CN111422810A - Quantitative filling equipment based on enzymolysis method preparation shrimp head sauce - Google Patents

Abstract

The invention discloses quantitative filling equipment for preparing prawn head sauce based on an enzymolysis method, and relates to the field of processing of prawn head sauce. Whole device not only can carry out quantitative filling work, and can absorb out the juice in the enzymolysis tank automatically to filter and disinfect, carry out automatic filling and shift to the juice after handling simultaneously.

Description

Quantitative filling equipment based on enzymolysis method preparation shrimp head sauce

Technical Field

The invention relates to the field of processing of shrimp head sauce, in particular to quantitative filling equipment for preparing shrimp head sauce based on an enzymolysis method.

Background

The penaeus vannamei boone is one of three excellent varieties with the largest culture scale in the world, the single yield of the penaeus vannamei boone is the first of the middle position of the penaeus vannamei boone, the processing amount of removing heads of the penaeus vannamei boone is about 100 ten thousand tons every year in China, and the waste heads of the penaeus vannamei boone are more than 30 ten thousand tons. At present, most of the shrimp heads are used for feed production, and a small part of the shrimp heads are used for preparing chitin, so that the utilization value of shrimp head resources is greatly reduced. The sauce prepared from the heads of the penaeus vannamei boone at present has the advantages of rich shrimp flavor and rich nutrition, so the sauce prepared from the heads of the penaeus vannamei boone has wide prospect.

Currently, an enzymolysis method is generally used when making sauce, wherein the enzymolysis method is to hydrolyze shrimp heads by using protease contained in the shrimp heads or added protease so as to obtain small molecular peptides and free amino acids, and the small molecular peptides and the free amino acids can be used as base materials for producing natural seafood spices and are used for flavoring seasonings. The method has the advantages that the reaction condition is mild, the hydrolysis efficiency is high, the damage to nutrient components is small, the acquisition rate of small molecular amino acid is higher, and the obtained amino acid is biologically stored and is easy to be absorbed by human bodies; the disadvantage is an increase in production costs. Compared with the squeezing method and the chemical method, the method has incomparable advantages, high hydrolysis efficiency, improved flavor, easy absorption, high nutritive value and no environmental pollution, thereby gradually replacing the traditional squeezing method and the chemical method.

The method is very suitable for hydrolyzing animal protein, is an advanced extraction method at present, and is a mainstream trend for producing seafood seasonings in future. The hydrolysate can be used as the base material of essence and spice or directly used in food industry, and has been developed rapidly in recent years. Animal proteins are changed by the hydrolysis of proteins by proteases in several ways: the molecular mass is reduced; the number of ionic groups increases; the exposure of the hydrophobic groups is increased. Therefore, partial functional properties of the protein are changed, so that the emulsifying property and the water-retaining property of the protein are improved, the heat reactivity is improved, and the protein is easier to digest and absorb by a human body. However, the shrimp head sauce that prepares based on enzymolysis method does not have equipment at present and can carry out timely processing to it after processing is accomplished, traditional processing equipment need take out the juice in the enzymolysis tank and transfer to and handle in the filtration equipment that corresponds, later handle in transferring to other disinfecting equipment, at last transfer to filling equipment and carry out the filling, the centre need experience multiple transfer, not only consumed the time, machining efficiency has been reduced, and the condition of the material bottom surface that scatters appears easily also for a plurality of times, lead to the material extravagant serious, for this reason, need one kind based on the quantitative filling equipment of enzymolysis method preparation shrimp head sauce urgently.

Disclosure of Invention

The invention aims to solve the problems that the traditional processing equipment needs to transfer raw materials for multiple times during processing prawn head sauce, the consumed time is long, the processing flow is long, and the processing efficiency is low, and provides quantitative filling equipment for preparing the prawn head sauce based on an enzymatic hydrolysis method.

