CN109259274B

CN109259274B - Laver cake production equipment

Info

Publication number: CN109259274B
Application number: CN201811459674.2A
Authority: CN
Inventors: 李新平
Original assignee: Xiangshan Jinxiu Shengping Food Co ltd
Current assignee: Xiangshan Jinxiu Shengping Food Co ltd
Priority date: 2018-11-30
Filing date: 2018-11-30
Publication date: 2020-05-26
Anticipated expiration: 2038-11-30
Also published as: CN109259274A

Abstract

The invention relates to the technical field of agricultural product processing equipment, and discloses laver cake production equipment which comprises a rack, wherein a lifting mechanism, a cleaning mechanism and a drying mechanism are arranged in the rack from top to bottom; the drying mechanism comprises an open barrel, a first partition plate and a second partition plate are arranged in the barrel, a plurality of fans are arranged on the upper surface of the second partition plate, a heating box is arranged below the second partition plate, an electric heating plate is arranged in the heating box, a plurality of air outlet nozzles are further arranged on the heating box, and each air outlet nozzle is located under each fan. During the use, put into the storage case with the laver, through mutually supporting of elevating system, first motor, revolving stage, connecting rod, realize the washing and the dehydration to the laver, finally under the effect of stoving mechanism, dry the laver.

Description

Laver cake production equipment

Technical Field

The invention relates to the technical field of agricultural product processing equipment, in particular to laver cake production equipment.

Background

The laver is an important variety in coastal aquaculture in China, the fresh laver is easy to deteriorate and difficult to sell and store for a long time, the harvested fresh laver must be made into a laver cake through processing procedures such as cleaning, dehydration, drying, press forming and the like, the long-term storage can be realized, the processing procedure of cleaning is a key for making the laver cake, most of the traditional cleaning procedures are that the laver is dried through natural drying or a circulating air drying treatment mode after the fresh laver is simply cleaned manually, and then the laver is made into the laver cake.

Because the fresh laver is cultured in seawater for a long time, and the seawater is rich in cations such as sodium ions, magnesium ions, calcium ions and the like, and anions such as chloride ions, sulfate ions and the like, if the fresh laver is not thoroughly cleaned, the ions are attached to the laver, and the taste of the laver is affected and bitter due to the overhigh ion concentration; in addition, the laver is dried by natural drying or drying treatment by circulating air, the efficiency is extremely low, and the laver is easy to rot and deteriorate in the process.

Disclosure of Invention

The invention aims to provide laver pie production equipment to solve the problems of poor taste and low efficiency of laver pie produced by the traditional processing technology.

In order to achieve the above purpose, the basic scheme of the invention is as follows: a laver cake production device is characterized in that: the automatic ejection type drying machine comprises a rack, wherein a lifting mechanism, a cleaning mechanism and a drying mechanism are sequentially arranged in the rack from top to bottom, the lifting mechanism is connected with a first motor, an output shaft of the first motor is fixedly provided with a rotary table, the rotary table is hinged with a plurality of connecting rods, the tail ends of the connecting rods are hinged with a triangular frame, the triangular frame is connected with a storage box, the bottom of the storage box is hinged with a box door capable of automatically ejecting by pressing, and the side wall of the storage box is provided with a through hole; the cleaning mechanism comprises an annular water tank, a water inlet pipe and a water outlet pipe are respectively connected to two ends of the annular water tank, a flow guide pipe is communicated between the water inlet pipe and the water outlet pipe, a filter and a water pump are arranged on the flow guide pipe, a water quality detection mechanism is arranged at the pipe orifice of the water outlet pipe, a controller is further arranged in the rack, the input end of the controller is electrically connected with the water quality detection mechanism, and the output end of the controller is electrically connected with the lifting mechanism; drying mechanism includes uncovered formula barrel, be equipped with first baffle and second baffle from top to bottom in the barrel in proper order, first baffle upper surface is equipped with a plurality of platforms of placing, second baffle upper surface is equipped with a plurality of fans, second baffle below is equipped with the heating box, be equipped with the electric plate in the heating box, the water inlet has been seted up at the top of heating box, still be equipped with a plurality of nozzles of giving vent to anger on the heating box.

