CN107535899A - A kind of marine alga silk-dressing machine and comb silk production technology - Google Patents

Abstract

The invention discloses a kind of marine alga silk-dressing machine and comb silk production technology, including the optical axis 1 that is horizontally set on above frame and it is arranged on optical axis 1 and does two needle board movement mechanisms that are opposite or doing relatively reciprocating motion in the horizontal direction along optical axis 1；The guide rail 1 that is vertically set on above frame and it is arranged on guide rail 1 and is done along guide rail 1 between two needle plates in the vertical direction of center the marine alga geometrical clamp motion to pump；The guide rail 2 that is vertically set on above marine alga geometrical clamp motion machine frame at two sides and it is arranged on guide rail 2 and the counterweight mechanism to pump is done along guide rail 2；The optical axis 5 that is horizontally set under two needle board movement mechanisms above methods, rack and it is arranged on optical axis 5 and does seaweed strips segment mechanism that is opposite or doing relatively reciprocating motion in the horizontal direction along optical axis 5；It is arranged on the conveyer belt above frame below seaweed strips segment mechanism；The bittern water circulation system being arranged in frame.

Description

A kind of marine alga silk-dressing machine and comb silk production technology

Technical field

The invention belongs to alga food manufacture field, specifically a kind of marine alga silk-dressing machine and comb silk production technology.

Background technology

In marine alga family, undaria pinnitafida is all wherein important a member as sea-tangle.Undaria pinnitafida contains ten several human bodies Essential amino acid and the mineral matter such as calcium, iodine, zinc, selenium, folic acid and vitamin A, B, C；What is contained in the mucus of undaria pinnitafida is brown Alginic acid and fucosterol, there is the cholesterol reduced in blood, be advantageous to sodium ion discharge unnecessary in vivo, prevent cerebral thrombus from sending out It is raw, improve and strengthen blood vessel, prevent artery sclerosis and reduce the effect such as hypertension.

Undaria pinnitafida is processed into salt marsh undaria pinnitafida using salt technique is mixed, is generally further divided in primary processes Obstruct into salt marsh opotism dish leaf and salt marsh undaria pinnitafida.In production, a portion salt marsh undaria pinnitafida stalk is processed to salt marsh opotism Dish stem, this salt marsh undaria pinnitafida stem is very popular in Japan and South Korea, and in China, salt marsh undaria pinnitafida stem is just opened Hair, it can with Baoshang, can cook cold vegetable dish in sauce, can also frying, just progressively received by Chinese consumers in general.

At present, in the production and consumption state including South Korea and Japan, the processing of salt marsh undaria pinnitafida stem is substantially adopted To process by hand, i.e., get rid of a mode by hand, this processing mode labor intensity is big, and production efficiency is low, and percent defective is high, and often Worker is damaged.For in terms of the raw material, manual production undaria pinnitafida stem can only use the stalk production of superfine salt marsh undaria pinnitafida, This causes the production cost of salt marsh undaria pinnitafida stem to remain high, and reduces the economic benefit of enterprise so that most of marine algas add Work enterprise loses interest to production seaweed strips, and which has limited the development of undaria pinnitafida industry.

The content of the invention

In order to solve the deficiency of existing undaria pinnitafida stem production technology, the invention provides a kind of marine alga silk-dressing machine and comb silk Production technology, compared with existing technology, it is not limited to traditional superfine salt marsh undaria pinnitafida stalk, raw material used in it Can be one-level salt marsh undaria pinnitafida stalk, having reduces production cost, improves finished product ratio；Meanwhile the silk-dressing machine can replace by hand Operation, reduces labor intensity, improves efficiency, have vast potential for future development.

The technical solution adopted in the present invention is：A kind of marine alga silk-dressing machine, including frame and the peace that is arranged in frame Air cock, it is characterised in that：It also includes the optical axis 1 that is horizontally set on above frame and is arranged on optical axis 1 and along optical axis 1 Two needle board movement mechanisms that are opposite or doing relatively reciprocating motion are done in the horizontal direction；The guide rail 1 being vertically set on above frame And it is arranged on guide rail 1 and is pumped along guide rail 1 between two needle plates in the vertical direction of center Marine alga geometrical clamp motion；The guide rail 2 being vertically set on above marine alga geometrical clamp motion machine frame at two sides and setting Do on guide rail 2 and along guide rail 2 the counterweight mechanism to pump；It is horizontally set on machine below two needle board movement mechanisms Optical axis 5 above frame and it is arranged on optical axis 5 and does sea that is opposite or doing relatively reciprocating motion in the horizontal direction along optical axis 5 Algal filament segment mechanism；It is arranged on the conveyer belt above frame below seaweed strips segment mechanism；The bittern water being arranged in frame follows Loop system.

Two described needle board movement mechanisms are horizontally set in frame using positive relative position；Described needle plate fitness machine Structure includes optical axis 1, the fixed seat of optical axis 1, spring 1, needle plate telecontrol equipment and power-driven system 1；Described needle plate sportswear Put including needle plate sliding block, needle plate connecting tube, ball valve, needle board device；Described spring 1 is arranged on described optical axis 1；Described Needle plate sliding block includes support 1, rack 1-1, rack 1-2, beam, buffer and linear bearing 1, and described needle plate sliding block leads to Linear bearing 1 is crossed on optical axis 1；Described rack 1-1, rack 1-2 is separately mounted on two needle plate sliding blocks；Described Two needle plate sliding blocks do opposite or phase in the horizontal direction under the driven of power-driven system 1 and spring 1, along optical axis 1 To moving back and forth, so as to drive two needle plates to do in the horizontal direction opposite or do relatively reciprocating motion；Described power drive line System 1 includes motor 1, sprocket wheel 1, sprocket wheel 2, sprocket wheel 2-1, sprocket wheel 2-2, gear 1-1, gear 1-2, sprocket wheel 3-1, sprocket wheel 3-2, rack 1-1, rack 1-2, partial gear 1-1, partial gear 1-2, chain 1, chain 2-1, chain 2-2；The one of described ball valve End is connected with needle plate connecting tube, and the other end is connected with compressed air hose；Described needle board device includes draw point, needle plate, needle plate Base, sealing gasket；Described needle plate base uses stainless steel materials, and it is linked together by sealing gasket and needle plate, the other end It is connected with needle plate connecting tube；Described needle plate uses stainless steel plate, food grade plastic plate or plank, preferably food grade plastic Plate.

