CN112660475A

CN112660475A - Clear soup condensation packaging equipment and condensation packaging method

Info

Publication number: CN112660475A
Application number: CN202011478147.3A
Authority: CN
Inventors: 周晓燕; 曹仲文; 朱文政; 孟祥忍; 章海风; 秦康生
Original assignee: Yangzhou University
Current assignee: Yangzhou University
Priority date: 2020-12-15
Filing date: 2020-12-15
Publication date: 2021-04-16
Anticipated expiration: 2040-12-15
Also published as: CN112660475B

Abstract

A clear soup condensation packaging device and a condensation packaging method belong to the technical field of food processing equipment and comprise a clear soup storage device, a clear soup condensation auxiliary processing device, a coagulum shoveling device and a clear soup packaging device, the device is novel in structure, and the purpose of quickly removing froth in the clear soup is achieved through the clear soup storage device; the formation of froth and impurities in the cooling solidification process is accelerated by the clear soup condensation auxiliary processing device; removing upper-layer precipitated impurities of the solidified substances through a solidified substance scraping device to obtain clear soup frozen solidified substances without froth and impurities; can obtain the packing that the box was frozen and was full of 1.1 atmosphere nitrogen gas's of clear soup through clear soup packing plant to inside depositing clear soup, solved in the clear soup use of food culinary art, often take out in clear soup strorage device through the ladle, when repeatedly taking out clear soup in clear soup strorage device through the ladle, cause the problem of repetition, many times pollution to clear soup.

Description

Clear soup condensation packaging equipment and condensation packaging method

Technical Field

The invention belongs to the technical field of food processing equipment, relates to a food processing device and a processing method, and particularly relates to clear soup condensation packaging equipment and a condensation packaging method.

Background

At present, clear soup is often used in Huaiyang dish cooking, and the clear soup refers to soaking food materials such as chicken, spareribs and ham for 3 hours at normal temperature of 25 ℃, scalding the food materials in boiling water, cleaning the food materials, putting the food materials into a constant-temperature cooking pot, adding 3 times of cold water for the food materials, heating the constant-temperature pot, controlling the constant temperature to be 85 ℃ to heat the food materials, and filtering the soup after 3 hours to obtain the clear soup of Huaiyang dish. The clear soup is frequently taken out of the clear soup storage device through the spoon in the food cooking use process, and the clear soup is repeatedly taken out of the clear soup storage device through the spoon, so that the clear soup is polluted for many times.

Disclosure of Invention

The invention aims to provide clear soup condensation packaging equipment and a condensation packaging method aiming at the defects that clear soup is easy to cause multiple pollution when being repeatedly taken and the food cooking quality is influenced, and the like, so that the defect that the clear soup is easy to cause multiple pollution when being used can be solved, and the cooking quality is further improved.

The technical scheme of the invention is as follows: the utility model provides a clear soup condensation equipment for packing which characterized in that: the condensation packaging equipment consists of a clear soup storage device, a clear soup condensation auxiliary processing device, a coagulum shoveling device and a clear soup packaging device;

the clear soup storage device consists of a chassis, a transition frame and a hurdle frame; the transition frame is connected and arranged above the chassis, the barrier frame is connected and arranged above the transition frame, the bottom surfaces of two sides of the barrier frame are provided with upper grooves, the top surfaces of two sides of the chassis are provided with lower grooves, the upper parts of two sides of the transition frame are provided with upper bosses, the lower parts of two sides of the transition frame are provided with lower bosses, the upper bosses are connected with the upper grooves in an inserting manner, the lower bosses are connected with the lower grooves in an inserting manner, a plurality of transverse partition rails and longitudinal partition rails are fixedly arranged in the transition frame, and the transverse partition rails are perpendicular to the longitudinal partition rails;

the clear soup condensation auxiliary processing device comprises a freezing box body, a sealing door hinged on the freezing box body through a first hinge, a freezing bin is arranged in the freezing box body, a first electromagnetic vibration exciter is connected and arranged at the bottom of the freezing bin, a moving frame is arranged in the freezing bin, supporting shafts are connected and arranged at two sides of the bottom of the moving frame, rollers are arranged on the supporting shafts, a first supporting frame is arranged at one side of the freezing box body, a supporting platform is connected and arranged on the first supporting frame, a first air cylinder is arranged on the supporting platform, a second supporting frame is arranged at the other side of the freezing box body, a supporting seat is arranged at the top of the second supporting frame, a first round through hole is arranged on the supporting seat, second round through holes are arranged on two side walls of the freezing box body, a cross rod is connected and arranged on the first air cylinder, two eccentric wheels are fixedly arranged, the eccentric wheel drives the movable frame to suspend in the air by rotating the cross rod, and the first electromagnetic vibration exciter impacts the movable frame to form vibration, so that floating foam and impurities are formed quickly;