The technical principle of the scheme is as follows: during the use, will treat that fresh laver of processing is put into the storage tank, and first motor drives the revolving stage and rotates, and the revolving stage drives each storage tank through connecting rod and tripod and is circular motion, and some sea water that adheres to on the laver receives centrifugal force and is outwards thrown away. After the laver is subjected to seawater removal, the lifting mechanism is adjusted, so that the storage box moves towards the direction of the annular water tank until the storage box is completely immersed in the annular water tank; the remaining part of seawater attached to the laver is gradually diluted under the washing of water flow in the annular water tank; when the water quality detector detects that the salt content in water reaches a preset value, the water quality detection mechanism feeds back a signal to the controller, and the controller controls the lifting mechanism to lift upwards, so that the material storage tank and the annular water tank are separated from each other.

Then, the first motor is closed, so that the connecting rod is in a vertical state; the connecting rod and the material storage box are pushed to move downwards through the lifting mechanism, and the material storage box penetrates through the inner ring of the annular water tank and extends into the barrel; restart first motor, make the connecting rod drive the storage case and continue to carry out circular motion, will remain the moisture in the laver through wasing and outwards throw away under the effect of centrifugal force, and fall to the barrel inner wall, and flow in the water inlet of heating box along the barrel inner wall, under the effect of electric plate, the water evaporation becomes high temperature vapor, spout to the fan in the nozzle of giving vent to anger and go out from, make the fan rotate, form the steam of vortex formula in making the barrel, steam upwards shifts, and permeate in the laver, dry the laver.

The beneficial effect of this scheme: 1. mutually support between first motor, revolving stage, the connecting rod, go out the adnexed partly sea water on the laver in the storage case through the mode that the centrifugation was spin-dried in advance, prevent the stoving in-process, salt grain adhesion is on the laver surface. 2. Through washing the laver in the annular water tank, redundant seawater is washed away, the content of salt in water can be monitored in real time by matching with a water quality detection mechanism, and the cleaning degree of the laver is judged. 3. The laver washed by the clean water is centrifugally dried again, the thrown water flows into a heating box at the bottom of the barrel body to generate high-temperature water vapor which acts on the laver body again to further dry the laver body.

Furthermore, the water quality detection mechanism comprises an insulating frame and a detection box, the insulating frame is fixedly mounted on the rack, the insulating frame is connected with a first conductive column and a second conductive column, and the water outlet pipe is provided with a notch for matching the first conductive column and the second conductive column; the detection box is internally provided with a power supply and a protection resistor, the inner wall of the detection box is provided with a first conductive terminal and a second conductive terminal, the outer wall of the detection box is provided with a light shield and a switch, an indicating lamp and a photosensitive sensor are arranged in the light shield, and the photosensitive sensor is electrically connected with the input end of the controller; and conducting wires are sequentially connected among the first conducting posts, the first conducting terminals, the indicating lamps, the power supply, the switch, the protective resistor, the second conducting terminals and the second conducting posts to form a closed loop. Ions with sufficient concentration in the water flowing through the water outlet pipe are used as a conductive medium, so that the indicator lamp emits light; after the ions in the mixed water are gradually filtered and adsorbed by the filter, the ions in the water flowing through the water outlet pipe are gradually reduced until the ion concentration in the water is reduced to the extent that the ions can not be used as a conductive medium, so that an open circuit is formed, the seawater attached to the laver is basically washed clean, at the moment, the indicator lamp stops emitting light, the photosensitive sensor in the light shield feeds back the sensed signal to the controller, and the controller controls the lifting mechanism to ascend, so that the material storage box is driven to ascend, and the material storage box is separated from the annular water tank.

Furthermore, the notch of the water outlet pipe is connected with a plurality of arc-shaped clamping plates in a sliding mode, and the arc-shaped clamping plates and the inner wall of the water outlet pipe are connected with springs. The arc-shaped clamping block is used for clamping and fixing the first conductive column and the second conductive column respectively, so that the first conductive column and the second conductive column are prevented from swinging due to the fact that water flow in the water outlet pipe is fast, and the first conductive column and the second conductive column are prevented from being in contact with each other in the swinging process to cause short circuit and influence a detection result.