Two described needle plate plate faces are horizontally disposed with some row 0.8-3.0mm steel pinholes from top to bottom, and stainless steel draw point leads to Cross steel pinhole to be embedded on needle plate using interference mode, each neighbouring two rows draw point of needle plate plate face is arranged on to be staggered On needle plate, the often row draw point diameter is followed successively by Φ a, Φ b ... Φ n, preferably Φ a >=Φ b ... >=Φ n, institute from top to bottom The pitch of holes for stating each row's pin hole is followed successively by La, Lb from top to bottom ... Ln, preferably La >=Lb ... >=Ln；Two described pins In horizontal geo-stationary, the often row draw point on two needle plates is distributed in distance plate from top to bottom；Between two described needle plates most Small distance L is between a draw point length and 2 times of draw point length.

Described needle plate plate face is horizontally disposed with a diameter of 3mm-10mm through holes of some rows, described every exhausting hole from top to bottom It is distributed in distance from top to bottom with every row's draw point.

Described marine alga geometrical clamp motion includes guide rail 1, the fixed seat of guide rail 1, geometrical clamp elevator 1 and power and driven Dynamic system 2；Described guide rail 1 comprises at least 2 two kinds of T-shaped guide rail 1 and optical axis；Described geometrical clamp elevator 1 include support 2, Linear bearing 2 or lead boots 1, geometrical clamp elevator 2, screw mandrel, screw mandrel fixing bearing, optical axis 3, the fixed seat of optical axis 3, motor 2 and Connecting rod base；Described geometrical clamp lifting fast 1 is by linear bearing 2 or leads boots 1 on guide rail 1, and in dynamical system 2 Under driving, pumped along guide rail 1；Described dynamical system 2 includes motor 1, sprocket wheel 1, sprocket wheel 4, chain 3, song Handle and connecting rod, described connecting rod lift the connecting rod base on fast 1 bottom with geometrical clamp and are connected；Described geometrical clamp elevator 2 Holder is fixed including support 3, feed screw nut, linear bearing 3 and marine alga；Described marine alga, which fixes holder, includes support 3, installation Compression cylinder, bittern water circulating pipe on support 3, bittern water spray head；Described geometrical clamp elevator 2 passes through linear axis Hold 3 to be arranged on optical axis 3, described geometrical clamp elevator 2 with geometrical clamp lifting fast 1 while pumping, originally Body under the driving of motor 2 and screw mandrel, is moved upwardly or downwardly also along the optical axis 3 on geometrical clamp elevator 1.

Described marine alga geometrical clamp includes top board, lower platen, extension spring and draw ring, the both ends open of described top board Place sets baffle plate, and blind recess is set at described lower platen both ends open；Described extension spring is arranged on the both ends of lower platen Inner side；Described draw ring is arranged on the outside at lower platen both ends；In upper lower platen interior side contacts marine alga feedstock portions, rubber is set Rubber cushion.

Described counterweight mechanism includes guide rail 2, the fixed seat of guide rail 2, to pouring weight, steel wire rope, pulley；Described guide rail 2 to Include 4 two kinds of T-shaped guide rail 2 and optical axis less；Described leads boots 2 or linear bearing 4 to being set on pouring weight；Described leads boots 2 or straight Bobbin holds 4 and is arranged on described T-shaped rail 2 or optical axis 4, and under the traction of steel wire rope, passes through pulley and geometrical clamp lifting fast 1 It is connected；Described two pieces are equal in weight to pouring weight, set one piece of weight to pouring weight as G1, and geometrical clamp lifts fast 1 weight Measure as G, preferably 2G1=G ± 10%G.

Described seaweed strips segment mechanism includes optical axis 5, the fixed seat of optical axis 5, spring 2, baffle plate sliding block, cutting knife sliding block, cut Knife baffle plate, cutting knife and power-driven system 3；Described spring 2 is arranged on optical axis 5；Described baffle plate sliding block, cutting knife sliding block Including support 3, rack 2-1, rack 2-2, beam, buffer and and linear bearing 5；Described rack 2-1 is arranged on gear On plate sliding block, described rack 2-2 is arranged on cutting knife sliding block；Described baffle plate sliding block, cutting knife sliding block are pacified by linear bearing 5 On optical axis 5, and opposite or phase is done in the horizontal direction along optical axis 5 under the driven of power-driven system 3 and spring 2 To moving back and forth, so as to drive the unlatching of cutting knife and cutting knife baffle plate and closure；Described power-driven system 3 includes motor 1, chain Wheel 1, sprocket wheel 2, sprocket wheel 2-1, sprocket wheel 2-2, gear 1-1, gear 1-2, sprocket wheel 3-1, sprocket wheel 3-2, chain 1, chain 2-1, chain 2-2, sprocket wheel 5-1, sprocket wheel 5-2, sprocket wheel 6-1, sprocket wheel 6-2, chain 4-1, chain 4-2, partial gear 2-1, partial gear 2-2, rack 2-1, rack 2-2.

Described bittern water circulation system includes bittern water storage tank, bittern water-circulating pump, bittern water circulating pipe and salt Bittern spray head；Described bittern water storage tank is placed on the outer side-lower of conveyer belt and is fixed in frame, the storage of described bittern water Groove top end is obliquely installed bittern water separation grate, and described bittern water spray head is arranged on the marine alga that geometrical clamp is lifted on fast 2 and consolidated Below clamp seat, described bittern water spray head is a tubular structure, and some apertures are set along tube wall.

The marine alga that a kind of marine alga silk-dressing machine using foregoing invention produces seaweed strips combs silk production technology, its raw material not only office Limit traditional superfine salt marsh undaria pinnitafida stalk, it is characterised in that be also suitable one-level salt marsh undaria pinnitafida stalk, comprise the following steps：

A. bittern water is prepared

Salt and water are configured to the bittern aqueous solution of high concentration, the concentration of described bittern water is salt：Water >=20% (quality Than), and food grade thickener is added in bittern water, dissolve and be well mixed, the addition of described thickener is bittern water The 0.5%-10% of quality.

