discharge end of the oblique liquid guide groove body (51) is inserted and sleeved in a slot formed at the top of a side plate of the stirring barrel body (62).

9. The automatic laser shell breaking stirring egg steaming machine as claimed in claim 1, characterized in that: the movable material receiving device comprises a movable fixing bottom plate (71), the movable fixing bottom plate (71) is fixed on the ground, end fixing plates (72) are fixed to the front portion and the rear portion of the top surface of the movable fixing bottom plate (71), two ends of a main transverse moving screw (73) are connected to the two end fixing plates (72) through bearings, a movable conveying motor (74) is fixed to the outer side wall of one end fixing plate (72), the movable conveying motor (74) drives the main transverse moving screw (73) to rotate, a material receiving moving block (75) is in threaded connection with the main transverse moving screw (73), a placing installation groove body (76) is fixed to the top surface of the material receiving moving block (75), and a material receiving disc (70) is placed in a placing groove formed in the middle of the top surface where the installation groove body (76) is placed;

the left part and the right part of the bottom plate for placing the installation groove body (76) are all formed with a pushing through hole (78), the pushing through hole (78) corresponds to a lower through hole (711) in the front of the movable fixing bottom plate (71), a lower installation cavity (80) is arranged on the ground right below the lower through hole (711), a lifting cylinder (81) is fixed on the bottom surface of the lower installation cavity (80), a lifting plate (82) is fixed on the top end of a push rod of the lifting cylinder (81), and the lifting plate (82) faces to the lower through hole (711).

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