Further, elevating system includes the base plate of fixed mounting in the frame, install the second motor on the base plate, and the second motor is connected with the output electricity of controller, the output shaft of second motor has the carousel, the threaded groove has been seted up to the lower surface of carousel, the edge of base plate is equipped with a plurality of supports, the one end of support articulates there is the sector gear, sector gear connection has hinge bar group, hinge bar group is including a plurality of hinge bars of articulated in proper order, be connected with the link between the hinge bar at same level, the end of each hinge bar group articulates jointly has the bottom plate, first motor fixed mounting is on the bottom plate. The second motor rotates to drive the rotary table to rotate, so that the threaded groove on the rotary table drives the sector gear to rotate in the rotating process, and the sector gear drives the hinge rod group to extend downwards or contract upwards, so that the height of the storage box is indirectly adjusted.

Furthermore, a plurality of rolling balls are arranged on the inner ring of the annular water tank, the rolling balls are distributed at equal intervals, and the outer surfaces of the rolling balls are coated with rubber layers. The connecting rod offsets with the spin of annular basin inner circle at the pivoted in-process, and the spin carries on spacingly to the connecting rod, and the rubber layer of spin surface can be less connecting rod and spin between frictional force simultaneously, prevents connecting rod wearing and tearing.

Further, the rotary table comprises a first rotary table and a second rotary table which are fixedly connected with each other, the cross section of the first rotary table is larger than that of the second rotary table, and the connecting rod is hinged at the joint of the first rotary table and the second rotary table. In the process of suppressing the laver, the end of the connecting rod offsets with the first rotary table, so that the connecting rod is prevented from deflecting due to the reaction force, and the laver is prevented from being unevenly stressed.

Furthermore, the aperture of the air outlet nozzle is 3-5 cm. Guarantee from the nozzle that gives vent to anger spun high temperature vapor can have sufficient impact force to drive the fan rotatory to make the interior vortex formula steam that forms of barrel, and make steam constantly rise, and permeate in the laver, dry the laver.

Further, the first motor and the second motor are both servo motors. The servo motor is stable in operation, and the generated noise is small.

Drawings

FIG. 1 is a schematic structural view of a laver sheet production apparatus according to an embodiment of the present invention;

FIG. 2 is a state diagram of a dehydration process of the laver sheet manufacturing apparatus according to the embodiment of the present invention;

FIG. 3 is a state diagram illustrating a process of pressing laver in a laver sheet manufacturing apparatus according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of the lifting mechanism of FIG. 1;

FIG. 5 is a schematic structural view of a washing mechanism in the laver sheet manufacturing apparatus according to the embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a water quality detection mechanism in a laver cake production apparatus according to an embodiment of the present invention;

FIG. 7 is a top view of the outlet tube of FIG. 1;

fig. 8 is a schematic structural view of the turntable in fig. 1.

Detailed Description

The present invention will be described in further detail below by way of specific embodiments:

reference numerals in the drawings of the specification include: lifting mechanism 1, substrate 11, second motor 12, support 13, turntable 14, sector gear 15, annular water tank 2, water inlet pipe 21, water outlet pipe 22, notch 221, arc-shaped clamping plate 222, rolling ball 23, first motor 3, turntable 31, first turntable 311, second turntable 312, connecting rod 32, tripod 33, storage box 34, draft tube 4, filter 41, water pump 42, hinge rod group 5, connecting frame 51, bottom plate 52, cylinder 6, first partition plate 61, second partition plate 62, placing table 63, fan 64, heating box 7, electric heating plate 71, water inlet 72, air outlet nozzle 73, detection box 8, light shield 81, indicator lamp 811, photosensitive sensor 812, power supply 82, switch 83, protective resistor 84, first conductive terminal 85, second conductive terminal 86, conducting wire 87, insulating frame 9, first conductive column 91 and second conductive column 92.