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

a quantitative filling device for preparing prawn head sauce based on enzymolysis method comprises a movable device main body positioned at one side of an enzymolysis tank, the device main body comprises a transfer mechanism, a material processing mechanism, a filling mechanism, a driving mechanism and a material taking mechanism, the transfer mechanism, the filling mechanism, the driving mechanism and the material taking mechanism are all arranged on the material processing mechanism, the material taking mechanism is linked with the driving mechanism and is used for absorbing the juice in the enzymolysis tank and filtering the juice, the filling mechanism is arranged on the right side of the material processing mechanism and is linked with the driving mechanism for quantitative filling work, the transfer mechanism is positioned below the filling mechanism and is in linkage connection with the driving mechanism for transferring filled materials, the material processing mechanism is provided with a control assembly, and the control assembly is connected with the driving mechanism;

the material processing mechanism is including the mobilizable removal seat that is located enzymolysis tank one side, the top of removing the seat is fixed with the box, and the top surface of box is provided with the venthole, is fixed with the supporting shoe between the bottom of box and the device main part, the right side of box and remove and be fixed with L shape fixed plates between the seat, the inner chamber of box divide into the treatment chamber that is located the top, is located the installation cavity of below, be fixed with the electrothermal tube on the bottom inner wall of treatment chamber.

Preferably, the driving mechanism comprises a driving motor fixed in the installation cavity, a bevel gear connected with the material taking mechanism is fixed at the left output end of the driving motor, a missing gear positioned at the right side of the box body is fixed at the right output end of the driving motor, a vertical rack capable of moving vertically is periodically meshed with the missing gear, the upper end of the vertical rack is connected with the filling mechanism, the lower end of the vertical rack is rotatably connected with a driving rod arranged obliquely, the other end of the driving rod is rotatably connected with a transverse rack, a rectangular guide rod is movably inserted inside the transverse rack, the left end of the rectangular guide rod is fixed with a corresponding supporting block, a lower limiting block in sliding fit with the outer sleeve is fixed at the right end of the rectangular guide rod, a second spring is sleeved at the outer side of one end of the rectangular guide rod positioned in the outer sleeve, and the second spring is positioned at the left side of the lower, and a transverse rack is fixed on the rear side of the right end of the outer sleeve and connected with the transfer mechanism.

Preferably, the filling mechanism is including being fixed in the fixed block on box right side, and the right-hand member of fixed block is fixed with vertical stock solution bottle, the inboard slip of stock solution bottle is pegged graft and is had the vertical push tube of both ends confined, and the lower extreme of push tube is fixed with the piston of sliding fit in the stock solution bottle, the inboard sliding fit of push tube has last spacing piece, and the top of going up the spacing piece is fixed with the short end of L shape pole, the short end activity of L shape pole runs through the push tube, and the long end of L shape pole transversely set up and with the upper end fixed connection of vertical rack, the upper end activity of vertical rack runs through the fixed block, and the upper end cover of vertical rack is equipped with the first spring of arranging in under pressure between L shape pole and the fixed block, the right side of stock solution bottle is fixed and is led to there is the pipe, installs the valve on the pipe, the fixed and led to the lower extreme of stock solution bottle has the drain pipe, and the left side of stock solution bottle is fixed to be led to have a feed liquor pipe, the other.

Preferably, feeding agencies is including being fixed in the vertical guide cylinder of box upper end, and guide cylinder and the inside intercommunication of box, the upper end of guide cylinder is sealed, vertical dwang is installed in the inboard rotation of guide cylinder, and the lower extreme of dwang runs through the diapire of treatment chamber and is fixed with the bevel gear circle that is located the installation intracavity, bevel gear circle and bevel gear meshing, the upper end of dwang is fixed with a plurality of flabellums along length direction, and the flabellum is located the inboard of guide cylinder, be fixed with the filter box with the dwang is coaxial on the dwang, and filter box is located the top of electrothermal tube, the fixed intercommunication in upper end of guide cylinder has the pipette, and the other end of pipette is stretched into in the enzymolysis tank and fixed cover is equipped with filter.

Preferably, transfer mechanism is including rotating the vertical right montant of connecting on L shape fixed plates, the lower extreme of right montant rotates with the removal seat to be connected, and the upper end of right montant is fixed with the year thing board that is located L shape fixed plate top, and the other end of carrying the thing board is provided with the filling bottle standing groove, the fixed cover in the lower extreme outside of right montant is equipped with the ring gear, ring gear and the periodic meshing of horizontal rack.

Preferably, the control assembly comprises a single chip microcomputer controller fixed on the L-shaped fixing plate, and the single chip microcomputer controller is electrically connected with the electric heating tube and the driving motor.