B. the bittern water prepared is added in bittern water storage tank；

C. choose the one-level salt marsh undaria pinnitafida stalk of certain length, remove residual leaf above；

D. the root that some one-level salt marsh undaria pinnitafidas obstruct is stacked in marine alga geometrical clamp；

E. marine alga marine alga geometrical clamp hung on marine alga silk-dressing machine is fixed in holder, makes one-level undaria pinnitafida stalk tip down Perpendicular to ground；Fixed in marine alga in holder, 2-10 marine alga geometrical clamp can be placed, start compression cylinder, compression cylinder The marine alga being placed in marine alga fixation holder is fixed clip hold-down by piston rod；

F. silk-dressing machine power supply is opened

(a) motor 2 rotates, and geometrical clamp lifts fast 2 rapid increase, drives marine alga geometrical clamp quickly to move to silk-dressing machine upwards Top；

(b) motor 1 rotates, and drives geometrical clamp lifting fast 1 to pump, while two comb silk needle plates proceed by out Close reciprocating motion；Motor 2 inverts simultaneously, while geometrical clamp lifting fast 2 itself pumps with geometrical clamp lifting fast 1, Also under the drive of motor 2, slowly move downward, comb silk needle plate is from the tip that one-level salt marsh undaria pinnitafida obstructs gradually to salt marsh opotism The root comb silk of dish stalk；

(c) bittern water-circulating pump is opened, and bittern water sprays to the marine alga entrained by marine alga geometrical clamp by bittern water spray head On；

G. complete combing segment stem and be downwardly into stem segment mechanism, seaweed strips are cut into regulation according to technological requirement The stem section of length；

H. it is transported to by the stem of cutting certain length by conveyer belt outside machine.

Beneficial effect is caused by the present invention, a kind of marine alga silk-dressing machine and comb silk production technology, by tradition only with special Level salt marsh undaria pinnitafida stalk does raw material, gets rid of the production for the undaria pinnitafida stem that silk could be realized by hand, becomes automated machine processing, And the undaria pinnitafida stem that the machine is produced can match in excellence or beauty with the undaria pinnitafida stem of manual production, traditional-handwork production undaria pinnitafida stem When, it is necessary to one-level undaria pinnitafida stalk is cut, take its most tender part in top, become superfine stalk, then with it is superfine obstruct do raw material and enter Row gets rid of silk by hand；And machine can process undaria pinnitafida stem using one-level undaria pinnitafida stalk, and during processing, from skirt Top (tip) with dish stalk gradually carries out comb silk to root, and the utilization rate of undaria pinnitafida stalk is high, and wire broken rate is low, thus cost is low, Also can be that consumer brings benefit true while economic benefit is brought to enterprise, meanwhile, the machine has liberated production Solid foundation has been established in power, the also industrialized development for undaria pinnitafida stem.

Brief description of the drawings

Fig. 1 is a kind of marine alga silk-dressing machine front view

Fig. 2 is a kind of marine alga silk-dressing machine top view

Fig. 3 is a kind of marine alga silk-dressing machine left view

Fig. 4 is a kind of marine alga silk-dressing machine A-A views

Fig. 5 is a kind of marine alga silk-dressing machine needle plate telecontrol equipment schematic diagram

Fig. 6 is a kind of marine alga silk-dressing machine needle board device schematic diagram

Fig. 7 is a kind of needle plate draw point correspondence position schematic diagram of marine alga silk-dressing machine two

Fig. 8 is a kind of schematic diagram of marine alga silk-dressing machine geometrical clamp elevator 1

Fig. 9 is a kind of schematic diagram of marine alga silk-dressing machine geometrical clamp elevator 2

Figure 10 is a kind of marine alga silk-dressing machine marine alga geometrical clamp schematic diagram

Figure 11 is a kind of marine alga silk-dressing machine marine alga segmentizing unit B-B schematic diagrames

Figure 12 is a kind of marine alga silk-dressing machine marine alga segmentizing unit second of structural representation of B-B

Figure 13 is a kind of second of structural representation of marine alga silk-dressing machine

Figure 14 is second of structural representation that a kind of marine alga silk-dressing machine geometrical clamp lifts fast 1

Figure 15 is a kind of the third structural side view of marine alga silk-dressing machine

Figure 16 is a kind of the 4th kind of structural front view of marine alga silk-dressing machine

Figure 17 is a kind of the 4th kind of structural side view of marine alga silk-dressing machine

Figure 18 is a kind of the 5th kind of structural side view of marine alga silk-dressing machine

Figure 19 is a kind of the 5th kind of structure top view of marine alga silk-dressing machine

1. frame in figure, 2. safety doors, the fixed seat of 3. optical axis Isosorbide-5-Nitrae optical axises 1, the needle plate sliding block of 5 spring 1,6., 7. needle plates connect Adapter, 8. ball valves, 9. needle board devices, the beam of 10. support 1,11., 12. buffers, the motor 1,15. of 13. linear bearing 1,14. 1,16. sprocket wheel of sprocket wheel 2,17. sprocket wheel 2-1,18. sprocket wheel 2-2,19. gear 1-1,20. gear 1-2,21. sprocket wheel 3-1,22. sprocket wheels 3-2,23. rack 1-1,24. rack 1-2,25. partial gear 1-1,26. partial gear 1-2, the chain of 27. chain 1,28. 2-1,29. chain 2-2,30. compressed air hoses, 31. draw points, 32. needle plates, 33. needle plate bases, 34. sealing gaskets, 35. pin holes, 36. through hole, 37. guide rails 1 (T-shaped guide rail 1, optical axis 2), the fixed seat of 38 guide rail 1, the support 2,41. of 39. geometrical clamp elevator Isosorbide-5-Nitrae 0. Linear bearing 2 leads the screw mandrel of 2. geometrical clamp elevator of boots Isosorbide-5-Nitrae 2,43., 44. screw mandrel fixing bearings, and the optical axis 3 of 45. optical axis 3,46. is solid Reservation, the connecting rod base of 47. motor 2,48., the crank of 49. sprocket wheel, 4,50. chain 3,51., 52. connecting rods, the screw mandrel of 53. support 3,54. Nut, the marine alga of 55. linear bearing 3,56. fix holder, 57. top boards, 58. lower platens, 59. extension springs, 60. draw rings, 61. rubber Pad, 62. guide rails 2 (T-shaped guide rail 2 and optical axis 4), the fixed seat of 63. guide rail 2,64. pairs of pouring weights, 65. steel wire ropes, 66. pulleys, 67. lead Boots 2 or the fixed seat of 4,68. 5,69. optical axis of optical axis of linear bearing 5, the baffle plate sliding block of 70. spring 2,71., 72. cutting knife sliding blocks, 73. cut Knife baffle plate, 74. cutting knifes, 75. support 3,76. rack 2-1,77. rack 2-2, the sprocket wheel 5-1 of 78. linear bearing 5,79., 80. sprocket wheels 5-2,81. sprocket wheel 6-1,82. sprocket wheel 6-2,83. chain 4-1,84. chain 4-2,85. partial gear 2-1,86. incomplete teeth Wheel 2-2,87. conveyer belts, the bittern water storage tank of 88 sprocket wheel, 7,89. chain, 5,90. cylinder, 1,91. cylinder, 2,92. cylinder 3,93., 94. Bittern water-circulating pump, 95. bittern water circulating pipes, 96. bittern water spray heads, 97. bittern waters separation double-edged fine-toothed comb, 98. compression cylinders, 99. baffle plate, 100. blind recess.

