CN118744446B - Laver cutting machine difficult to deform - Google Patents

Abstract

The present invention discloses a laver cutting machine that is not easy to deform, and the present invention relates to the field of laver processing technology, comprising a bottom plate, the side walls at both ends of the bottom plate are fixedly connected to the same mounting plate, the bottom side wall of the mounting plate is fixedly connected to a first electric telescopic rod, the telescopic end of the first electric telescopic rod is fixedly connected to a storage shell, and the bottom side wall of the storage shell is fixedly connected to a cutting plate. The present invention can avoid the formation of cracks and deformation at the cut part of the dry laver during the cutting process, and can also prevent the cut part of the dry laver from falling off when subjected to shear force, thereby reducing the waste of dry laver, and can also achieve edge locking at the cut part of the dry laver, preventing the cut part of the dry laver from falling off during transportation when the cut part of the dry laver is changed from a wet state to a dry state after cutting, thereby improving the efficiency and reliability of the device when cutting dry laver.

Description

Laver cutting machine difficult to deform

Technical Field

The invention belongs to the technical field of laver processing, and particularly relates to a laver cutting machine which is not easy to deform.

Background

In order to store and transport the laver, the laver is convenient to sell, the fresh laver is required to be dehydrated and dried to become dried laver, a hot air dryer or a dryer is generally used in the modern technology, the laver is put into equipment, and the laver is dried by hot air until the laver is completely dried.

After the dried laver is dried, the formed dried laver is cut to be uniform in size, the dried laver can be tidier in the packaging process and convenient to sort and sell, but in the prior art, when the dried laver is cut, a cutting machine is controlled by a worker to directly cut the dried laver, as the dried laver can be dehydrated in the drying process, the dried laver can become very fragile, cracks or breaks are generated at the cut part of the dried laver when the dried laver is cut, the cut part of the dried laver is deformed, the subsequent sales is influenced, meanwhile, the dried laver is cut to be subjected to shearing force, slag is easy to fall, more waste is caused in the cutting process, the raw material waste is caused, the production cost is increased, and the cutting efficiency and reliability of the dried laver in the cutting process are reduced.

For this reason, we propose a laver cutter which is not easily deformed to solve the above problems.

Disclosure of Invention

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

The utility model provides a laver cutting machine that is difficult for deformation, includes the bottom plate, the same mounting panel of both ends lateral wall fixedly connected with of bottom plate, the first electric telescopic handle of bottom lateral wall fixedly connected with of mounting panel, the shell is stored to the flexible end fixedly connected with of first electric telescopic handle, the bottom lateral wall fixedly connected with cutting plate of storing the shell, first cavity has been seted up to the inside of cutting plate, the top inner wall fixedly connected with of first cavity prevents deformation subassembly, the bottom lateral wall symmetry fixedly connected with blank pressing stoving subassembly of storing the shell, two first recesses have been seted up to the top lateral wall symmetry of bottom plate, two the equal fixedly connected with of inner wall of first recess carries the subassembly, the both ends lateral wall fixedly connected with of bottom plate reduces friction subassembly, the equal fixedly connected with of both ends lateral wall of bottom plate collects the subassembly.

Preferably, the deformation prevention component comprises a second electric telescopic rod fixedly connected with the inner wall of the top end of the first cavity, a piston is fixedly connected with the telescopic end of the second electric telescopic rod, the side wall of the piston is attached to the inner wall of the first cavity, a plurality of through holes are symmetrically formed in the side wall of the bottom end of the cutting plate, a pressure valve is fixedly connected to the side wall of the corresponding through hole, a water pump is fixedly connected to the side wall of the storage shell, the water inlet end of the water pump penetrates through the side wall of the storage shell and stretches out inwards, a connecting pipe is fixedly connected to the water outlet end of the water pump, a through hole is formed in the side wall of the cutting plate, a one-way valve is fixedly connected to the side wall of the corresponding through hole, and one end of the connecting pipe is fixedly communicated with the one-way valve.

Preferably, the blank pressing stoving subassembly is including storing two third electric telescopic handle of shell bottom lateral wall symmetry fixed connection, the equal fixedly connected with intercommunication shell of flexible end of third electric telescopic handle, the lateral wall fixedly connected with air pump of intercommunication shell, the end of giving vent to anger of air pump runs through the lateral wall of intercommunication shell inwards and stretches out, two a plurality of ventholes have all been seted up to the lateral wall of the opposite one end of intercommunication shell.

