Disclosure of Invention
The invention provides an egg boiler convenient for taking eggs, aiming at overcoming the defects of the prior art.
In order to achieve the purpose, the invention adopts the following technical scheme: an egg boiler convenient for taking eggs comprises a heating seat, a heating cavity and a top cover, wherein the heating cavity is arranged at the top of the heating seat, the top cover is arranged at the top of the heating cavity, a surrounding plate is arranged on the side wall of the heating cavity, the top cover is arranged at the top of the surrounding plate, an air outlet hole is formed in the top of the heating seat, a switch button is arranged on the side wall of the heating seat, a processing box is arranged on one side of the heating seat, a conveying channel communicated with the heating cavity is arranged in the processing box, a material receiving box is arranged on one side of the processing box, a material receiving cavity is arranged in the material receiving box, a seventh through hole communicated with the conveying channel is formed in the; place the egg and carry out heat treatment in the heating intracavity, make the egg boiled in the heating intracavity, the egg enters into the transfer passage after boiling, transport the egg through the transfer passage, make the egg move to connecing the material intracavity along the transfer passage inner wall, collect the egg through the take-up (stock) pan, with the solitary collection of egg in the take-up (stock) pan, avoid directly stretching the hand to get into the egg of taking of heating intracavity, prevent to heat the steam scald user of intracavity, realize doing instant purpose promptly, the use of the egg boiler of being convenient for.
Preferably, a first chute is arranged on the inner wall of the material receiving cavity, a third connecting plate is arranged in the first chute, a third supporting plate matched with the material receiving disc is arranged at the bottom of the third connecting plate, a fourth supporting plate is arranged at the top of the third connecting plate, and the third supporting plate and the fourth supporting plate are respectively arranged on two sides of the third connecting plate; the third supporting plate is arranged at the bottom of the material receiving disc, and when the material receiving disc needs to be taken out of the material receiving cavity, the third connecting plate is pulled upwards along the first chute, so that the third connecting plate drives the third supporting plate to move upwards, the material receiving disc is driven to move upwards along the material receiving cavity, the material receiving disc is taken out of the material receiving cavity, and the material receiving disc is convenient to clean; the fourth backup pad plays limiting displacement to the third connecting plate, avoids in the third connecting plate excessively enters into first spout, is convenient for take out the third connecting plate from first spout through the fourth backup pad to can be convenient take out the take-up (stock) pan from connecing the material intracavity.
Preferably, a second sliding groove is formed in the inner wall of the first sliding groove, and a sliding strip matched with the second sliding groove is arranged on the side wall of the third connecting plate; a second supporting spring is arranged at the bottom of the first sliding groove; the third connecting plate is limited by the matching of the sliding strip and the second sliding groove, so that the third connecting plate is prevented from falling out of the first sliding groove, and the third connecting plate can only move up and down along the inner wall of the first sliding groove; the third connecting plate is supported by the second supporting spring, the receiving disc is taken out from the receiving cavity under the action of the third connecting plate, and eggs can be taken conveniently.
Preferably, the bottom of the material receiving cavity is provided with a supporting block, the supporting block is provided with a third supporting spring, one end of the third supporting spring is provided with a fifth supporting plate, and the material receiving disc is arranged on the fifth supporting plate; the fifth support plate provides a support effect for the material receiving disc, and the third support spring and the second support spring are matched with each other to share pressure for the second support spring and provide a stable support effect for the material receiving disc; through the setting of supporting shoe and fifth backup pad, make take-up (stock) pan and connect the material chamber bottom to have the certain distance, be convenient for take out the take-up (stock) pan from connecing the material intracavity under the effect of third connecting plate.
Preferably, a plurality of fourth limiting plates are arranged on the fifth supporting plate, and second limiting grooves matched with the material receiving disc are formed in the fifth supporting plate by the fourth limiting plates; the fourth limiting plate plays a limiting role in the material receiving disc, the material receiving disc is stably fixed on the fifth supporting plate, dislocation of the material receiving disc is avoided, eggs are made to just fall on the material receiving disc when falling out of the conveying channel, and a good bearing effect is achieved on the eggs.