Embodiments are substantially as shown in figures 1 to 8 of the accompanying drawings: a laver cake production device comprises a frame, wherein a lifting mechanism 1, a cleaning mechanism and a drying mechanism are sequentially arranged in the frame from top to bottom, the lifting mechanism 1 comprises a base plate 11 fixedly installed on the frame, a second motor 12 is installed on the base plate 11, the second motor 12 is electrically connected with the output end of a controller, the output shaft of the second motor 12 is connected with a rotary table 14, the lower surface of the rotary table 14 is provided with a threaded groove, the edge of the base plate 11 is provided with a plurality of supports 13, one end of each support 13 is hinged with a sector gear 15, the sector gear 15 is connected with a hinge rod group 5, the hinge rod group 5 comprises a plurality of hinge rods which are sequentially hinged, a connecting frame 51 is connected between the hinge rods at the same horizontal height, the tail end of each hinge rod group 5 is jointly hinged with a bottom plate 52, and; the bottom plate 52 is provided with a first motor 3, an output shaft of the first motor 3 is fixedly provided with a rotary table 31, the rotary table 31 comprises a first rotary table 311 and a second rotary table 312 which are fixedly connected with each other, the cross section of the first rotary table 311 is larger than that of the second rotary table 312, a connecting rod 32 is hinged at the joint of the first rotary table 311 and the second rotary table 312, the tail end of the connecting rod 32 is hinged with a tripod 33, the tripod 33 is connected with a material storage box 34, the bottom of the material storage box 34 is hinged with a box door capable of automatically popping up by pressing, and the side wall of the material storage box 34;

the cleaning mechanism comprises an annular water tank 2, a plurality of rolling balls 23 are arranged on the inner ring of the annular water tank 2, the rolling balls 23 are distributed at equal intervals, and the outer surfaces of the rolling balls 23 are coated with rubber layers; the two ends of the annular water tank 2 are respectively connected with a water inlet pipe 21 and a water outlet pipe 22, a flow guide pipe 4 is communicated between the water inlet pipe 21 and the water outlet pipe 22, a filter 41 and a water pump 42 are arranged on the flow guide pipe 4, a water quality detection mechanism is arranged at the pipe orifice of the water outlet pipe 22 and comprises an insulation frame 9 and a detection box 8, the insulation frame 9 is fixedly installed on a rack, a first conductive column 91 and a second conductive column 92 are connected onto the insulation frame 9, the water outlet pipe 22 is provided with a notch 221 used for being matched with the first conductive column 91 and the second conductive column 92, a plurality of arc-shaped clamping plates 222 are connected to the notch 221 of the water outlet pipe 22 in a sliding mode; a power supply 82 and a protection resistor 84 are arranged in the detection box 8, a first conductive terminal 85 and a second conductive terminal 86 are arranged on the inner wall of the detection box 8, a light shield 81 and a switch 83 are arranged on the outer wall of the detection box 8, an indicator lamp 811 and a photosensitive sensor 812 are arranged in the light shield 81, and the photosensitive sensor 812 is electrically connected with the input end of the controller; the first conductive post 91, the first conductive terminal 85, the indicator 811, the power supply 82, the switch 83, the protection resistor 84, the second conductive terminal 86 and the second conductive post 92 are sequentially connected with a conducting wire 87 to form a closed loop; a controller is also arranged in the frame, the input end of the controller is electrically connected with the photosensitive sensor 812, and the output end of the controller is electrically connected with the second motor 12;

the drying mechanism comprises an open type barrel 6, a first partition plate 61 and a second partition plate 62 are sequentially arranged in the barrel 6 from top to bottom, a plurality of placing platforms 63 are arranged on the upper surface of the first partition plate 61, a plurality of fans 64 are arranged on the upper surface of the second partition plate 62, a heating box 7 is arranged below the second partition plate 62, an electric heating plate 71 is arranged in the heating box 7, a water inlet 72 is formed in the top of the heating box 7, the water inlet 72 is arranged close to the inner wall of the barrel 6, a plurality of air outlet nozzles 73 are further arranged on the heating box 7, and the aperture of each air outlet nozzle 73 is 3-5 cm.

Specifically, the first motor 3 and the second motor 12 are both servo motors.

The specific implementation mode of the scheme is as follows: in the initial state, the connecting rod 32 is in a vertical state, the storage box 34 is hinged at the tail end of the connecting rod 32, and the storage box 34 is positioned right above the inner ring of the annular water tank 2; when the device is used, fresh laver to be processed is placed into the material storage boxes 34, the first motor 3 is started, the output shaft of the first motor 3 drives the rotary table 31 to rotate, the rotary table 31 rotates to drive the connecting rods 32 to do circular motion around the center of the rotary table 31, and the connecting rods 32 drive the material storage boxes 34 to do synchronous circular motion through the triangular supports 33; a part of seawater attached to fresh laver is thrown out through the through holes on the side wall of the storage tank 34 due to the centrifugal force, so that a part of seawater is separated from the laver itself.