Preferably, the inner walls of the air outlet holes are fixedly connected with heating plates, the top side wall of the bottom plate is provided with a second groove, the inner walls of the second groove are symmetrically and fixedly connected with two fourth electric telescopic rods, the telescopic ends of the fourth electric telescopic rods are fixedly connected with supporting plates, two supporting plates are arranged in a gap between the supporting plates and are located under the cutting plates, and the length of the second groove is longer than that of the cutting plates.

Preferably, the conveying assembly comprises a first electric sliding rail fixedly connected with the inner wall of a first groove, two third grooves are symmetrically formed in the side wall of the top end of the bottom plate, two second electric sliding rails are fixedly connected with the inner wall of each third groove, a second sliding plate is slidably connected with the side wall of the top end of each second electric sliding rail, side plates are fixedly connected with the side walls of the top ends of the second sliding plates and the side walls of the top ends of the first sliding plates, a fifth electric telescopic rod is fixedly connected with the side walls of the side plates, and a U-shaped plate is fixedly connected with the telescopic end of the fifth electric telescopic rod.

Preferably, the upper end inner wall fixedly connected with sixth electric telescopic handle of U template, the equal fixedly connected with first splint of flexible end of sixth electric telescopic handle, the fourth recess has all been seted up to the bottom lateral wall of first splint, the equal fixedly connected with pressure sensor of top inner wall of fourth recess, one of them sixth recess has been seted up to the inner wall of first slide top U template, the inner wall fixedly connected with resistance plate of sixth recess, and the lateral wall fixedly connected with current-conducting plate of corresponding first splint, the lateral wall of current-conducting plate offsets with the varistor face of resistance plate and contacts, first slide and second slide are located the both sides of mounting panel respectively.

Preferably, the collection assembly comprises a seventh electric telescopic rod fixedly connected with the side walls at two ends of the bottom plate, the telescopic ends of the seventh electric telescopic rod are fixedly connected with a mounting block, the side walls of the mounting block are fixedly connected with an eighth electric telescopic rod, the telescopic ends of the eighth electric telescopic rod are fixedly connected with a supporting block, the side walls at the top ends of the supporting block are fixedly connected with a ninth electric telescopic rod, the telescopic ends of the ninth electric telescopic rod are fixedly connected with a connecting plate, the side walls of the connecting plate are fixedly connected with a fixing block, the top inner walls of the fixing block are fixedly connected with a tenth electric telescopic rod, the telescopic ends of the tenth electric telescopic rod are fixedly connected with a second clamping plate, and one end side walls of the bottom plate are fixedly connected with a collection box.

Preferably, the friction reducing assembly comprises a plurality of connecting columns fixedly connected with side walls at two ends of a bottom plate, one ends of the connecting columns are fixedly connected with eleventh electric telescopic rods, telescopic ends of the eleventh electric telescopic rods are fixedly connected with fixing frames, the inner walls of the fixing frames are rotationally connected with a plurality of first idler wheels, the side walls at the top ends of the bottom plate are provided with a plurality of fifth grooves, and the inner walls of the fifth grooves are rotationally connected with a plurality of second idler wheels.

Compared with the prior art, the invention has the beneficial effects that:

The deformation prevention component, the blank pressing drying component and the conveying component can prevent the dry laver cutting part from generating cracks in the cutting process to cause deformation, meanwhile, the dry laver cutting part can be prevented from falling slag when being subjected to shearing force, waste of the dry laver is reduced, production cost is reduced, the edge locking of the dry laver cutting part can be realized, the dry laver cutting part is prevented from being converted into a dry state from a wet state after the dry laver cutting, slag is removed in the transportation process, the heating temperature of the heating plate and the power of the air pump can be changed according to the thickness of the dry laver, the quick drying of the dry laver cutting part after the edge locking is facilitated, the drying efficiency and the drying quality of the dry laver cutting part are prevented from being reduced when the temperature and the air flow are too low or too high, and the efficiency and the reliability of the device for the dry laver cutting are improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic view of another angle structure of the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 in accordance with the present invention;

FIG. 4 is a schematic view of another angle structure of the present invention;

FIG. 5 is an enlarged view of portion B of FIG. 4 in accordance with the present invention;

FIG. 6 is a schematic diagram of a portion of the structure of the present invention;

FIG. 7 is a portion of the present invention schematic cross-sectional view of the structure;

FIG. 8 is a schematic diagram of a portion of a second embodiment of the present invention;

FIG. 9 is an enlarged view of portion C of FIG. 8 in accordance with the present invention;

FIG. 10 is a schematic diagram of a portion of a third embodiment of the present invention;

FIG. 11 is a schematic diagram of a portion of the structure of the present invention.