Embodiment

The embodiment of the present invention is illustrated referring to the drawings.

Embodiment 1

As shown in Figure 1, Figure 2, Figure 3, Figure 4, the structure and comb silk production technology of marine alga silk-dressing machine of the present invention are further illustrated.

A kind of marine alga silk-dressing machine, including frame and the safety door that is arranged in frame, it is characterised in that：It also includes water Put down the optical axis 1 being arranged on above frame and be arranged on optical axis 1 and done in the horizontal direction along optical axis 1 opposite or relatively past Two needle board movement mechanisms moved again；The guide rail 1 that is vertically set on above frame and it is arranged on guide rail 1 and along guide rail 1 does the marine alga geometrical clamp motion to pump between two needle plates in the vertical direction of center；Vertically set Put the guide rail 2 on marine alga geometrical clamp motion machine frame at two sides and be arranged on guide rail 2 and done along guide rail 2 past up and down The counterweight mechanism moved again；The optical axis 5 that is horizontally set under two needle board movement mechanisms above methods, rack and it is arranged on optical axis 5 Above and along optical axis 5 seaweed strips segment mechanism that is opposite or doing relatively reciprocating motion is done in the horizontal direction；It is horizontally set on marine alga Conveyer belt below silk segment mechanism above frame；The bittern water circulation system being arranged in frame.

With reference to Fig. 5, Fig. 6, Fig. 7, described two needle board movement mechanisms are horizontally set in frame using positive relative position； Described needle board movement mechanism includes optical axis 1, the fixed seat of optical axis 1, spring 1, needle plate telecontrol equipment and power-driven system 1； Described needle plate telecontrol equipment includes needle plate sliding block, needle plate connecting tube, ball valve, needle board device；Described spring 1 is arranged on described Optical axis 1 on；Described needle plate sliding block includes support 1, rack 1-1, rack 1-2, beam, buffer and linear bearing 1, Described needle plate sliding block is arranged on optical axis 1 by linear bearing 1；Described rack 1-1, rack 1-2 is separately mounted to two On needle plate sliding block；Two described needle plate sliding blocks are under the driven of power-driven system 1 and spring 1, along optical axis 1 in level Do opposite on direction or do relatively reciprocating motion, so as to drive two needle plates to do in the horizontal direction opposite or do relatively reciprocating motion； Described power-driven system 1 includes motor 1, sprocket wheel 1, sprocket wheel 2, sprocket wheel 2-1, sprocket wheel 2-2, gear 1-1, gear 1-2, sprocket wheel 3-1, sprocket wheel 3-2, rack 1-1, rack 1-2, partial gear 1-1, partial gear 1-2, chain 1, chain 2-1, chain 2- 2；One end of described ball valve is connected with needle plate connecting tube, and the other end is connected with compressed air hose；Described needle board device bag Include draw point, needle plate, needle plate base, sealing gasket；Described needle plate base uses stainless steel materials, and it is connected by sealing gasket and needle plate It is connected together, the other end is connected with needle plate connecting tube；Described needle plate uses stainless steel plate, food grade plastic plate or plank, It is preferred that food grade plastic plate.

Two described needle plate plate faces are horizontally disposed with some row 0.8-3.0mm steel pinholes from top to bottom, and stainless steel draw point leads to Cross steel pinhole to be embedded on needle plate using interference mode, each neighbouring two rows draw point of needle plate plate face is arranged on to be staggered On needle plate, the often row draw point diameter is followed successively by Φ a, Φ b ... Φ n, preferably Φ a >=Φ b ... >=Φ n, institute from top to bottom The pitch of holes for stating each row's pin hole is followed successively by La, Lb from top to bottom ... Ln, preferably La >=Lb ... >=Ln；Two described pins In horizontal geo-stationary, the often row draw point on two needle plates is distributed in distance plate from top to bottom；Between two described needle plates most Small distance L is between a draw point length and 2 times of draw point length.

Described needle plate plate face is horizontally disposed with a diameter of 3mm-10mm through holes of some rows, described every exhausting hole from top to bottom It is distributed in distance from top to bottom with every row's draw point.

With reference to Fig. 8, Fig. 9, described marine alga geometrical clamp motion includes guide rail 1, the fixed seat of guide rail 1, geometrical clamp lifting Block 1 and power-driven system 2；Described guide rail 1 comprises at least 2 two kinds of T-shaped guide rail 1 and optical axis；Described geometrical clamp lifting Block 1 includes support 2, linear bearing 2 or leads boots 1, geometrical clamp elevator 2, screw mandrel, screw mandrel fixing bearing, optical axis 3, optical axis 3 and fix Seat, motor 2 and connecting rod base；Described geometrical clamp lifting fast 1 is by linear bearing 2 or leads boots 1 on guide rail 1, and Under the driving of dynamical system 2, pumped along guide rail 1；Described dynamical system 2 includes motor 1, sprocket wheel 1, chain Wheel 4, chain 3, crank and connecting rod, described connecting rod lift the connecting rod base on fast 1 bottom with geometrical clamp and are connected；Described consolidates Clamp elevator 2 includes support 3, feed screw nut, linear bearing 3 and marine alga and fixes holder；Described marine alga fixes holder bag Include support 3, the compression cylinder on support 3, bittern water circulating pipe, bittern water spray head；Described geometrical clamp lifting Block 2 is arranged on optical axis 3 by linear bearing 3, and described geometrical clamp elevator 2 is done up and down reciprocatingly with geometrical clamp lifting fast 1 While motion, itself under the driving of motor 2 and screw mandrel, does up or down also along the optical axis 3 on geometrical clamp elevator 1 Motion.