the solidified material shoveling device consists of an outer frame, a baffle, a nut, a shoveling knife, a roller, a cross beam, a longitudinal beam and a bolt; through grooves are formed in the front side wall and the rear side wall of the outer frame, longitudinal beams connected with the front side wall and the rear side wall are arranged at the top of the outer frame, cross beams are connected between the longitudinal beams, a baffle is connected to the left side of the outer frame, the right side and the bottom of the outer frame are both of a hollow structure, a shoveling knife is arranged inside the outer frame and is in sliding connection with the through grooves through bolts and nuts, wheel shafts are fixedly arranged at the bottoms of the front side wall and the rear side wall of the outer frame, and idler wheels are;

the clear soup packaging device consists of a vacuum pump, a first valve, a first pipeline, an air release valve, a vacuum pressure gauge, a nitrogen storage tank, a second valve, a third valve, a second pipeline, a pressure gauge, a working bin, a device template and a clear soup storage box; the vacuum pump, the nitrogen storage tank and the working bin are all arranged on the ground, the first pipeline is connected and arranged at the upper part of the vacuum pump, the vacuum pressure gauge is connected and arranged on the vacuum pump, the first valve is arranged on the first pipeline, the air release valve is arranged at the upper end of the first pipeline, the upper part of the nitrogen storage tank is respectively provided with the second valve, the third valve and the second pipeline, the pressure gauge is arranged between the second valve and the third valve, the working bin is internally provided with an inner bin, the first pipeline and the second pipeline are communicated with the inner bin, the outer side of the working bin is provided with a main hatch, the outer side of the main hatch is provided with a main hatch door, a sealing ring is arranged between the working bin and the main hatch, the main hatch is connected with the working bin through a second hinge, the left side and the right side of the main hatch are symmetrically provided with notches, the bolts are arranged at positions corresponding to the notches at the outer side of the working bin, the top of, an air cylinder is arranged in the fourth round through hole and consists of a piston rod, a first round counter bore, a first air inlet, a second air inlet, an upper cavity, a piston, a second round counter bore, a lower cavity, a second piston rod and a second round through hole, a first electric wire is arranged in the second round through hole, a positioning platform is arranged at the center of the bottom of the inner bin, a rectangular counter bore is arranged at the center of the positioning platform, a second electromagnetic vibration exciter is arranged at the center of the rectangular counter bore, a seventh round through hole and an eighth round through hole for mounting the second electric wire are arranged at the bottom of the second electromagnetic vibration exciter, cushion blocks are arranged around the rectangular counter bore, a device template is arranged above the cushion blocks and is arranged in the rectangular counter bore, fourth handles are arranged at two sides of the device template, a third rectangular counter bore is arranged at the top of the device template, a second boss is formed by the third rectangular counter bore and the third rectangular, the both sides of fourth handle are equipped with the clip, be equipped with the case in the third rectangle counter bore, be equipped with the fourth rectangle counter bore on the case, fourth rectangle counter bore top is equipped with cornice all around, is equipped with the briquetting above the device template, it is equipped with the upper portion clamp plate to go up briquetting upper portion, it is equipped with the lower part clamp plate to go up the briquetting lower part, and the top of lower part clamp plate is equipped with first rectangle counter bore, be equipped with heating device in the first rectangle counter bore, lower part clamp plate bottom is equipped with second rectangle counter bore, be equipped with first boss between second rectangle counter bore and the second rectangle counter bore, first boss is corresponding with the second boss, is equipped with the sixth round through-hole of placing first electric wire on the clamp plate of upper portion, and upper portion clamp plate top center is connected.

The chassis, the transition frame and the fence frame are all rectangular structures, and the inner walls of the chassis, the transition frame and the fence frame are connected in a smooth manner after the chassis, the transition frame and the fence frame are assembled; the number of the transverse partition fences and the number of the longitudinal partition fences are 2, the transverse partition fences and the longitudinal partition fences are connected and fixed on the inner wall of the transition frame in a cross shape, and the transverse partition fences and the longitudinal partition fences are arranged at the same height as the transition frame; two outer sides of the transition frame are connected with a middle second handle, and two outer sides of the chassis are connected with a bottom first handle; the height of the fence frame is greater than that of the upper boss, and the depth of the chassis body is greater than that of the lower boss.

A hexagonal counter bore is formed in the end face of the cross rod; the aperture of the second round through hole is larger than the diameter of the eccentric wheel, the eccentric wheel is connected with the cross rod through a wedge key, and the eccentric distance e of the eccentric wheel₁Is more than 5 mm; the top of the movable frame is connected with a top plate, the bottom of the movable frame is connected with a bottom plate, the eccentric wheel is in contact with the bottom surface of the top plate, and the electromagnetic vibration exciter is in contact with the bottom surface of the bottom plate; an eccentricity e is formed between the axis of the second round through hole and the axis of the first round through hole₂And e is a₂=e₁(ii) a When the movable frame is arranged on the bottom surface of the freezing chamber, the height of the top plate of the movable frame is not lower than that of the top wall of the second round through hole.