Preferably, a first through cavity is formed in the bottom of the processing box, and a water storage box is arranged in the first through cavity; a first movable groove is formed in the processing box, a water conveying wheel matched with the water storage box is arranged in the first movable groove, and the water conveying wheel penetrates through the conveying channel; when the egg entered into the transfer passage in, the water delivery wheel began to rotate, and water delivery wheel contacted with the cold water in the retaining box during rotation, drove the cold water in the retaining box up-motion under the effect of water delivery wheel, sprinkled cold water in the transfer passage, and the egg contacted with cold water when passing through the transfer passage, accomplished the cold water treatment of soaking to the egg before the egg was shelled, conveniently peeled off the eggshell, promoted the effect of shelling of egg, accomplished the quick shelling of egg.
Preferably, an equipment cavity is arranged in the heating seat, a stepping motor is arranged in the equipment cavity, a first movable cavity is arranged above the equipment cavity, an output shaft of the stepping motor penetrates through the first movable cavity, and a first driving wheel is arranged on the output shaft of the stepping motor; a transmission rod in transmission fit with the first transmission wheel is arranged in the first movable cavity, an egg steaming rack is arranged in the heating cavity, and the egg steaming rack is in transmission fit with the transmission rod; the stepping motor starts to work after eggs are cooked, provides power for the egg steaming frame, drives the egg steaming frame to rotate, enables the eggs on the egg steaming frame to rotate to the position of the conveying channel, enables the eggs to enter the conveying channel conveniently, completes the shelling treatment of the eggs, and facilitates taking of the eggs.
The invention has the following advantages: place the egg and carry out heat treatment in the heating intracavity, make the egg boiled in the heating intracavity, the egg enters into the transfer passage after boiling, transport the egg through the transfer passage, make the egg move to connecing the material intracavity along the transfer passage inner wall, collect the egg through the take-up (stock) pan, with the solitary collection of egg in the take-up (stock) pan, avoid directly stretching the hand to get into the egg of taking of heating intracavity, prevent to heat the steam scald user of intracavity, realize doing instant purpose promptly, the use of the egg boiler of being convenient for.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1-19, an egg boiler convenient for taking eggs comprises a heating seat 1, a heating cavity arranged at the top of the heating seat 1, and a top cover 2 arranged at the top of the heating cavity, wherein a surrounding plate 12 is arranged on the side wall of the heating cavity, the top cover 2 is arranged at the top of the surrounding plate 12, the top cover is made of glass, and a second connecting plate 21 is arranged at the top of the top cover, so that the top cover can be conveniently taken; the top cover is provided with an air outlet, so that the phenomenon that the air pressure in the heating cavity is too large is avoided, and the pressure relief effect is realized; the top of the heating seat 1 is provided with an air outlet 13, the side wall of the heating seat 1 is provided with a switch button 11, the switch button controls the working state of the heating seat, the structural principle of the heating seat is the same as that of an egg boiler on the market, and the description is omitted; an egg steaming frame 6 is arranged in the heating cavity, a plurality of second supporting plates 14 for placing the egg steaming frame are further arranged on the heating seat, the egg steaming frame is made of plastic materials, egg placing holes 61 are formed in the egg steaming frame and used for placing eggs, the eggs are fixed, and the eggs are stably prevented from being placed on the egg steaming frame; a stepping motor 161 capable of driving the egg steaming rack 6 to rotate is arranged in the heating seat 1; a processing box 3 is arranged on one side of the heating seat 1, a conveying channel 31 is arranged in the processing box 3, the conveying channel is obliquely arranged, one end of the conveying channel is communicated with the heating cavity, the other side of the conveying channel is communicated with the outside of the processing box, and when eggs enter the conveying channel 31, the eggs can be shelled; after eggs are cooked, the egg steaming frame is driven to rotate under the action of the stepping motor, so that the eggs on the egg steaming frame enter the conveying channel, the eggs are taken out of the heating cavity, the eggs are convenient to take, the eggs are directly taken out of the heating cavity under the guide of the conveying channel, a user is prevented from being scalded by high temperature in the heating cavity, and the eggs can be directly taken without waiting for the eggs to be cooled to room temperature in the heating cavity; when the egg moved in the conveyer way, shelling was carried out to the egg under the effect of conveyer way and was handled, and the eggshell is peeled off the back egg and is continued to advance along the conveyer way, avoids the eggshell to glue again and glue on the egg surface after peeling off, improves the effect of shelling the egg.