Preferably, the air outlet direction of the fan blades is consistent with the direction from the guide cylinder to the box body, and the cross section of the inner side of the guide cylinder is circular.

Preferably, the top of box is provided with the slag removing hole with the treatment chamber intercommunication, and the upper end of box articulates there is the apron that the lid fits on the slag removing hole, and the front side of box articulates has the access door that matches with the installation cavity, and the lower part of box is provided with the storing chamber.

Preferably, all be provided with the mounting hole that matches with the dwang on the top inner wall of installation cavity and the bottom inner wall, and the dwang rotates to be installed in the mounting hole that corresponds, and the top inner wall of installation cavity passes through rubber seal with the dwang and rotates sealedly.

Preferably, the long end of the L-shaped fixing plate is provided with a first through hole for the driving rod to pass through, and the short end of the L-shaped fixing plate is provided with a second through hole for the outer sleeve and the transverse rack to pass through.

Compared with the prior art, the scheme has the following beneficial effects:

this scheme is through breather pipe, driving motor, bevel gear, umbrella ring gear, dwang, flabellum, pipette and filter box's setting, not only can absorb the juice in the enzymolysis tank automatically, and can also carry out centrifugal filtration automatically, can also heat the juice through the electrothermal tube that sets up simultaneously to it heaies up to disinfect.

This scheme is through pipette, breather pipe, driving motor, lack the setting of gear, erect rack, L shape pole, actuating lever, horizontal rack, ring gear, year thing board, breather pipe and piston isotructure, not only can realize the ration filling of juice through same driving motor drive, and the juice that finishes to the filling tube that can also link shifts for the staff picks up the convenience.

Whole device not only can carry out quantitative filling work, and can be automatically with the zymohydrolysis pond in absorb out the juice to filter and disinfect, carry out automatic filling and shift to the juice after handling simultaneously, excellent in use effect, each structure can link and go on, not only efficient, and can reduce the device volume, make and remove conveniently, convenient and different zymohydrolysis pond cooperation use, whole device cost of manufacture is low, excellent in use effect, it is nimble to use.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view schematically illustrating the present invention.

FIG. 3 is a schematic view of the piston moving downward according to the present invention.

Fig. 4 is a schematic diagram of the arrangement of the lower limiting block of the present invention.

Fig. 5 is a schematic view of a missing gear side arrangement of the present invention.

Fig. 6 is a schematic top view of the arrangement of the filtering net cage of the present invention.

The reference numbers in the figure are 1 device main body, 2 enzymolysis pool, 3 transfer mechanism, 31 right vertical rod, 32 loading plate, 33 gear ring, 4 material processing mechanism, 41 moving seat, 42 box body, 43L fixing plate, 44 installation cavity, 45 processing cavity, 46 electric heating tube, 47 supporting block, 5 filling mechanism, 51 fixing block, 52 liquid storage bottle, 53 push tube, 54 piston, 55 liquid inlet tube, 56L rod, 57 upper limit block, 58 air vent tube, 59 liquid outlet tube, 6 driving mechanism, 61 driving motor, 62 bevel gear, 63 missing gear, 64 vertical rack, 65 first spring, 66 driving rod, 67 outer sleeve, 68 horizontal rack, 69 rectangular guide rod, 610 lower limit block, 611 second spring, 7 material taking mechanism, 71 material guide cylinder, 72, 73 umbrella gear ring, 74 filtering net cage, 75 fan blade, 76 liquid suction tube and 77 filtering net cover.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-6, a quantitative filling device for preparing prawn head sauce based on an enzymatic hydrolysis method comprises a movable device main body 1 positioned on one side of an enzymatic hydrolysis tank 2, wherein the device main body 1 comprises a transfer mechanism 3, a material processing mechanism 4, a filling mechanism 5, a driving mechanism 6 and a material taking mechanism 7, the transfer mechanism 3, the filling mechanism 5, the driving mechanism 6 and the material taking mechanism 7 are all arranged on the material processing mechanism 4, the material taking mechanism 7 is in linkage connection with the driving mechanism 6 and is used for absorbing juice in the enzymatic hydrolysis tank 2 and filtering the juice, the filling mechanism 5 is arranged on the right side of the material processing mechanism 4 and is in linkage connection with the driving mechanism 6 and is used for performing quantitative filling work, the transfer mechanism 3 is positioned below the filling mechanism 5 and is in linkage connection with the driving mechanism 6 and is used for transferring filled materials, and a control component is arranged on the material processing mechanism, the control component is connected with the driving mechanism 6;