The number of the longitudinal beams is 2, the number of the cross beams is 1, and the longitudinal beams and the cross beams are connected with each other to form an H-shaped structure; 2 through grooves are respectively arranged on the front and the back of the outer frame, and 4 through grooves are arranged in equal height and length and are double round-head grooves; the shoveling knife is in a U-shaped structure, the thickness of the edge of the shoveling knife is not more than 0.05mm, the outer wall of the shoveling knife and two inner side walls of the outer frame form clearance fit, and the clearance value is not more than 2 mm; the length of the scraping knife is greater than that of the outer frame, one end of the scraping knife is tightly propped against the baffle, and the other end of the scraping knife extends out of the outer frame; the shaft is welded on the front and rear side walls of the outer frame, the shaft head of the shaft is provided with a positioning pin hole, and the roller is sleeved on the shaft and is axially limited and fixed through a positioning pin.

The working bin is provided with a third support frame at the bottom, a third handle is arranged on a main cabin door, a first piston rod is arranged on the upper portion of a cylinder, a first round counter bore is arranged in the center of the first piston rod, a first air inlet is arranged at the top end of the upper portion of the first round counter bore, a piston is arranged in the middle of the cylinder, the piston divides an inner cavity of the cylinder into an upper cavity, a piston and a lower cavity, a second air inlet is arranged at the top of the upper cavity, a second air inlet is arranged at the top end of the upper cavity, a second round counter bore connected with the first round counter bore is arranged at the lower portion of.

A clear soup condensation packaging method comprises the following steps:

1. the upper boss is connected with the upper groove in an inserting mode, the lower boss is connected with the lower groove in an inserting mode, the chassis, the transition frame and the inner wall of the rail frame are connected smoothly, clear soup is poured into the device to be cooled and solidified, the rail frame is moved upwards by pressing the middle second handle, and a layer of clear soup cooling and solidifying objects are removed along the upper edge of the upper boss, so that the aim of quickly removing floating foam in the clear soup is fulfilled; pressing the upper edge of the transition frame by using a rectangular plate, turning over the transition frame, pressing a second handle, moving the chassis away through a first handle at the bottom, and removing a layer of clear soup cooling solidification object along the upper edge of the chassis so as to quickly remove impurities in the clear soup;

2. pouring boiled clear soup into a clear soup storage device to be arranged on a movable frame, ventilating to enable two first air cylinders which are fixed on the right outer side of a freezing box body and connected with a fixed supporting platform on a first supporting frame to act, moving a transverse rod with two eccentric wheels arranged on two sides out of a freezing chamber right, moving the movable frame into the freezing chamber, closing a first sealing door, setting the temperature in the freezing chamber at 1-5 degrees, ventilating to enable the first air cylinders to act, moving the transverse rod with two eccentric wheels arranged on two sides into the freezing chamber left, inserting a hexagonal wrench into a hexagonal counter bore, rotating the transverse rod by 180 degrees, suspending the movable frame by utilizing the eccentric wheels, impacting the movable frame by a first electromagnetic vibration exciter to enable the movable frame to drive the storage device with the clear soup to vibrate, and accelerating the formation of floating foam and impurities in the cooling and solidifying processes;

3. fixing the clear soup congelation, enabling a bolt to penetrate through a round through hole in the scraping knife and a through groove in the outer frame, connecting and fixing the U-shaped scraping knife and the outer frame through the bolt, enabling the bolt to move up and down in the through groove to adjust the height of the U-shaped scraping knife in the outer frame, pushing the outer frame moving roller to drive the U-shaped scraping knife to move, scraping the upper layer of the clear soup congelation to remove floating foam, turning over and fixing the clear soup congelation, pushing the outer frame moving roller to drive the U-shaped scraping knife to move, scraping the upper layer of the clear soup congelation to remove precipitated impurities, and obtaining the clear soup congelation without floating foam and impurities;