A first through cavity 36 is formed in the bottom of the processing box 3, and a water storage box 4 is arranged in the first through cavity 36; a first movable groove 32 is arranged in the processing box 3, a water delivery wheel 7 matched with the water storage box 4 is arranged in the first movable groove 32, and the water delivery wheel 7 penetrates through the conveying channel 31; the bottom of the first through cavity is provided with a first supporting spring 361, the top of the first supporting spring is provided with a first supporting plate 362, the water storage box is arranged on the first supporting plate, and one end of the first supporting plate is provided with a guide groove which is convenient for pushing the water storage box into the first through cavity; cold water is filled in the water storage box, and the cold water is room-temperature plain boiled water; the water conveying wheel can rotate in the first movable groove, and the conveying channel penetrates through the middle of the water conveying wheel; before the egg cooker is used, cold water is filled into the water storage box, the water storage box is filled into the first through cavity, the first supporting plate is pressed downwards to enable the first supporting spring to reach the deformation limit, the water storage box is pushed to the bottom of the first through cavity, the water storage box is prevented from colliding with the water delivery wheel when entering the first through cavity, after the water storage box is pushed to the bottom of the first through cavity, the water storage box is released, the first supporting spring pushes the water storage box to move towards the top of the first through cavity, and therefore the bottom of the water delivery wheel enters the water storage box and is in contact with the cold water in the water storage box, and the cold water in the water storage box is conveniently brought into the conveying channel by the water delivery wheel; when the egg entered into the transfer passage in, the water delivery wheel began to rotate, and water delivery wheel contacted with the cold water in the retaining box during rotation, drove the cold water in the retaining box up-motion under the effect of water delivery wheel, sprinkled cold water in the transfer passage, and the egg contacted with cold water when passing through the transfer passage, accomplished the cold water treatment of soaking to the egg before the egg was shelled, conveniently peeled off the eggshell, promoted the effect of shelling of egg, accomplished the quick shelling of egg.
An equipment cavity 16 is arranged in the heating base 1, the equipment cavity is arranged in the middle of the heating base, the stepping motor 161 is arranged in the equipment cavity 16, a first movable cavity 17 is arranged above the equipment cavity 16, an output shaft of the stepping motor 161 is arranged in the first movable cavity 17 in a penetrating manner, and a first driving wheel 1611 is arranged on the output shaft of the stepping motor 161; a transmission rod 18 in transmission fit with the first transmission wheel 1611 is arranged in the first movable cavity 17, and the egg steaming rack 6 is in transmission fit with the transmission rod 18; the bottom of the transmission rod is provided with a second transmission groove 181, the first transmission wheel penetrates through the second transmission groove, and the first transmission wheel and the second transmission groove are mutually matched to facilitate the stepping motor to drive the first connecting rod to rotate; the stepping motor starts to work after eggs are cooked, provides power for the egg steaming frame, drives the egg steaming frame to rotate, enables the eggs on the egg steaming frame to rotate to the position of the conveying channel, enables the eggs to enter the conveying channel conveniently, completes the shelling treatment of the eggs, and facilitates taking of the eggs.