After a period of seawater removal operation, the rotation speed of the first motor 3 is adjusted, the material storage tank 34 keeps on circular motion, and the material storage tank 34 is just above the annular water tank 2, that is, the motion track of the material storage tank 34 matches the shape and size of the annular water tank 2. Then, the lifting mechanism 1 is adjusted, the second motor 12 rotates to drive the rotary table 14 to rotate, so that the threaded groove on the rotary table 14 drives the sector gear 15 to rotate in the rotating process, the sector gear 15 drives the hinge rod set 5 to extend downwards, and the base plate 52 and the first motor 3 on the base plate 52 are pushed to move downwards, so that the storage tank 34 moves towards the annular water tank 2 until the storage tank 34 is completely immersed in the annular water tank 2 (as shown in fig. 1). The water pump 42 continuously injects water into the annular water tank 2, so that the water in the annular water tank 2 and the draft tube 4 continuously circulates, and when the water flows into the storage box 34, a part of residual seawater attached to the laver is brought out along with the water flow, filtered by the filter 41, and used for adsorbing and filtering other ions such as chloride ions and sodium ions in the mixed water, and the filtered clean water continuously enters the annular water tank 2 to clean the laver.

In the process, the water quality detection mechanism detects the cleaned water quality in real time, the first conductive column 91 and the second conductive column 92 extend into the water outlet pipe 22 through the notch 221 of the water outlet pipe 22 and are in contact with the mixed water, and the arc-shaped clamping blocks at the notch 221 of the water outlet pipe 22 respectively clamp and fix the first conductive column 91 and the second conductive column 92; the power supply 82 is turned on, the switch 83 is turned on, and the first conductive column 91, the first conductive terminal 85, the indicator lamp 811, the power supply 82, the switch 83, the protective resistor 84, the second conductive terminal 86 and the second conductive column 92 are connected through the wire 87 to form a closed loop, and ions with sufficient concentration in the mixed water are used as a conductive medium, so that the indicator lamp 811 emits light; when the ions in the mixed water are gradually filtered and adsorbed by the filter 41, the ions in the water flowing through the water outlet pipe 22 gradually decrease until the concentration of the ions in the water decreases to a level where the ions cannot be used as a conductive medium, thereby forming an open circuit, which indicates that the seawater attached to the laver is basically washed clean, at this time, the indicator lamp 811 stops emitting light, the photosensitive sensor 812 in the light shield 81 feeds back the sensed signal to the controller, the controller controls the second motor 12 to operate, and the lifting mechanism 1 ascends, thereby driving the material storage box 34 to ascend and separate from the annular water tank 2.

Then, the first motor 3 is turned off, so that the connecting rod 32 and the material storage box 34 gradually return to the initial state, that is, the connecting rod 32 is in a vertical state; adjusting the lifting mechanism 1, pushing the connecting rod 32 and the material storage box 34 to move downwards through the lifting mechanism 1, and enabling the material storage box 34 to penetrate through the inner ring of the annular water tank 2 and extend into the cylinder 6; restart first motor 3, make connecting rod 32 continue to carry out circular motion, connecting rod 32 offsets at the pivoted in-process and the spin 23 of annular basin 2 inner circle, spin 23 carries on spacingly to connecting rod 32, connecting rod 32 drives storage case 34 and carries out circular motion (as shown in fig. 2) in step, will remain the moisture in the laver after the washing and outwards throw away under the effect of centrifugal force, and fall to barrel 6 inner wall, and flow into the water inlet 72 of heating box 7 along barrel 6 inner wall, under the effect of electric plate 71, the water evaporation becomes high temperature vapor, gush out and go out to fan 64 in giving vent to anger nozzle 73, make fan 64 rotate, make the hot gas that forms the vortex formula in the barrel 6, hot gas upwards shifts, and permeate in the laver, dry the laver.

After the laver is dried, the lifting mechanism 1 is adjusted, so that a box door which is pressed and automatically popped out at the bottom of the storage box 34 is abutted against the placing platform 63, the box door is subjected to the reaction force from the placing platform 63 to enable one side of the box door to be automatically popped out, the box door is opened to form a 30-degree opening, the dried laver falls onto the placing platform 63 from the storage box 34 along the opened box door, then the storage box 34 is made to move up and down once, the opened box door is abutted against the laver on the placing platform 63, the box door is closed, then the lifting mechanism 1 is repeatedly adjusted, the storage box 34 is made to reciprocate up and down (as shown in figure 3), in the process, the laver is continuously pressed at the bottom of the storage box 34, and finally, the laver cakes are pressed into complete laver cakes.