As shown in Figure 10, described marine alga geometrical clamp includes top board, lower platen, extension spring and draw ring, described upper pressure Baffle plate is set at the both ends open of plate, blind recess is set at described lower platen both ends open；Described extension spring is arranged on On the inside of the both ends of lower platen；Described draw ring is arranged on the outside at lower platen both ends；It is former in upper lower platen interior side contacts marine alga Material part sets rubber blanket.

As shown in Figure 1, Figure 2, Figure 3, Figure 4, described counterweight mechanism includes guide rail 2, the fixed seat of guide rail 2, to pouring weight, steel wire Rope, pulley；Described guide rail 2 comprises at least 4 two kinds of T-shaped guide rail 2 and optical axis；Described leads boots 2 or straight line to being set on pouring weight Bearing 4；Described leads boots 2 or linear bearing 4 on described T-shaped rail 2 or optical axis 4, and under the traction of steel wire rope, leads to Pulley is crossed with geometrical clamp lifting fast 1 to be connected；Described two pieces are equal in weight to pouring weight, set one piece of weight to pouring weight as G1, the weight that geometrical clamp lifts fast 1 is G, preferably 2G1=G ± 10%G.

As shown in Figure 1, Figure 2, Fig. 3, Fig. 4, with reference to Figure 11, Figure 12, it is solid that described seaweed strips segment mechanism includes optical axis 5, optical axis 5 Reservation, spring 2, baffle plate sliding block, cutting knife sliding block, cutting knife baffle plate, cutting knife and power-driven system 3；Described spring 2 is arranged on On optical axis 5；Described baffle plate sliding block, cutting knife sliding block include support 3, rack 2-1, rack 2-2, beam, buffer and and Linear bearing 5；Described rack 2-1 is arranged on baffle plate sliding block, and described rack 2-2 is arranged on cutting knife sliding block；Described Baffle plate sliding block, cutting knife sliding block are arranged on optical axis 5 by linear bearing 5, and are driven in the alternating of power-driven system 3 and spring 2 Do opposite along optical axis 5 under dynamic or do relatively reciprocating motion in the horizontal direction, so as to drive unlatching of the cutting knife with cutting knife baffle plate with closing Close；Described power-driven system 3 include motor 1, sprocket wheel 1, sprocket wheel 2, sprocket wheel 2-1, sprocket wheel 2-2, gear 1-1, gear 1-2, Sprocket wheel 3-1, sprocket wheel 3-2, chain 1, chain 2-1, chain 2-2, sprocket wheel 5-1, sprocket wheel 5-2, sprocket wheel 6-1, sprocket wheel 6-2, chain 4- 1st, chain 4-2, partial gear 2-1, partial gear 2-2, rack 2-1, rack 2-2.

Figure 12 is segmentizing unit B-B second of structure, and it uses double cutting knife cut-out stems.

Setting conveyer belt below seaweed strips segment mechanism above frame, described conveyer belt passes through sprocket wheel 2-1, sprocket wheel 7 And chain 5 drives.

Fig. 1, Fig. 2, Fig. 4 give bittern water circulation system, and described bittern water circulation system includes bittern water storage tank, salt Bittern circulating pump, bittern water circulating pipe and bittern water spray head；Under described bittern water storage tank is placed on the outside of conveyer belt Side is simultaneously fixed in frame, and described bittern water storage tank top is obliquely installed bittern water separation grate, described bittern Water spray Head is arranged on the marine alga that geometrical clamp is lifted on fast 2 and fixed below holder, and described bittern water spray head is a tubular structure, along Tube wall sets some apertures.

A kind of marine alga combs silk production technology, and its raw material not only limits to traditional superfine salt marsh undaria pinnitafida stalk, it is characterised in that One-level salt marsh undaria pinnitafida stalk is also suitable, is comprised the following steps：

A. bittern water is prepared

Salt and water are configured to the bittern aqueous solution of high concentration, the concentration of described bittern water is salt：Water >=20% (quality Than), and food grade thickener is added in bittern water, dissolve and be well mixed, the addition of described thickener is bittern water The 0.5%-10% of quality.

B. the bittern water prepared is added in bittern water storage tank,

C. choose the one-level salt marsh undaria pinnitafida stalk of certain length, remove residual leaf above；

D. the root that some one-level salt marsh undaria pinnitafidas obstruct is stacked in marine alga geometrical clamp；

E. marine alga marine alga geometrical clamp hung on marine alga silk-dressing machine is fixed in holder, makes one-level undaria pinnitafida stalk tip down Perpendicular to ground；Fixed in marine alga in holder, 2-10 marine alga geometrical clamp can be placed, start compression cylinder, compression cylinder The marine alga being placed in marine alga fixation holder is fixed clip hold-down by piston rod；

F. silk-dressing machine power supply is opened

(a) motor 2 rotates, and geometrical clamp lifts fast 2 rapid increase, drives marine alga geometrical clamp quickly to move to silk-dressing machine upwards Top；

(b) motor 1 rotates, and drives geometrical clamp lifting fast 1 to pump, while two comb silk needle plates proceed by out Close reciprocating motion；Motor 2 inverts simultaneously, while geometrical clamp lifting fast 2 itself pumps with geometrical clamp lifting fast 1, Also under the drive of motor 2, slowly move downward, comb silk needle plate is from the tip that one-level salt marsh undaria pinnitafida obstructs gradually to salt marsh opotism The root comb silk of dish stalk；

(c) bittern water-circulating pump is opened, and bittern water sprays to the marine alga entrained by marine alga geometrical clamp by bittern water spray head On；