A sleeve 15 matched with the first movable cavity 17 is arranged at the top of the heating seat 1, and the transmission rod 18 is arranged in the sleeve 15 in a penetrating manner; a second driving wheel 183 in driving fit with the egg steaming frame 6 is arranged at the top of the driving rod 15, a first limiting plate 181 is arranged at the bottom of the driving rod 18, a second movable groove matched with the first limiting plate 181 is arranged on the inner wall of the first movable cavity 17, and the first limiting plate can rotate in the second movable groove; the sleeve pipe protects the transmission rod, so that the transmission rod is prevented from being influenced by the outside during rotation, and the transmission stability of the transmission rod on the egg steaming rack is improved; through mutually supporting of first limiting plate and second activity groove, play the supporting role to the transfer line, fix the transfer line in first activity intracavity, the step motor of being convenient for carries out the transmission to evaporating egg frame.
A movable pipe 151 is arranged on the side wall of the sleeve 15, a push rod 152 penetrates through the movable pipe 151, and a plurality of cams 184 matched with the push rod 152 are arranged on the transmission rod 18; the number of the cams corresponds to the number of the egg placing holes, preferably, the number of the egg placing holes is four, the number of the cams corresponds to the number of the egg placing holes, and the position of each cam corresponds to the position of each egg placing hole, namely, a flange of each cam corresponds to one egg placing hole all the time; a second movable cavity 1511 is arranged on the inner wall of the movable tube 151, a second limiting plate 1521 is arranged on the push rod 152, the second limiting plate 1521 is arranged in the second movable cavity 1511, a return spring 1512 connected with the second limiting plate 1521 is arranged in the second movable cavity 1511, one end of the return spring is fixedly connected to the inner wall of the second movable cavity, and the other end of the return spring is fixedly connected to the second limiting plate; the step motor drives the egg steaming rack to rotate by a certain angle at a single time, taking four cams and four egg placing holes as an example, the single rotation angle of the step motor is 90 degrees, and the step motor drives the egg steaming rack to rotate by driving the transmission rod to rotate; when the stepping motor drives the egg steaming rack to rotate by a corresponding angle, eggs on the egg steaming rack are opposite to the conveying channel, the transmission rod rotates to drive the cam to rotate along with the rotation of the egg steaming rack, when the egg placing hole rotates to the position opposite to the conveying channel, the flange of the cam moves to the position of the movable pipe, the flange of the cam pushes the push rod to move outwards, the eggs are pushed into the conveying channel under the action of the push rod, and the egg shelling treatment is completed after the eggs enter the conveying channel; through the mutual matching of the push rod and the egg steaming frame, eggs can conveniently enter the conveying channel, the eggs can be conveniently taken, and the automatic shelling of the eggs is realized; when a first egg enters the conveying channel to complete shelling treatment, the stepping motor drives the egg steaming rack to rotate by a corresponding angle again, the flange of the cam is disengaged from the push rod when the egg steaming rack rotates, the second limiting plate moves towards the bottom of the second movable cavity under the action of the return spring to drive the push rod to move towards the inner part of the sleeve, and the push rod is prevented from blocking the egg; and after the egg steaming frame rotates to 90 degrees under the action of the stepping motor, the second egg moves to the front of the push rod, the push rod extends out of the movable pipe under the action of the second cam, and the eggs are pushed into the conveying channel, so that the eggs enter the conveying channel one by one to complete the shelling treatment of the eggs.