The above description is only an example of the present invention, and general knowledge of the technical solutions and the like known in the art is not described herein too much. It should be noted that, for those skilled in the art, without departing from the technical solution of the present invention, several variations and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. A laver cake production device is characterized in that: the automatic ejection type drying machine comprises a rack, wherein a lifting mechanism, a cleaning mechanism and a drying mechanism are sequentially arranged in the rack from top to bottom, the lifting mechanism is connected with a first motor, an output shaft of the first motor is fixedly provided with a rotary table, the rotary table is hinged with a plurality of connecting rods, the tail ends of the connecting rods are hinged with a triangular frame, the triangular frame is connected with a storage box, the bottom of the storage box is hinged with a box door capable of automatically ejecting by pressing, and the side wall of the storage box is provided with a through hole; the cleaning mechanism comprises an annular water tank, a water inlet pipe and a water outlet pipe are connected to two ends of the annular water tank respectively, a flow guide pipe is communicated between the water inlet pipe and the water outlet pipe, a filter and a water pump are arranged on the flow guide pipe, a water quality detection mechanism is arranged at a pipe orifice of the water outlet pipe, a controller is further arranged in the rack, the water quality detection mechanism comprises an insulating frame and a detection box, the insulating frame is fixedly mounted on the rack, a first conductive column and a second conductive column are connected to the insulating frame, and a notch used for being matched with the first conductive column and the second conductive column is formed in the water outlet; the detection box is internally provided with a power supply and a protection resistor, the inner wall of the detection box is provided with a first conductive terminal and a second conductive terminal, the outer wall of the detection box is provided with a light shield and a switch, an indicating lamp and a photosensitive sensor are arranged in the light shield, and the photosensitive sensor is electrically connected with the input end of the controller; the first conductive column, the first conductive terminal, the indicator light, the power supply, the switch, the protective resistor, the second conductive terminal and the second conductive column are sequentially connected with a conducting wire to form a closed loop, and the output end of the controller is electrically connected with the lifting mechanism; drying mechanism includes uncovered formula barrel, be equipped with first baffle and second baffle from top to bottom in the barrel in proper order, first baffle upper surface is equipped with a plurality of platforms of placing, second baffle upper surface is equipped with a plurality of fans, second baffle below is equipped with the heating box, be equipped with the electric plate in the heating box, the water inlet has been seted up at the top of heating box, still be equipped with a plurality of nozzles of giving vent to anger on the heating box.

2. The apparatus for producing a laver cake as set forth in claim 1, wherein: the notch of outlet pipe goes out sliding connection and has a plurality of arc grip blocks, and the arc grip block is connected with the spring with outlet pipe inner wall.

3. The laver cake producing apparatus according to claim 2, wherein: elevating system includes the base plate of fixed mounting in the frame, install the second motor on the base plate, and the second motor is connected with the output electricity of controller, the output shaft of second motor has the carousel, the threaded groove has been seted up to the lower surface of carousel, the edge of base plate is equipped with a plurality of supports, the one end of support articulates there is the sector gear, sector gear is connected with articulated rod group, articulated rod group is connected with the link including articulated a plurality of articulated links in proper order between the articulated link at same level, and the end of each articulated rod group articulates jointly has the bottom plate, first motor fixed mounting is on the bottom plate.

4. The laver cake producing apparatus according to claim 3, wherein: the annular water tank is characterized in that a plurality of rolling balls are arranged on the inner ring of the annular water tank, the rolling balls are distributed at equal intervals, and a rubber layer is coated on the outer surface of each rolling ball.

5. The laver cake producing apparatus according to claim 4, wherein: the rotary table comprises a first rotary table and a second rotary table which are fixedly connected with each other, the cross section of the first rotary table is larger than that of the second rotary table, and the connecting rod is hinged at the joint of the first rotary table and the second rotary table.

6. The apparatus for producing a laver cake as set forth in claim 5, wherein: the aperture of the air outlet nozzle is 3-5 cm.

7. The apparatus for producing a laver cake as set forth in claim 6, wherein: the first motor and the second motor are both servo motors.