the material treatment mechanism 4 comprises a movable moving seat 41 positioned on one side of the enzymolysis tank 2, a box body 42 is fixed above the top of the moving seat 41, an air outlet hole is formed in the top surface of the box body 42, a supporting block 47 is fixed between the bottom of the box body 42 and the device main body 1, an L-shaped fixing plate 43 is fixed between the right side of the box body 42 and the moving seat 41, the inner cavity of the box body 42 is divided into a treatment cavity 45 positioned above and an installation cavity 44 positioned below, and an electric heating tube 46 is fixed on the inner wall of the bottom of the treatment cavity 45.

In this embodiment, the driving mechanism 6 includes a driving motor 61 fixed in the installation cavity 44, a bevel gear 62 connected to the material taking mechanism 7 is fixed at a left output end of the driving motor 61, a missing gear 63 located at a right side of the box 42 is fixed at a right output end of the driving motor 61, a vertical rack 64 capable of moving vertically is periodically meshed with the missing gear 63, an upper end of the vertical rack 64 is connected to the filling mechanism 5, a driving rod 66 disposed obliquely is rotatably connected to a lower end of the vertical rack 64, a transverse rack 68 is rotatably connected to the other end of the driving rod 66, a rectangular guide rod 69 is movably inserted inside the transverse rack 68, a left end of the rectangular guide rod 69 is fixed to the corresponding support block 47, a lower limit block 610 slidably fitted in the outer sleeve 67 is fixed to a right end of the rectangular guide rod 69, a second spring 611 is sleeved outside one end of the rectangular guide rod 69 located in the outer sleeve 67, the second spring 611 is located at the left side of the lower limiting block 610, a rack bar 68 is fixed at the rear side of the right end of the outer sleeve 67, and the rack bar 68 is connected with the transfer mechanism 3.

In this embodiment, the filling mechanism 5 includes a fixing block 51 fixed on the right side of the box 42, a vertical liquid storage bottle 52 is fixed at the right end of the fixing block 51, a vertical push tube 53 with two closed ends is inserted into the inner side of the liquid storage bottle 52 in a sliding manner, a piston 54 in the liquid storage bottle 52 is fixed at the lower end of the push tube 53 in a sliding manner, an upper limiting block 57 is arranged at the inner side of the push tube 53 in a sliding manner, the top of the upper limiting block 57 is fixed with a short end of an L-shaped rod 56, the short end of the L-shaped rod 56 movably penetrates through the push tube 53, the long end of the L-shaped rod 56 is transversely arranged and fixedly connected with the upper end of a vertical rack 64, the upper end of the vertical rack 64 movably penetrates through the fixing block 51, a first spring 65 pressed between the L-shaped rod 56 and the fixing block 51 is sleeved at the upper end of the vertical rack 64, a vent pipe 58 is fixed and communicated with the right side of the liquid storage bottle 52, a valve is installed on the vent pipe 58, a liquid outlet pipe 59 is fixed and communicated with the left side of the liquid storage bottle 52 and communicated with a liquid inlet pipe 55.

In this embodiment, the material taking mechanism 7 includes a vertical material guiding cylinder 71 fixed at the upper end of the box body 42, the material guiding cylinder 71 is communicated with the interior of the box body 42, the upper end of the material guiding cylinder 71 is closed, a vertical rotating rod 72 is rotatably installed at the inner side of the material guiding cylinder 71, the lower end of the rotating rod 72 penetrates through the bottom wall of the processing cavity 45 and is fixed with an umbrella gear ring 73 located in the installation cavity 44, the umbrella gear ring 73 is engaged with the bevel gear 62, a plurality of fan blades 75 are fixed at the upper end of the rotating rod 72 along the length direction, the fan blades 75 are located at the inner side of the material guiding cylinder 71, a filtering net box 74 coaxial with the rotating rod 72 is fixed on the rotating rod 72, the filtering net box 74 is located above the electric heating tube 46, a liquid suction tube 76 is fixedly communicated with the upper end of.