A first through hole 66 matched with the sleeve 15 is formed in the egg steaming frame 6, a connecting frame 63 matched with the first through hole 66 is formed in the egg steaming frame 6, the connecting frame is of an arc-shaped structure, and the structural strength of the connecting frame is improved by utilizing an arch principle; the connecting frame 63 is provided with a second through hole 631 matched with the push rod 152, the top of the connecting frame 63 is provided with a first connecting rod 64, and the bottom of the first connecting rod 64 is provided with a first transmission groove 641 matched with the second transmission wheel 183; a plurality of fifth through holes 62 are formed in the egg steaming rack, hot air can conveniently pass through the fifth through holes, and the egg cooking speed is increased; the cavity 67 is formed in the egg steaming frame, so that the structural strength of the egg steaming frame is improved, the bearing capacity of the egg steaming frame is improved, and the service life of the egg steaming frame is prolonged; the top of each first connecting rod is provided with four second connecting rods 65 which are uniformly arranged above the corresponding second connecting rod, so that the egg steaming rack is convenient to take; after the egg steaming frame is arranged in the heating cavity, the first transmission groove is sleeved on the second transmission wheel, the first transmission groove is matched with the second transmission wheel, the transmission effect of the stepping motor on the egg steaming frame is realized under the mutual matching of the first transmission groove and the second transmission wheel, the egg steaming frame is rotated under the effect of the stepping motor, eggs on the egg steaming frame are conveniently pushed into the conveying channel, and the integrated operation of egg shelling is realized.
A conveying belt 33 is arranged in the conveying channel 31, and a driving roller 331 matched with the conveying belt 33 is arranged on the inner wall of the conveying channel 31; a transmission cavity is arranged on one side of the conveying channel 31, and a driving motor 39 in transmission fit with the transmission roller 331 is arranged in the transmission cavity; the conveyor belt is provided with a plurality of first convex ribs 332, the friction force between the conveyor belt and the eggs is increased through the first convex ribs, the egg clamping effect is achieved, and the eggs are prevented from slipping on the conveyor belt; two groups of driving rollers are respectively arranged at two ends of the conveying belt and play a role in fixing the conveying belt, and the driving motor provides power for the conveying belt so that the conveying belt rotates in the conveying channel; the conveying belt is arranged in the conveying channel, so that eggs can move in the conveying channel conveniently, the eggs can move along the conveying channel quickly under the mutual matching of the self gravity and the conveying belt, and the egg shelling efficiency is improved; after the eggs enter the conveying channel, the eggs are placed on the transmission belt, and the eggs are prevented from being clamped in the conveying channel to influence the shelling treatment of the eggs.
A first transmission tooth 73 is arranged on the inner wall of the water delivery wheel 7, a transmission shaft 330 is arranged in the first movable groove 32, a third transmission wheel 3301 matched with the first transmission tooth 73 is arranged on the transmission shaft 330, and the transmission shaft 330 is in transmission fit with the driving motor 39; one end of the transmission shaft is provided with a third connecting rod 3302, and the third connecting rod is provided with a first bevel gear 340; a fourth driving wheel 391 is sleeved on an output shaft of the driving motor, a fifth driving wheel 310 matched with the fourth driving wheel is rotatably connected in the driving cavity, a second bevel gear 320 matched with the first bevel gear is arranged on the fifth driving wheel, and the second bevel gear and the fifth driving wheel are coaxially arranged; under the matching of the first bevel gear and the second bevel gear, the rotation direction of the driving motor is changed, so that the driving motor can simultaneously drive the water conveying wheel to rotate when driving the conveying belt to rotate; the driving motor drives the water conveying wheel to rotate while providing kinetic energy for the conveying belt, so that the kinetic energy for rotation is provided for the water conveying wheel, the number of driving pieces in the egg boiler is reduced, the size of the egg boiler is reduced, and the egg boiler is suitable for common families; the driving motor is used for driving the conveying belt and the water delivery wheel simultaneously, the kinetic energy of the driving motor is utilized to the maximum extent, the kinetic energy of the driving motor is reasonably utilized, and the energy consumption of the egg cooker is saved.