In the figure: 1. a bottom plate; 2. a mounting plate; 3. a first electric telescopic rod; 4. a storage case; 5. cutting a plate; 6. a first cavity; 7. an anti-deformation assembly; 71. a second electric telescopic rod; 72. a piston; 73. a pressure valve; 74. a water pump; 75. a connecting pipe; 76. a one-way valve; 8. a blank pressing and drying assembly; 81. a third electric telescopic rod; 82. a communication shell; 83. an air pump; 84. an air outlet hole; 85. a heating plate; 86. a second groove; 87. a fourth electric telescopic rod; 88. a support plate; 9. a first groove; 10. a transport assembly; 101. a first electric slide rail; 102. a third groove; 103. the second electric sliding rail; 104. a second slide plate; 105. a side plate; 106. a fifth electric telescopic rod; 107. a U-shaped plate; 108. a sixth electric telescopic rod; 109. a first clamping plate; 1010. a fourth groove; 1011. a pressure sensor; 1012. a sixth groove; 1013. a resistance plate; 1014. a conductive plate; 1015. a first slide plate; 11. reducing the friction assembly; 111. a connecting column; 112. an eleventh electric telescopic rod; 113. a fixed frame; 114. a first roller; 115. a fifth groove; 116. a second roller; 12. a collection assembly; 121. a seventh electric telescopic rod; 122. a mounting block; 123. an eighth electric telescopic rod; 124. a support block; 125. a ninth electric telescopic rod; 126. a connecting plate; 127. a fixed block; 128. a tenth electric telescopic rod; 129. a second clamping plate; 1210. and (5) collecting a box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The following electrical elements are electrically connected with a peripheral PLC controller.

Referring to fig. 1-11, a purple seaweed cutting machine that is difficult for deformation, including bottom plate 1, the same mounting panel 2 of both ends lateral wall fixedly connected with of bottom plate 1, the first electric telescopic handle 3 of bottom lateral wall fixedly connected with of mounting panel 2, the flexible end fixedly connected with of first electric telescopic handle 3 stores shell 4, the bottom lateral wall fixedly connected with cutting board 5 of storing shell 4, first cavity 6 has been seted up to the inside of cutting board 5, the top inner wall fixedly connected with of first cavity 6 prevents deformation subassembly 7, the bottom lateral wall symmetry fixedly connected with blank pressing stoving subassembly 8 of storing shell 4, two first recesses 9 have been seted up to the top lateral wall symmetry of bottom plate 1, the equal fixedly connected with of inner wall of two first recesses 9 carries subassembly 10, the both ends lateral wall fixedly connected with of bottom plate 1 reduces friction subassembly 11, the both ends lateral wall of bottom plate 1 all fixedly connected with collection subassembly 12.

In the embodiment, the deformation prevention assembly 7 comprises a second electric telescopic rod 71 fixedly connected with the inner wall of the top end of the first cavity 6, a piston 72 is fixedly connected with the telescopic end of the second electric telescopic rod 71, the side walls of the piston 72 are all attached to the inner wall of the first cavity 6, a plurality of through holes are symmetrically formed in the side walls of the bottom end of the cutting plate 5, a pressure valve 73 is fixedly connected to the inside of the corresponding through holes, a water pump 74 is fixedly connected to the side wall of the storage shell 4, the water inlet end of the water pump 74 penetrates through the side wall of the storage shell 4 and extends inwards, a connecting pipe 75 is fixedly connected to the water outlet end of the water pump 74, a through hole is formed in the side wall of the cutting plate 5, a one-way valve 76 is fixedly connected to the inside of the corresponding through hole, and one end of the connecting pipe 75 is fixedly communicated with the one-way valve 76;

The blank pressing drying assembly 8 comprises two third electric telescopic rods 81 symmetrically and fixedly connected with the side wall of the bottom end of the storage shell 4, the telescopic ends of the third electric telescopic rods 81 are fixedly connected with a communication shell 82, the side wall of the communication shell 82 is fixedly connected with an air pump 83, the air outlet end of the air pump 83 penetrates through the side wall of the communication shell 82 and extends inwards, and the side walls of the opposite ends of the two communication shells 82 are provided with a plurality of air outlet holes 84;