In this embodiment, the transfer mechanism 3 includes the vertical right vertical rod 31 rotatably connected to the L-shaped fixed plate 43, the lower end of the right vertical rod 31 is rotatably connected to the movable base 41, the upper end of the right vertical rod 31 is fixed with the object carrying plate 32 located above the L-shaped fixed plate 43, the other end of the object carrying plate 32 is provided with a filling bottle placing groove, the outer side of the lower end of the right vertical rod 31 is fixedly sleeved with the gear ring 33, and the gear ring 33 is periodically meshed with the transverse rack 68.

In this embodiment, the control assembly includes a single chip microcomputer controller fixed on the L-shaped fixing plate 43, the single chip microcomputer controller is electrically connected to the electric heating tube 46 and the driving motor 61, the air outlet direction of the fan blades 75 is the same as the direction from the material guiding cylinder 71 to the box body 42, and the cross section of the inner side of the material guiding cylinder 71 is circular.

In this embodiment, the top of box 42 is provided with the slag removing hole that communicates with treatment chamber 45, and the upper end of box 42 articulates there is the apron that the lid fits on the slag removing hole, the front side of box 42 articulates there is the access door that matches with installation cavity 44, the lower part of box 42 is provided with the storing chamber, all be provided with the mounting hole that matches with dwang 72 on the top inner wall of installation cavity 44 and the bottom inner wall, and dwang 72 rotates and installs in the mounting hole that corresponds, and the top inner wall of installation cavity 44 passes through rubber seal with dwang 72 and rotates sealedly, the long end of L shape fixed plate 43 is provided with the first through-hole that is used for actuating lever 66 to pass, and the short-end of L shape fixed plate 43 is provided with the second through-hole that is used for outer tube.

In the invention, when taking liquid, firstly, the valve on the vent pipe 58 is opened, then the bevel gear 62 and the gear wheel 63 can be driven to rotate by the driving motor 61, the bevel gear 62 rotates to drive the bevel gear ring 73 and the rotating rod 72 to rotate, at the moment, the set fan blade 75 rotates to suck air into the liquid suction pipe 76, then the sauce in the enzymolysis tank 2 can be sucked into the material guide cylinder 71 and enter the filter net box 74 under the action of atmospheric pressure, at the moment, the set filter net box 74 rotates to filter the juice under the action of centrifugal force, the filtered juice enters the treatment cavity 45, and the juice can be heated by the set electric heating pipe 46, so that the temperature rise and sterilization are carried out on the juice.

After sterilization, the pipette 76 is taken out from the enzymolysis tank 2, the valve on the breather pipe 58 is closed, at this time, the arranged driving motor 61 is started, the arranged short gear 63 is periodically meshed with the vertical rack 64, when the short gear is meshed with the vertical rack 64, the arranged vertical rack 64 moves downwards, the arranged L-shaped rod 56 moves downwards, the arranged driving rod 66 pushes the transverse rack 68 to move rightwards, when the transverse rack 68 is meshed with the gear ring 33, the arranged gear ring 33 rotates, the carrying plate 32 is driven to rotate, one end of the carrying plate 32 with the filled bottle is rotated to the lower part of the liquid outlet pipe 59, when the transverse rack 68 moves rightwards and is separated from the gear ring 33, the upper end of the arranged L-shaped rod 56 just contacts with the push pipe 53, the piston 54 is pressed downwards, so that the juice in the bottle 52 is extruded into the filled bottle, automatic filling work is completed, when the short gear 63 is separated from the vertical rack 64, the arranged transverse rack 68 and the liquid outlet pipe 52 is pushed out to the filled bottle, when the liquid inlet pipe 54 is in a one-way, the liquid inlet pipe 54 is opened, when the liquid outlet pipe is closed, the liquid outlet valve 54 is automatically, when the liquid inlet pipe is opened, the liquid outlet valve 54 is closed, when the liquid outlet valve is opened, the liquid outlet valve 54 is opened, the liquid outlet valve is opened, when the liquid outlet valve is opened, the liquid outlet valve is automatically, the liquid outlet valve is closed, when the liquid inlet valve 54 is opened, the liquid outlet valve is closed, the liquid outlet valve is opened, when the liquid outlet valve is closed, the liquid outlet valve is opened, the liquid outlet valve is automatically, when the liquid outlet valve is opened, the liquid outlet valve is closed, the liquid.