A first connecting plate 71 is arranged on the side wall of the water delivery wheel 7, a third limiting plate 72 is arranged on the first connecting plate 71, and a first limiting groove matched with the third limiting plate 72 is arranged on the inner wall of the first movable groove 32; the water delivery wheel 7 is provided with a plurality of water storage cavities 75, one side of each water storage cavity 75 is provided with a first baffle 77, each water storage cavity is separated by the first baffle, so that each water storage cavity can independently achieve the purpose of water storage, the top of each water storage cavity 75 is provided with a second baffle 74, the top of each water storage cavity is sealed by the second baffle, and a water inlet is reserved for storing water in the water storage cavity; the bottom of the water storage cavity 75 is provided with a third through hole 76 communicated with the conveying channel 31; the first baffle plate and the second baffle plate are matched with each other to improve the water storage capacity in the water storage cavity; when the water delivery wheel rotates, the water storage cavity at the bottom of the water delivery wheel enters the water storage box and is contacted with cold water in the water storage box, the cold water enters the water storage cavity through the water inlet along with the rotation of the water delivery wheel, and a part of the cold water is collected in the water storage cavity under the blocking of the first baffle and the second baffle; along with the rotation of water delivery wheel, make the retaining chamber of water delivery wheel bottom rotate to water delivery wheel top, under the action of water gravity, make the cold water in the retaining chamber fall from third through hole department, wash the cold water in the retaining chamber to in the transfer passage, thereby carry out cold water treatment to the egg, be convenient for follow-up shelling of egg handles, avoid the egg to glue on the eggshell, improve the pleasing to the eye degree of shelling the egg.
A fourth through hole 121 matched with the conveying channel 31 is formed in the enclosing plate 12, a turnover plate 122 is arranged in the fourth through hole 121, and the push rod 152 is opposite to the fourth through hole 121; the turning plates are rubber flexible sheets, one ends of the turning plates are fixedly connected to the inner wall of the fourth through hole, the two turning plates are fixedly connected to the inner wall of the upper end and the inner wall of the lower end of the fourth through hole respectively, when eggs are heated in the heating cavity, the turning plates are in a closed state, the two turning plates are matched with each other to seal the fourth through hole, hot air in the heating cavity is prevented from entering the conveying channel to prolong the cooking time of the eggs, and the energy consumption of the egg cooker is reduced; after the eggs are cooked, the eggs are pushed into the fourth through hole under the matching of the egg steaming frame and the push rod, the turnover plate is turned over under the action of the push rod, the fourth through hole is opened, the eggs can enter the conveying channel conveniently, the eggs can be peeled conveniently, and the eggs can be taken conveniently.
The conveying channel 31 is internally provided with rolling rollers 35, one side of each rolling roller 35 is provided with a scraper 38, the rolling rollers are three groups and are arranged at the top of the conveying channel, the rolling rollers are arranged above the conveying belt, and the rolling rollers rotate when contacting with eggs; the egg removes along the transfer passage under the effect of conveyer belt, plays the broken shell to the egg and handles under the mutual extrusion of conveyer belt and grinding roller, makes the egg be crowded garrulous under the effect of grinding roller after being watered by cold water, is convenient for carry out the processing of shelling to the egg.
A sixth through hole is formed in the bottom of the conveying channel 31, a second through cavity communicated with the sixth through hole is formed in the bottom of the processing box 3, and a waste material box 5 is detachably connected in the second through cavity; first logical chamber one side is located in the second logical chamber, and the eggshell that is peeled off from the egg moves to sixth through-hole department along the transfer passage, makes the eggshell drop to the second through-hole intracavity from sixth through-hole department, collects the eggshell through waste material box, avoids the eggshell to stay to exist in the transfer passage, prevents that the eggshell from blockking up the transfer passage, makes the eggshell separate quick follow transfer passage internal discharge after the egg, reduces the secondary contact probability of egg and eggshell, promotes the effect of shelling to the egg.