G. complete combing segment stem and be downwardly into stem segment mechanism, seaweed strips are cut into regulation according to technological requirement The stem section of length；

H. it is transported to by the stem of cutting certain length by conveyer belt outside machine.

In actual production, the root of a bundle of one-level undaria pinnitafida stalk is overlayed in marine alga geometrical clamp, then it is extra large by 2-10 Algae geometrical clamp is placed on marine alga and fixed in holder, starts compression cylinder, and marine alga geometrical clamp is secured firmly into marine alga fixes in holder, Equipment motor is opened, now motor 2 rotates, and geometrical clamp lifting fast 2 rapidly increases to geometrical clamp lifting in the case where leading screw rotation drives Fast 1 top, marine alga geometrical clamp carries the top that one-level salt marsh undaria pinnitafida stalk rises to optical axis 3, next, motor 1 starts, together When, motor 2 is inverted, and geometrical clamp lifting fast 1 is done under the driving of power-driven system 2 along guide rail 1 (T-shaped guide rail or optical axis 2) Pump, while marine alga geometrical clamp moves up and down with geometrical clamp lifting fast 1, in itself also under the driving of screw mandrel, edge Optical axis 3 to move downward；Meanwhile under the driven of power-driven system 1 and spring 1, needle board movement mechanism is in level side Also moved to along optical axis 1, comb silk starts.

The movement relation of marine alga geometrical clamp motion and needle board movement mechanism is：When each geometrical clamp elevator 1 declines To minimum point, now, two needle plates are separated to ultimate range under the driving of power-driven system 1, and power-driven system 1 is dynamic Power transitory loss, two needle plates are under the driving of compression spring elastic force, and moment is to middle relative motion, two needle plates in the horizontal direction On draw point can be lunged simultaneously in undaria pinnitafida stalk from opposite, now two needle plates keep geo-stationary, and the band of geometrical clamp elevator 1 Dynamic marine alga geometrical clamp moves upwards, and undaria pinnitafida stalk can be divided into bar or silk by draw point.

Geometrical clamp elevator 1 pumps, and its stroke is designed, that is, is fixed, thus contacts draw point Undaria pinnitafida stalk position it is fixed, and undaria pinnitafida stalk is a strip, general long 1 meter --- 2 meters (are typically obstructed from undaria pinnitafida Tip starts to comb silk), at this moment, the motion of geometrical clamp elevator 2 is with regard to extremely important, as geometrical clamp elevator 1 lifts, geometrical clamp Elevator 2 can be gradually reduced, and so, whole undaria pinnitafida stalk can be by comb silk.

During silk is combed, start bittern water-circulating pump, bittern water sprays to from bittern water spray head and hangs over marine alga geometrical clamp On undaria pinnitafida stalk in seat, bittern water flows downward along undaria pinnitafida stalk, and during needle plate combs silk, bittern water plays lubrication and made With, and the finished product ratio of stem can be greatly improved.

After undaria pinnitafida stalk is combed into silk, with the decline of geometrical clamp elevator 2, undaria pinnitafida stem can drop to needle plate At bottom plate, when undaria pinnitafida stem, which continues to decline, reaches certain length, cutting knife motion is got up, and (or double is cut in cutting knife baffle plate Knife) cooperation under, undaria pinnitafida stem is cut off.

After silk-dressing machine works certain time, the draw point on needle plate can wind some seaweed strips chips, and they can influence to comb The working effect of silk machine, it is necessary to remove in time, the method that the present invention removes the seaweed strips chip on draw point is to open needle plate connection Valve on pipe, compressed air by needle plate connecting tube enter needle plate base in (blowing plant portion is not shown in the present invention Point), by the through hole on needle plate, the seaweed strips chip on draw point is removed.

Geometrical clamp lifting fast 1 itself has certain weight, and along with the weight of undaria pinnitafida stalk, this aggravates power drive line The load of system 2, the present invention solve this problem using counterweight, and the both sides that fast 1 is lifted in geometrical clamp use the two of equal weight Block counterweight, the weight sum of two pieces of counterweights are equal to the weight that geometrical clamp lifts fast 1, and this contributes to the stress balance of equipment, makes to set Received shipment turns more stable, durable.

Embodiment 2：

Figure 13 is a kind of second of structural representation of marine alga silk-dressing machine, and this structure exists with the first structure difference In guide rail 1 and guide rail 2 use T-shaped guide rail, corresponding, and second of structure that Figure 14 provides geometrical clamp lifting fast 1 is shown It is intended to, in this configuration, is used cooperatively using boots are led with guide rail 1 or guide rail 2, described boots of leading include roller guide shoe and slip Lead boots.

Embodiment 3

Figure 15 is the third structural side view of the present invention.

Described geometrical clamp lifts fast 2 and extends to the other side of geometrical clamp lifting fast 1, and is symmetrical arranged other side Marine alga fixes holder, is allowed to symmetrical with original marine alga fixation holder.

Described needle board movement mechanism is symmetrically distributed in the both sides of marine alga geometrical clamp motion, and fixes holder with marine alga It is corresponding.

In the present embodiment, two trocar plate movement mechanisms share a set of marine alga geometrical clamp motion and dynamical system, this Help to reduce equipment manufacturing cost, improve production efficiency of equipment；Simultaneously as the uniform force of equipment, contribute to the stabilization of equipment Operation.

Embodiment 4

Present embodiments provide the 4th kind of structure of the present invention, Figure 16 is 4th kind of structural front view of the invention, Tu17Shi 4th kind of structural side view of the invention.

In the present embodiment, seaweed strips segment mechanism, conveyer belt, counterweight mechanism and bittern water circulation system are eliminated, Simplify marine alga geometrical clamp motion, geometrical clamp is lifted fast 2 and is directly installed together with guide rail 1, is driven in power-driven system 2 Under dynamic, the fast 2 drive marine alga geometrical clamp of geometrical clamp lifting pumps along guide rail 1.

Influenceed by the distance that pumps of geometrical clamp lifting fast 2, the silk-dressing machine of this structure is only suitable for very short Marine alga raw material, and automatic segment function can not be completed.