Whole device not only can carry out quantitative filling work, and can be automatically with the zymohydrolysis pond in absorb out the juice to filter and disinfect, carry out automatic filling and shift to the juice after handling simultaneously, excellent in use effect, each structure can link going on, not only efficient, and can reduce the device volume, make the removal convenient, the cost of manufacture is low simultaneously, excellent in use effect, the use is nimble.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A quantitative filling device for preparing prawn head sauce based on an enzymolysis method comprises a movable device main body (1) positioned on one side of an enzymolysis pool (2), and is characterized in that the device main body (1) comprises a transfer mechanism (3), a material processing mechanism (4), a filling mechanism (5), a driving mechanism (6) and a material taking mechanism (7), wherein the transfer mechanism (3), the filling mechanism (5), the driving mechanism (6) and the material taking mechanism (7) are all arranged on the material processing mechanism (4), the material taking mechanism (7) is in linkage connection with the driving mechanism (6) and is used for absorbing the juice in the enzymolysis pool (2) and filtering the juice, the filling mechanism (5) is arranged on the right side of the material processing mechanism (4) and is in linkage connection with the driving mechanism (6) and is used for quantitative filling work, the transfer mechanism (3) is positioned below the filling mechanism (5) and is in linkage connection with the driving mechanism (6) for transferring filled materials, and a control assembly is mounted on the material processing mechanism (4) and is connected with the driving mechanism (6);

material processing mechanism (4) are including mobilizable removal seat (41) that are located enzymolysis tank (2) one side, the top of removing seat (41) is fixed with box (42), and the top surface of box (42) is provided with the venthole, is fixed with supporting shoe (47) between the bottom of box (42) and device main part (1), be fixed with L shape fixed plate (43) between the right side of box (42) and removal seat (41), the inner chamber of box (42) divide into treatment chamber (45) that are located the top, installation cavity (44) that are located the below, be fixed with electrothermal tube (46) on the bottom inner wall of treatment chamber (45).

2. The quantitative filling equipment for preparing the prawn head sauce based on the enzymatic hydrolysis method as claimed in claim 1, wherein the driving mechanism (6) comprises a driving motor (61) fixed in a mounting cavity (44), a bevel gear (62) connected with the material taking mechanism (7) is fixed at the left output end of the driving motor (61), a missing gear (63) positioned at the right side of the box body (42) is fixed at the right output end of the driving motor (61), vertical racks (64) capable of moving vertically are periodically meshed with the missing gear (63), the upper ends of the vertical racks (64) are connected with the filling mechanism (5), a driving rod (66) arranged obliquely is rotatably connected at the lower end of the vertical racks (64), a transverse rack (68) is rotatably connected at the other end of the driving rod (66), and a rectangular guide rod (69) is movably inserted at the inner side of the transverse rack (68), the left end of the rectangular guide rod (69) is fixed with the corresponding supporting block (47), the right end of the rectangular guide rod (69) is fixed with a lower limiting block (610) in the outer sleeve (67) in a sliding fit mode, a second spring (611) is sleeved on the outer side of one end, located in the outer sleeve (67), of the rectangular guide rod (69), the second spring (611) is located on the left side of the lower limiting block (610), a transverse rack (68) is fixed on the rear side of the right end of the outer sleeve (67), and the transverse rack (68) is connected with the transfer mechanism (3).

3. The quantitative filling equipment for preparing prawn head sauce based on the enzymatic hydrolysis method as claimed in claim 2, wherein the filling mechanism (5) comprises a fixing block (51) fixed on the right side of the box body (42), a vertical liquid storage bottle (52) is fixed at the right end of the fixing block (51), a vertical push pipe (53) with two closed ends is inserted into the inner side of the liquid storage bottle (52) in a sliding manner, a piston (54) in sliding fit in the liquid storage bottle (52) is fixed at the lower end of the push pipe (53), an upper limiting block (57) is arranged on the inner side of the push pipe (53) in a sliding fit manner, the top of the upper limiting block (57) is fixed with a short end of a L-shaped rod (56), the short end of the L-shaped rod (56) movably penetrates through the push pipe (53), the long end of the L-shaped rod (56) is transversely arranged and fixedly connected with the upper end of the vertical rack (64), the upper end of the vertical rack (64) movably penetrates through the liquid storage bottle (52), a liquid inlet pipe (55) is movably arranged between the L) and the liquid storage bottle (55), a liquid outlet pipe (55) is fixedly connected with a liquid inlet pipe (55), a one-way vent pipe (55) is arranged on the right side, and a liquid outlet pipe (55), and a liquid inlet pipe (55) is arranged on the fixing valve (55), and a liquid outlet pipe (55), and a one-way vent pipe (55) are arranged on the fixing bottle (55), and a liquid inlet pipe (55).