A plurality of rotating rollers 34 are arranged on the inner wall of the sixth through hole, gaps exist among the rotating rollers, so that the eggshells can conveniently fall off from the rotating rollers, the rotating rollers 34 are arranged at one end of the conveyor belt 33, and the scraper 38 is arranged above the rotating rollers 34; the rotating roller is provided with a third convex rib, so that the friction force between the rotating roller and the eggs is increased, the rotating roller provides a supporting force for the eggs, the eggs can normally pass through the top of the sixth through hole, and the eggs are prevented from falling into the waste box from the sixth through hole; through the mutual cooperation of changeing roller and scraper blade, provide the pulling force for the egg respectively from the upper and lower face of egg, make the eggshell torn under the effect of pulling force, realize the purpose of shelling to the egg.
A plurality of mounting holes 352 are formed in the rolling roller 35, a first connecting spring 353 is arranged in each mounting hole 352, and a projection 351 is arranged at one end of each first connecting spring 353; increase the roughness on rolling roller surface through the lug to increase and roll the pressure of roller to the egg surface, the egg drives the roller rotation of rolling from rolling roller bottom through the time, makes the abundant egg that contacts with of lug on rolling the roller through the rotation of rolling the roller, plays the extrusion effect to the egg, plays the broken shell purpose to the egg under the pressure effect, makes the eggshell crowded garrulous under the effect of pressure, is convenient for accomplish the purpose of shelling to the egg.
The top of the conveying channel 31 is provided with an installation seat 37, an installation groove 371 is arranged in the installation seat 37, a plurality of second connecting springs 372 are arranged in the installation groove 371, and the scraper 38 is arranged at the bottom of the second connecting springs 372; the bottom of the scraper 38 is provided with a plurality of second ribs 381; under the action of the second connecting spring, the scraper plate is adaptive to the size of the eggs, the contact effect of the scraper plate and the eggs is increased, the contact effect of the eggs and the scraper plate is increased through the second convex ribs, and the eggs are prevented from directly sliding through the bottom of the scraper plate; when the egg passes through from the scraper blade bottom, under second connecting spring's effect, increase the pressure of scraper blade to the egg to make the scraper blade extrusion egg surface, under the effect of the protruding muscle of second, make the egg scrape off the eggshell on the egg when moving along the scraper blade surface, realize the purpose of shelling to the egg, promote the efficiency of shelling to the egg.
A material receiving box 8 is arranged on one side of the processing box 3, a material receiving cavity 81 is arranged in the material receiving box 8, a seventh through hole 86 communicated with the conveying channel 31 is arranged on the side wall of the material receiving box 8, and a material receiving plate 85 is arranged in the material receiving cavity 81; the receiving tray can be taken out from the receiving cavity, eggs entering the conveying channel drop in the receiving tray through the seventh through hole when the eggs are conveyed to move, and the stripped eggs are collected through the receiving tray.
A first sliding groove is formed in the inner wall of the material receiving cavity 81, a third connecting plate 82 is arranged in the first sliding groove, a third supporting plate 823 matched with the material receiving plate 85 is arranged at the bottom of the third connecting plate 82, a fourth supporting plate 822 is arranged at the top of the third connecting plate 823, and the third supporting plate 823 and the fourth supporting plate 822 are respectively arranged on two sides of the third connecting plate 82; the third supporting plate is arranged at the bottom of the material receiving disc, and when the material receiving disc needs to be taken out of the material receiving cavity, the third connecting plate is pulled upwards along the first chute, so that the third connecting plate drives the third supporting plate to move upwards, the material receiving disc is driven to move upwards along the material receiving cavity, the material receiving disc is taken out of the material receiving cavity, and the material receiving disc is convenient to clean; the fourth supporting plate has a limiting effect on the third connecting plate, so that the third connecting plate is prevented from excessively entering the first chute, the third connecting plate can be conveniently taken out of the first chute through the fourth supporting plate, and the receiving tray can be conveniently taken out of the receiving cavity; when the receiving tray is placed into the receiving cavity, the third connecting plate is inserted into the first chute, the third connecting plate is pushed into the bottom of the first chute along the first chute, and then the receiving tray is placed into the receiving cavity, so that the receiving tray is placed above the third supporting plate, and the receiving tray can be taken out from the receiving cavity through the third connecting plate.