The inner walls of the air outlet holes 84 are fixedly connected with a heating plate 85, the top end side wall of the bottom plate 1 is provided with a second groove 86, the inner wall of the second groove 86 is symmetrically and fixedly connected with two fourth electric telescopic rods 87, the telescopic ends of the fourth electric telescopic rods 87 are fixedly connected with support plates 88, a gap between the two support plates 88 is positioned under the cutting plate 5, and the length of the second groove 86 is longer than that of the cutting plate 5;

The conveying assembly 10 comprises a first electric slide rail 101 fixedly connected with the inner wall of a first groove 9, two third grooves 102 are symmetrically formed in the side wall of the top end of the bottom plate 1, the inner walls of the two third grooves 102 are fixedly connected with a second electric slide rail 103, the side wall of the top end of the second electric slide rail 103 is slidably connected with a second slide plate 104, the side walls of the top ends of the second slide plate 104 and the first slide plate 1015 are fixedly connected with a side plate 105, the side wall of the side plate 105 is fixedly connected with a fifth electric telescopic rod 106, and the telescopic end of the fifth electric telescopic rod 106 is fixedly connected with a U-shaped plate 107;

The upper end inner wall fixedly connected with sixth electric telescopic handle 108 of U template 107, the equal fixedly connected with first splint 109 of flexible end of sixth electric telescopic handle 108, fourth recess 1010 has all been seted up to the bottom lateral wall of first splint 109, the equal fixedly connected with pressure sensor 1011 of top inner wall of fourth recess 1010, sixth recess 1012 has been seted up to the inner wall of one of them first slide 1015 top U template 107, the inner wall fixedly connected with resistance plate 1013 of sixth recess 1012, and the lateral wall fixedly connected with current-conducting plate 1014 of corresponding first splint 109, the lateral wall of current-conducting plate 1014 is inconsistent with the varistor face of resistance plate 1013, first slide 1015 and second slide 104 are located the both sides of mounting panel 2 respectively.

Specifically, can avoid the dry laver cutting part to produce the crackle and lead to deformation in the cutting process, can prevent simultaneously that dry laver cutting part from falling the sediment when receiving the shearing force, reduce the waste of dry laver, low production cost, and can realize the serging to dry laver cutting part, when preventing to dry laver cutting part from the wet state transition into dry state after cutting, dry laver cutting part is in transportation and falls the sediment, can also change the temperature of heating plate 85 heating and the power of air pump 83 according to the thickness of dry laver, be convenient for to dry fast drying behind the serging to dry laver cutting part, prevent temperature and air current low or too high lead to drying efficiency and stoving quality when drying dry laver cutting part reduce, efficiency and reliability when improving the device to dry laver cutting.

In the embodiment, the collection assembly 12 includes a seventh electric telescopic rod 121 fixedly connected with two end side walls of the bottom plate 1, the telescopic ends of the seventh electric telescopic rod 121 are fixedly connected with a mounting block 122, the side walls of the mounting block 122 are fixedly connected with an eighth electric telescopic rod 123, the telescopic ends of the eighth electric telescopic rod 123 are fixedly connected with a supporting block 124, the top end side walls of the supporting block 124 are fixedly connected with a ninth electric telescopic rod 125, the telescopic ends of the ninth electric telescopic rod 125 are fixedly connected with a connecting plate 126, the side walls of the connecting plate 126 are fixedly connected with a fixing block 127, the top end inner walls of the fixing block 127 are fixedly connected with a tenth electric telescopic rod 128, the telescopic ends of the tenth electric telescopic rod 128 are fixedly connected with a second clamping plate 129, and one end side walls of the bottom plate 1 are fixedly connected with a collection box 1210.