4. The quantitative filling equipment for preparing the shrimp head sauce based on the enzymatic hydrolysis method as claimed in claim 2, wherein the material taking mechanism (7) comprises a vertical material guiding cylinder (71) fixed at the upper end of the box body (42), the material guiding cylinder (71) is communicated with the interior of the box body (42), the upper end of the material guiding cylinder (71) is closed, a vertical rotating rod (72) is rotatably installed at the inner side of the material guiding cylinder (71), the lower end of the rotating rod (72) penetrates through the bottom wall of the processing cavity (45) and is fixedly provided with an umbrella gear ring (73) positioned in the installation cavity (44), the umbrella gear ring (73) is meshed with the bevel gear (62), the upper end of the rotating rod (72) is fixedly provided with a plurality of fan blades (75) along the length direction, the fan blades (75) are positioned at the inner side of the material guiding cylinder (71), and a filtering net cage (74) coaxial with the rotating rod (72) is fixed on the, the filtering net cage (74) is positioned above the electric heating pipe (46), the upper end of the material guide cylinder (71) is fixed and communicated with a liquid suction pipe (76), and the other end of the liquid suction pipe (76) extends into the enzymolysis tank (2) and is fixedly sleeved with a filtering net cover (77).

5. The quantitative filling equipment for preparing prawn head sauce by the enzymolysis method as claimed in claim 2, wherein the transfer mechanism (3) comprises a vertical right vertical rod (31) rotatably connected to a L-shaped fixing plate (43), the lower end of the right vertical rod (31) is rotatably connected with the movable seat (41), a loading plate (32) positioned above the L-shaped fixing plate (43) is fixed at the upper end of the right vertical rod (31), a filling bottle placing groove is arranged at the other end of the loading plate (32), a gear ring (33) is fixedly sleeved at the outer side of the lower end of the right vertical rod (31), and the gear ring (33) is periodically meshed with the transverse rack (68).

6. The quantitative filling equipment for preparing prawn head sauce by the enzymolysis method according to any one of claims 2 to 5, wherein the control assembly comprises a single chip microcomputer controller fixed on an L-shaped fixing plate (43), and the single chip microcomputer controller is electrically connected with the electric heating tube (46) and the driving motor (61).

7. The quantitative filling equipment for preparing prawn head sauce by the enzymolysis method as claimed in claim 4, wherein the air outlet direction of the fan blades (75) is consistent with the direction from the material guiding cylinder (71) to the box body (42), and the cross section of the inner side of the material guiding cylinder (71) is circular.

8. The quantitative filling equipment for preparing prawn head sauce by the enzymolysis method as claimed in claim 1, wherein a slag removing port communicated with the processing cavity (45) is arranged at the top of the box body (42), a cover plate covering the slag removing port is hinged at the upper end of the box body (42), an access door matched with the installation cavity (44) is hinged at the front side of the box body (42), and a storage cavity is arranged at the lower part of the box body (42).

9. The quantitative filling equipment for preparing the shrimp head sauce based on the enzymatic hydrolysis method as claimed in claim 4, wherein the top inner wall and the bottom inner wall of the installation cavity (44) are provided with installation holes matched with the rotating rod (72), the rotating rod (72) is rotatably installed in the corresponding installation holes, and the top inner wall of the installation cavity (44) and the rotating rod (72) are rotatably sealed through rubber sealing rings.

10. The apparatus for quantitatively filling prawn head sauce by enzymatic hydrolysis as set forth in claim 2, wherein the long end of the L-shaped fixing plate (43) is provided with a first through hole for the driving rod (66) to pass through, and the short end of the L-shaped fixing plate (43) is provided with a second through hole for the outer sleeve (67) and the rack bar (68) to pass through.

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