A second sliding groove is formed in the inner wall of the first sliding groove, and a sliding strip 811 matched with the second sliding groove is formed in the side wall of the third connecting plate 82; a second supporting spring 87 is arranged at the bottom of the first sliding chute; the third connecting plate is limited by the matching of the sliding strip and the second sliding groove, so that the third connecting plate is prevented from falling out of the first sliding groove, and the third connecting plate can only move up and down along the inner wall of the first sliding groove; the third connecting plate is supported by the second supporting spring, the receiving disc is taken out from the receiving cavity under the action of the third connecting plate, and eggs can be taken conveniently.
The bottom of the receiving cavity 81 is provided with a supporting block 83, a third supporting spring 831 is arranged on the supporting block 83, a fifth supporting plate 84 is arranged at one end of the third supporting spring 831, and the receiving disc 85 is arranged on the fifth supporting plate 84; the fifth support plate provides a support effect for the material receiving disc, and the third support spring and the second support spring are matched with each other to share pressure for the second support spring and provide a stable support effect for the material receiving disc; through the setting of supporting shoe and fifth backup pad, make take-up (stock) pan and connect the material chamber bottom to have the certain distance, be convenient for take out the take-up (stock) pan from connecing the material intracavity under the effect of third connecting plate.
A plurality of fourth limiting plates 841 are arranged on the fifth supporting plate 84, and second limiting grooves matched with the material receiving plate 85 are formed on the fifth supporting plate 84 by the fourth limiting plates 841; the fourth limiting plates are four and are respectively arranged at four corners of the fifth supporting plate; the fourth limiting plate plays a limiting role in the material receiving disc, the material receiving disc is stably fixed on the fifth supporting plate, dislocation of the material receiving disc is avoided, eggs are made to just fall on the material receiving disc when falling out of the conveying channel, and a good bearing effect is achieved on the eggs.
Before the egg boiler is used, boiled water at room temperature is filled into the water storage box, and the water storage box is filled into the first through cavity; the waste material box is placed into the second through cavity, the top cover is opened, the egg steaming rack is placed into the heating cavity, the egg steaming rack is matched with the transmission rod, eggs are placed in the egg placing holes, and the top cover is covered to heat the eggs; after eggs are cooked, the stepping motor drives the egg steaming frame to rotate, the eggs on the egg steaming frame are pushed into the conveying channel under the action of the push rod, and the eggs move along the conveying channel under the action of the conveying belt; the conveying belt drives the water conveying wheel to move when moving, cold water in the water storage box is poured onto the conveying belt under the action of the water conveying wheel, the eggs are cooled, the eggs are contacted with the rolling roller after being poured by the cold water along with the movement of the eggs, the eggs are extruded and crushed under the mutual matching of the rolling roller and the conveying belt, egg shells are crushed, the egg shells continue to move along with the conveying belt after being crushed, the eggs move from the conveying belt to the rotating roller under the action of inertia, the egg shells are separated from the eggs under the matching of the rotating roller and the scraping plate, the eggs continue to move along the conveying channel under the action of gravity, and are discharged from one end of the conveying channel, and the egg shelling treatment is completed; the peeled eggshells fall into a waste material box from the gap of the rotary roller, and eggshell pieces are collected, so that the eggshells can be cleaned uniformly; the egg that falls out in the conveyer way drops in the take-up (stock) pan, collects the egg through the take-up (stock) pan, upwards stimulates the third connecting plate afterwards, makes the third connecting plate drive the take-up (stock) pan up and moves, pulls out the take-up (stock) pan from the material receiving cavity to conveniently take out the take-up (stock) pan, be convenient for take the egg on the take-up (stock) pan, be convenient for simultaneously wash the take-up (stock) pan.
The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.