Specifically, after the drying of the dried laver cutting part is completed, the second sliding rail is controlled to start, the cut dried laver is driven to move towards the collecting box 1210, then the seventh electric telescopic rod 121 is controlled to shrink, the fixing block 127 is driven to move, the second clamping plate 129 is located above the cut dried laver, then the tenth electric telescopic rod 128 is controlled to start, the cut dried laver is fixed by the second clamping plate 129 and the fixing block 127, then the eighth electric telescopic rod 123 is controlled to start, one end of the cut dried laver is driven to move towards the collecting box 1210, when one end of the cut dried laver is located at the side end of the collecting box 1210, at the moment, the ninth electric telescopic rod 125 is controlled to move upwards, the inner wall of the bottom end of the fixing block 127 is higher than the upper surface of the base plate 1, then the tenth electric telescopic rod 128 is controlled to start, the second clamping plate 129 is driven to restore to the original position, then the seventh electric telescopic rod 121 is controlled to stretch out, the fixing block 127 is driven to move towards the opposite direction of the collecting box 1210, at the moment, the cut dried laver can drop in the collecting box 1210, and the dried laver is finished to collect the dried laver.

In the embodiment, the friction reducing assembly 11 includes a plurality of connecting columns 111 fixedly connected to side walls at two ends of the bottom plate 1, one ends of the connecting columns 111 are fixedly connected with eleventh electric telescopic rods 112, telescopic ends of the eleventh electric telescopic rods 112 are fixedly connected with fixing frames 113, inner walls of the fixing frames 113 are rotatably connected with a plurality of first rollers 114, top side walls of the bottom plate 1 are provided with a plurality of fifth grooves 115, and inner walls of the fifth grooves 115 are rotatably connected with a plurality of second rollers 116.

Specifically, when carrying the cutting to dry laver utilizing conveying assembly 10, control eleventh electric telescopic handle 112 starts, drive fixed frame 113 and move down, make first gyro wheel 114 and dry laver upper surface contact, it is spacing to the both ends of dry laver, prevent when carrying dry laver, dry laver both ends perk, influence the cutting to dry laver, utilize second gyro wheel 116 to support dry laver when dry laver removes simultaneously, avoid dry laver to remove when contacting with bottom plate 1 upper surface, cause dry laver and bottom plate 1 between excessive friction cause the damage to dry laver, improve the practicality and the reliability of the device.

The principle of operation of the present invention will now be described as follows:

In the invention, when the dried laver needs to be cut, firstly, a worker flatly spreads the formed dried laver on the upper surface of the bottom plate 1, so that two ends of the dried laver are positioned above the first groove 9, then the fifth electric telescopic rod 106 above the first sliding plate 1015 is controlled to be started to drive the U-shaped plate 107 to move towards one end of the dried laver, after the first clamping plate 109 is positioned above the dried laver, the sixth electric telescopic rod 108 is controlled to be started to drive the first clamping plate 109 to move downwards, after the pressure sensor 1011 detects the pressure, at the moment, the first clamping plate 109 is contacted with the upper surface of the dried laver, because the inner wall of the bottom end of the U-shaped plate 107 is positioned on the same plane with the upper surface of the bottom plate 1, The clamping and fixing of the dried laver are realized through the first clamping plate 109, then the first electric sliding rail 101 is controlled to start, the first sliding plate 1015 is driven to move, the dried laver is driven to move towards the cutting plate 5, the size of the cut dried laver is controlled by controlling the moving distance of the first sliding plate 1015, after the first sliding plate 1015 moves for a set distance, the water pump 74 is controlled to start, the water in the storage shell 4 is conveyed into the cutting plate 5 through the connecting pipe 75 and the one-way valve 76, then the first electric telescopic rod 3 is controlled to start, the cutting plate 5 is driven to move downwards, when the cutting plate 5 is about to cut the dried laver, the second electric telescopic rod 71 is controlled to start, The piston 72 is driven to move downwards in the cutting plate 5, water in the cutting plate 5 is extruded through the pressure valve 73, when the cutting plate 5 cuts dried laver, water flowing out of the pressure valve 73 can be continuously contacted with the cut part of the dried laver, so that the cut part of the dried laver is wet, the dried laver is convenient to cut, deformation caused by cracks generated at the cut part of the dried laver in the cutting process is avoided, slag falling during shearing force on the cut part of the dried laver can be prevented, after the cutting of the dried laver is completed, the fifth electric telescopic rod 106 above the second sliding plate 104 is controlled to be started, the two ends of the cut dried laver are fixed according to the steps, the third electric telescopic rod 81 and the fourth electric telescopic rod 87 are controlled to be started, The communication shell 82 and the support plate 88 are controlled to move towards the dry laver, at the moment, the communication shell 82 and the support plate 88 squeeze the cut position of the dry laver, the dry laver is wet and cannot be damaged, the edge locking of the cut position of the dry laver is realized by squeezing the dry laver, when the cut position is changed from a wet state to a dry state after the cut position of the dry laver is prevented, the slag is removed in the transportation process after the edge locking of the cut position of the dry laver is completed, the third electric telescopic rod 81 and the fourth electric telescopic rod 87 are controlled to shrink to drive the communication shell 82 and the support plate 88 to restore to the original positions, then the first electric sliding rail 101 and the second electric sliding rail 103 are controlled to be started simultaneously, The first slide plate 1015 and the second slide plate 104 are respectively driven to move to opposite ends, so that two ends of a dried laver cut are far away from the cutting plate 5, then the third electric telescopic rod 81 is controlled to be started, the communication shell 82 is driven to move downwards, and the air outlet hole 84 corresponds to the dried laver cut, because the first clamping plate 109 above the first slide plate 1015 can drive the resistor plate 1013 to move downwards when the dried laver is fixed, in the process of moving downwards of the resistor plate 1013, the larger the downward moving distance of the resistor plate 1013 is, the thinner the thickness of the dried laver is indicated, meanwhile, the larger the resistance of the resistor plate 1013 is, the smaller the current is, the starting of the air pump 83 is controlled, injecting air into the communicating shell 82, when the air is discharged outwards through the air outlet holes 84, the heating plate 85 is controlled to be started, the heating plate 85 heats the air discharged by the air outlet holes 84, thereby drying the two ends of the cut dried laver, forming the dried laver after edge locking quickly, the power of the air pump 83 and the heating plate 85 is in direct proportion to the current of the resistor plate 1013, when the dried laver is thinner, the heating temperature of the heating plate 85 is smaller, the power of the air pump 83 is lower, the heating temperature of the heating plate 85 and the power of the air pump 83 can be changed according to the thickness of the dried laver, the dried laver can be dried quickly after edge locking is carried out on the cut dried laver, Prevent that temperature and air current from being too low or too high from leading to drying efficiency and stoving quality reduction when drying to dry laver cutting part, after accomplishing the stoving to dry laver cutting part, control third electric telescopic handle 81 and first electric telescopic handle 3 shrink, drive cutting board 5 and intercommunication shell 82 and resume the normal position, afterwards remove the dry laver after cutting in collecting box 1210 through collecting assembly 12, control first electric slide rail 101 and continue to start, drive first slide 1015 and remove, make dry laver continue to remove to cutting board 5 direction, continue to cut dry laver.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (3)