Embodiment 5

Figure 18, Figure 19 are the schematic diagrames of the 5th kind of structure of the present embodiment, in this kind of structure, marine alga geometrical clamp fitness machine Structure, needle board movement mechanism, the power drive unit of seaweed strips segment mechanism are using cylinder 1, cylinder 2, cylinder 3；Described cylinder 1 It is vertically mounted on geometrical clamp to lift on fast 1 bottom bay, the piston rod of cylinder 1 lifts the connecting rod base of fast 1 bottom with geometrical clamp It is connected；Described cylinder 2 is horizontally arranged in frame, and the piston rod of cylinder 2 is connected with needle plate sliding block；The described water of cylinder 3 In frame, the piston rod of cylinder 3 is connected safety with cutting knife sliding block, baffle plate sliding block.

Claims (11)

1. a kind of marine alga silk-dressing machine, including frame and the safety door that is arranged in frame, it is characterised in that：It also includes level The optical axis 1 that is arranged on above frame and it is arranged on optical axis 1 and is done in the horizontal direction along optical axis 1 opposite or relatively reciprocal Two needle board movement mechanisms of motion；The guide rail 1 that is vertically set on above frame and it is arranged on guide rail 1 and along guide rail 1 The marine alga geometrical clamp motion to pump is done in the vertical direction of center between two needle plates；It is vertically arranged Guide rail 2 on marine alga geometrical clamp motion machine frame at two sides and it is arranged on guide rail 2 and is done up and down reciprocatingly along guide rail 2 The counterweight mechanism of motion；The optical axis 5 that is horizontally set under two needle board movement mechanisms above methods, rack and it is arranged on optical axis 5 And seaweed strips segment mechanism that is opposite or doing relatively reciprocating motion is done in the horizontal direction along optical axis 5；It is arranged on seaweed strips segment Conveyer belt under mechanism above methods, rack；The bittern water circulation system being arranged in frame.

2. a kind of marine alga silk-dressing machine according to claim 1, it is characterised in that two described needle board movement mechanisms use Positive relative position is horizontally set in frame；Described needle board movement mechanism includes optical axis 1, the fixed seat of optical axis 1, spring 1, needle plate Telecontrol equipment and power-driven system 1；Described needle plate telecontrol equipment includes needle plate sliding block, needle plate connecting tube, ball valve, needle plate Device；Described spring 1 is arranged on described optical axis 1；Described needle plate sliding block include support 1, rack 1-1, rack 1-2, Beam, buffer and linear bearing 1, described needle plate sliding block are arranged on optical axis 1 by linear bearing 1；Described tooth Bar 1-1, rack 1-2 are separately mounted on two needle plate sliding blocks；Two described needle plate sliding blocks are in power-driven system 1 and spring Under 1 driven, do opposite along optical axis 1 or do relatively reciprocating motion in the horizontal direction, so as to drive two needle plates in level Do opposite on direction or do relatively reciprocating motion；Described power-driven system 1 include motor 1, sprocket wheel 1, sprocket wheel 2, sprocket wheel 2-1, Sprocket wheel 2-2, gear 1-1, gear 1-2, sprocket wheel 3-1, sprocket wheel 3-2, rack 1-1, rack 1-2, partial gear 1-1, not exclusively Gear 1-2, chain 1, chain 2-1, chain 2-2；One end of described ball valve is connected with needle plate connecting tube, the other end and compressed gas Hose body is connected；Described needle board device includes draw point, needle plate, needle plate base, sealing gasket；Described needle plate base is using stainless Steel board, it is linked together by sealing gasket and needle plate, and the other end is connected with needle plate connecting tube；Described needle plate is using stainless Steel plate, food grade plastic plate or plank, preferably food grade plastic plate.

A kind of 3. marine alga silk-dressing machine according to claim 1,2, it is characterised in that two described needle plate plate faces from upper and Some row 0.8-3.0mm steel pinholes are horizontally disposed with down, stainless steel draw point is embedded on needle plate by steel pinhole using interference mode, Each neighbouring two rows draw point of needle plate plate face to be staggered on needle plate, it is described often arrange draw point diameter from top to bottom according to Secondary is Φ a, Φ b ... Φ n, preferably Φ a >=Φ b ... >=Φ n, and the pitch of holes of each row's steel pinhole is from top to bottom successively For La, Lb ... Ln, preferably La >=Lb ... >=Ln；Two described needle plates are in horizontal geo-stationary, on two needle plates Often row's draw point is distributed in distance from top to bottom；Minimum distance L is in a draw point length and 2 times of draw points between two described needle plates Between length.

4. a kind of marine alga silk-dressing machine according to claim 1,2 and 3, it is characterised in that described needle plate plate face is from top to bottom Some a diameter of 3mm-10mm through holes of row are horizontally disposed with, described every exhausting hole is distributed in distance from top to bottom with often row's draw point.

A kind of 5. marine alga silk-dressing machine according to claim 1, it is characterised in that described marine alga geometrical clamp motion bag Include guide rail 1, the fixed seat of guide rail 1, geometrical clamp elevator 1 and power-driven system 2；Described guide rail 1 comprises at least T-shaped guide rail 1 and 2 two kinds of optical axis；Described geometrical clamp elevator 1 includes support 2, linear bearing 2 or leads boots 1, geometrical clamp elevator 2, silk Bar, screw mandrel fixing bearing, optical axis 3, the fixed seat of optical axis 3, motor 2 and connecting rod base；Described geometrical clamp lifting fast 1 is by straight Bobbin holds 2 or leads boots 1 on guide rail 1, and under the driving of dynamical system 2, is pumped along guide rail 1；Institute The dynamical system 2 stated includes motor 1, sprocket wheel 1, sprocket wheel 4, chain 3, crank and connecting rod, described connecting rod and geometrical clamp lifting fast 1 Connecting rod base on bottom is connected；Described geometrical clamp elevator 2 includes support 3, feed screw nut, linear bearing 3 and sea Algae fixes holder；Described marine alga, which fixes holder, includes support 3, the compression cylinder on support 3, bittern water-circulating pipe Road, bittern water spray head；Described geometrical clamp elevator 2 is arranged on optical axis 3 by linear bearing 3, described geometrical clamp liter While being pumped with geometrical clamp lifting fast 1, itself exists drop block 2 also along the optical axis 3 on geometrical clamp elevator 1 Under the driving of motor 2 and screw mandrel, it is moved upwardly or downwardly.