1. The utility model provides a purple seaweed cutting machine that is difficult for deformation, includes bottom plate (1), a serial communication port, the same mounting panel (2) of both ends lateral wall fixedly connected with of bottom plate (1), the first electric telescopic handle (3) of bottom lateral wall fixedly connected with of mounting panel (2), the flexible end fixedly connected with of first electric telescopic handle (3) stores shell (4), the bottom lateral wall fixedly connected with cutting plate (5) of storing shell (4), first cavity (6) have been seted up to the inside of cutting plate (5), the top inner wall fixedly connected with of first cavity (6) prevents deformation subassembly (7), the bottom lateral wall symmetry fixedly connected with blank pressing stoving subassembly (8) of storing shell (4), two first recess (9) are offered to the top lateral wall symmetry of bottom plate (1), the inner wall of two first recess (9) all fixedly connected with conveying subassembly (10), the both ends lateral wall fixedly connected with of bottom plate (1) reduces friction subassembly (11), the both ends lateral wall of bottom plate (1) all fixedly connected with collection subassembly (12).

The deformation-preventing assembly (7) comprises a second electric telescopic rod (71) fixedly connected with the inner wall of the top end of a first cavity (6), a piston (72) is fixedly connected with the telescopic end of the second electric telescopic rod (71), the side walls of the piston (72) are all attached to the inner wall of the first cavity (6), a plurality of through holes are symmetrically formed in the side walls of the bottom end of the cutting plate (5), a pressure valve (73) is fixedly connected to the side walls of the corresponding through holes, a water pump (74) is fixedly connected to the side walls of the storage shell (4), the water inlet end of the water pump (74) penetrates through the side walls of the storage shell (4) and extends inwards, a connecting pipe (75) is fixedly connected to the water outlet end of the water pump (74), a through hole is formed in the side wall of the cutting plate (5), a one end of the connecting pipe (75) is fixedly connected with a one-way valve (76) in a corresponding through hole mode, and one-way valve (76) is fixedly communicated with one end of the connecting pipe (75).