A kind of 6. marine alga silk-dressing machine according to claim 5, it is characterised in that described marine alga geometrical clamp include top board, Lower platen, extension spring and draw ring, baffle plate is set at the both ends open of described top board, set at described lower platen both ends open Put blind recess；Described extension spring is arranged on the inside of the both ends of lower platen；Described draw ring is arranged on lower platen both ends Outside；In upper lower platen interior side contacts marine alga feedstock portions, rubber blanket is set.

7. a kind of marine alga silk-dressing machine according to claim 1, it is characterised in that it is solid that described counterweight mechanism includes guide rail 2, guide rail 2 Reservation, to pouring weight, steel wire rope, pulley；Described guide rail 2 comprises at least 4 two kinds of T-shaped guide rail 2 and optical axis；It is described on pouring weight Boots 2 or linear bearing 4 are led in setting；Described leads boots 2 or linear bearing 4 on described T-shaped rail 2 or optical axis 4, and in steel Under the traction of cord, it is connected by pulley with geometrical clamp lifting fast 1；Described two pieces are equal in weight to pouring weight, setting one Block is G1 to the weight of pouring weight, and the weight that geometrical clamp lifts fast 1 is G, preferably 2G1=G ± 10%G.

8. a kind of marine alga silk-dressing machine according to claim 1, it is characterised in that described seaweed strips segment mechanism includes light Axle 5, the fixed seat of optical axis 5, spring 2, baffle plate sliding block, cutting knife sliding block, cutting knife baffle plate, cutting knife and power-driven system 3；Described Spring 2 is arranged on optical axis 5；Described baffle plate sliding block, cutting knife sliding block include support 3, rack 2-1, rack 2-2, beam, slow Rush device and and linear bearing 5；Described rack 2-1 is arranged on baffle plate sliding block, and described rack 2-2 is arranged on cutting knife sliding block On；Described baffle plate sliding block, cutting knife sliding block are arranged on optical axis 5 by linear bearing 5, and in power-driven system 3 and spring 2 Driven under do opposite along optical axis 5 or do relatively reciprocating motion in the horizontal direction, so as to drive cutting knife and cutting knife baffle plate Open and close；Described power-driven system 3 include motor 1, sprocket wheel 1, sprocket wheel 2, sprocket wheel 2-1, sprocket wheel 2-2, gear 1-1, Gear 1-2, sprocket wheel 3-1, sprocket wheel 3-2, chain 1, chain 2-1, chain 2-2, sprocket wheel 5-1, sprocket wheel 5-2, sprocket wheel 6-1, sprocket wheel 6- 2nd, chain 4-1, chain 4-2, partial gear 2-1, partial gear 2-2, rack 2-1, rack 2-2.

A kind of 9. marine alga silk-dressing machine according to claim 1,2,5 and 8, it is characterised in that described marine alga geometrical clamp motion Mechanism, needle board movement mechanism, the power drive unit of seaweed strips segment mechanism are using cylinder 1, cylinder 2, cylinder 3；Described gas Cylinder 1 is vertically mounted on geometrical clamp and lifted on fast 1 bottom bay, and the piston rod of cylinder 1 lifts the connecting rod bottom of fast 1 bottom with geometrical clamp Seat is connected；Described cylinder 2 is horizontally arranged in frame, and the piston rod of cylinder 2 is connected with needle plate sliding block；Described cylinder 3 It is horizontally arranged in frame, the piston rod of cylinder 3 is connected with cutting knife sliding block, baffle plate sliding block.

10. a kind of marine alga silk-dressing machine according to claim 1, it is characterised in that described bittern water circulation system includes salt Bittern storage tank, bittern water-circulating pump, bittern water circulating pipe and bittern water spray head；Described bittern water storage tank is placed on defeated Send with outer side-lower and be fixed in frame, described bittern water storage tank top is obliquely installed bittern water separation grate, described Bittern water spray head is arranged on the marine alga that geometrical clamp is lifted on fast 2 and fixed below holder, and described bittern water spray head is a pipe Shape structure, some apertures are set along tube wall.

11. a kind of marine alga combs silk production technology, its raw material not only limits to traditional superfine salt marsh undaria pinnitafida stalk, it is characterised in that One-level salt marsh undaria pinnitafida stalk is also suitable, is comprised the following steps：

A. bittern water is prepared

Salt and water are configured to the bittern aqueous solution of high concentration, the concentration of described bittern water is salt：Water >=20% (mass ratio), And food grade thickener is added in bittern water, dissolve and be well mixed, the addition of described thickener is bittern water quality 0.5%-10%.

B. the bittern water prepared is added in bittern water storage tank,

C. choose the one-level salt marsh undaria pinnitafida stalk of certain length, remove residual leaf above；

D. the root that some one-level salt marsh undaria pinnitafidas obstruct is stacked in marine alga geometrical clamp；

E. marine alga marine alga geometrical clamp hung on marine alga silk-dressing machine is fixed in holder, makes one-level undaria pinnitafida stalk tip vertical down In ground；Fixed in marine alga in holder, 2-10 marine alga geometrical clamp can be placed, start compression cylinder, the piston of compression cylinder The marine alga being placed in marine alga fixation holder is fixed clip hold-down by bar；

F. silk-dressing machine power supply is opened

(a) motor 2 rotates, and geometrical clamp lifts fast 2 rapid increase, drives marine alga geometrical clamp quickly to move to silk-dressing machine top upwards Portion；

(b) motor 1 rotates, and drives geometrical clamp lifting fast 1 to pump, while to proceed by opening and closing past for two comb silk needle plates Multiple motion；Motor 2 inverts simultaneously, while geometrical clamp lifting fast 2 itself pumps with geometrical clamp lifting fast 1, also exists Under the drive of motor 2, slowly move downward, comb silk needle plate gradually obstructs from the tip that one-level salt marsh undaria pinnitafida obstructs to salt marsh undaria pinnitafida Root comb silk；

(c) bittern water-circulating pump is opened, and bittern water is sprayed to by bittern water spray head on the marine alga entrained by marine alga geometrical clamp；

G. complete combing segment stem and be downwardly into stem segment mechanism, seaweed strips are cut into specific length according to technological requirement Stem section；

H. it is transported to by the stem of cutting certain length by conveyer belt outside machine.