The blank pressing drying assembly (8) comprises two third electric telescopic rods (81) symmetrically and fixedly connected with the side wall of the bottom end of the storage shell (4), the telescopic ends of the third electric telescopic rods (81) are fixedly connected with a communication shell (82), the side wall of the communication shell (82) is fixedly connected with an air pump (83), the air outlet end of the air pump (83) penetrates through the side wall of the communication shell (82) and extends inwards, and the side walls of the opposite ends of the two communication shells (82) are provided with a plurality of air outlet holes (84);

The inner walls of the air outlet holes (84) are fixedly connected with heating plates (85), the top end side wall of the bottom plate (1) is provided with a second groove (86), the inner walls of the second grooves (86) are symmetrically and fixedly connected with two fourth electric telescopic rods (87), the telescopic ends of the fourth electric telescopic rods (87) are fixedly connected with supporting plates (88), a gap between the two supporting plates (88) is located under the cutting plate (5), and the length of the second groove (86) is longer than that of the cutting plate (5);

The conveying assembly (10) comprises a first electric sliding rail (101) fixedly connected with the inner wall of a first groove (9), two third grooves (102) are symmetrically formed in the side wall of the top end of the bottom plate (1), the inner walls of the two third grooves (102) are fixedly connected with a second electric sliding rail (103), the side wall of the top end of the second electric sliding rail (103) is slidably connected with a second sliding plate (104), side plates (105) are fixedly connected with the side wall of the top end of the second sliding plate (104) and the side wall of the top end of the first sliding plate (1015), a fifth electric telescopic rod (106) is fixedly connected with the side wall of the side plate (105), and a U-shaped plate (107) is fixedly connected with the telescopic end of the fifth electric telescopic rod (106);

The U-shaped plate (107) is characterized in that a sixth electric telescopic rod (108) is fixedly connected to the inner wall of the upper end of the U-shaped plate (107), a first clamping plate (109) is fixedly connected to the telescopic end of the sixth electric telescopic rod (108), a fourth groove (1010) is formed in the side wall of the bottom end of the first clamping plate (109), a pressure sensor (1011) is fixedly connected to the inner wall of the top end of the fourth groove (1010), a sixth groove (1012) is formed in the inner wall of the U-shaped plate (107) above the first sliding plate (1015), a resistor plate (1013) is fixedly connected to the inner wall of the sixth groove (1012), a conductive plate (1014) is fixedly connected to the side wall of the corresponding first clamping plate (109), the side wall of the conductive plate (1014) is abutted against the variable resistance surface of the resistor plate (1013), and the first sliding plate (1015) and the second sliding plate (104) are respectively located on two sides of the mounting plate (2).

2. The thallus Porphyrae cutting machine difficult to deform according to claim 1, wherein the collecting component (12) comprises a seventh electric telescopic rod (121) fixedly connected with two end side walls of the bottom plate (1), the telescopic ends of the seventh electric telescopic rod (121) are fixedly connected with a mounting block (122), the side walls of the mounting block (122) are fixedly connected with an eighth electric telescopic rod (123), the telescopic ends of the eighth electric telescopic rod (123) are fixedly connected with a supporting block (124), the top end side walls of the supporting block (124) are fixedly connected with a ninth electric telescopic rod (125), the telescopic ends of the ninth electric telescopic rod (125) are fixedly connected with a connecting plate (126), the side walls of the connecting plate (126) are fixedly connected with a fixing block (127), the top end inner walls of the fixing block (127) are fixedly connected with tenth electric telescopic rods (128), the telescopic ends of the tenth electric telescopic rods (128) are fixedly connected with a second clamping plate (129), and one end side walls of the bottom plate (1) are fixedly connected with a collecting box (1210).

3. The laver cutting machine of claim 1, wherein the friction reducing component (11) comprises a plurality of connecting columns (111) fixedly connected with side walls at two ends of a base plate (1), one ends of the connecting columns (111) are fixedly connected with eleventh electric telescopic rods (112), telescopic ends of the eleventh electric telescopic rods (112) are fixedly connected with fixing frames (113), inner walls of the fixing frames (113) are rotatably connected with a plurality of first rollers (114), top side walls of the base plate (1) are provided with a plurality of fifth grooves (115), and inner walls of the fifth grooves (115) are rotatably connected with a plurality of second rollers (116).