4. the bottom in the transition frame which is internally provided with the clear soup jelly without floating foam and impurities is blocked by a rectangular plate by grasping a second handle, the transition frame is moved to the upper surface of the device template, a rectangular through hole is formed by a longitudinal partition fence and a transverse partition fence, corresponds to a fourth rectangular counter bore on the storage box and is smaller than the fourth rectangular counter bore, the rectangular plate is moved away, the clear soup jelly without floating foam and impurities in the transition frame slides into the fourth rectangular counter bore, a film is covered on the device template and is clamped by a clamp, and the device template is placed on a cushion block in the rectangular counter bore by grasping the fourth handle; the third handle drives the main cabin door to close at the outer side of the main cabin opening, the first bolt at the outer side of the notch is rotated by a nut, the main cabin door and the working cabin are fixed together, the vacuum pump is started, the vacuum pump is opened to control the first valve, the working cabin is vacuumized, air in the working cabin is exhausted from the vacuum pump through the first pipeline, the vacuum pressure gauge is opened to test, when the pressure in the working cabin is 0.9 atmosphere, the vacuum pressure gauge, the vacuum pump and the first valve are closed, the second valve and the third valve are opened, nitrogen in the nitrogen storage tank enters the first pipeline from the second pipeline and then enters the working cabin, when the pressure in the working cabin is 1.1 atmosphere, the second air inlet enables the air pressure of the upper cavity to be increased, and air in the lower cavity is extruded to flow out from the second round counter bore, the first round counter bore and the first air inlet, so that the piston and the second piston rod move downwards to drive the upper pressing block to move, pressing on the cornice, when pressing, the first boss corresponds to the second boss, the first wire is electrified to heat the heating device, under the action of pressure and heating, the film belt is firmly connected with the cornice, 1.1 atmospheric pressure nitrogen is filled between the fourth rectangular counter bore of the storage box and the film, the electric wire is powered off, the upper pressing block moves upwards, the second valve and the third valve are closed, the air release valve is opened, the pressure in the working bin is the same as the outside, the nut is loosened, the main cabin door is opened, the fourth handle is grasped to move the device template out of the working bin, the clamp is loosened to cut and separate the device template along the groove by the cutter, the package of the storage box which is internally filled with clear soup and is filled with 1.1 atmospheric pressure nitrogen is obtained, because the interior of the storage box is filled with 1.1 atmospheric pressure nitrogen, the outside air cannot permeate towards the interior of the storage box, and because the nitrogen is inert gas, the insulation effect on clear soup is achieved, the protection effect on the clear soup in the storage box, the problem that the clear soup is repeatedly polluted for multiple times when the clear soup is repeatedly taken out from the clear soup storage device through the spoon in the process of using the food cooking clear soup is solved.

The invention has the beneficial effects that: the invention provides clear soup condensation packaging equipment and a condensation packaging method, which are composed of a clear soup storage device, a clear soup condensation auxiliary processing device, a coagulum shoveling device and a clear soup packaging device, wherein the device is novel in structure, and the purpose of quickly removing froth in clear soup is achieved through the clear soup storage device; the formation of froth and impurities in the cooling solidification process is accelerated by the clear soup condensation auxiliary processing device; removing upper-layer precipitated impurities of the solidified substances through a solidified substance scraping device to obtain clear soup frozen solidified substances without froth and impurities; can obtain the packing that the box was frozen and was full of 1.1 atmosphere nitrogen gas's of clear soup through clear soup packing plant to inside depositing clear soup, solved in the clear soup use of food culinary art, often take out in clear soup strorage device through the ladle, when repeatedly taking out clear soup in clear soup strorage device through the ladle, cause the problem of repetition, many times pollution to clear soup.

Drawings

Fig. 1 is a schematic top view of the clear soup storage device of the present invention.

Fig. 2 is a schematic sectional view at a-a in fig. 1.

Fig. 3 is a schematic top view of the transition frame of the present invention.

Fig. 4 is a schematic cross-sectional view at B-B in fig. 3.

Fig. 5 is a schematic view of the overall structure of the auxiliary processing device for soup cooling in the present invention.

Fig. 6 is a schematic top view of the auxiliary processing device for soup condensation of the present invention.

Fig. 7 is a schematic side view of the auxiliary processing device for soup condensation of the present invention.

Fig. 8 is a sectional view at C-C in fig. 6.

Fig. 9 is a schematic view of the structure of the moving frame according to the present invention.

Fig. 10 is a front view of the device for scooping the broth concretion of the present invention.

Fig. 11 is a schematic top view of the coagulum scraping apparatus according to the present invention.

FIG. 12 is a schematic side view showing the structure of the coagulum scraping apparatus according to the present invention.

Fig. 13 is a sectional view at D-D in fig. 12.

Fig. 14 is a front view of the clear soup packaging device of the present invention.

Fig. 15 is a schematic top view of the broth packaging device of the present invention.

Fig. 16 is a schematic front view of the interior of the broth packaging device of the present invention.

FIG. 17 is a schematic view of an assembly structure of a pressing block, a device template, a positioning platform and the bottom of a working bin in the invention.

FIG. 18 is a schematic view of the bottom structure of the upper pressing block of the present invention.

FIG. 19 is a schematic top view of the apparatus template of the present invention.

FIG. 20 is a top view of the storage case of the present invention.

FIG. 21 is a schematic view of a cylinder structure according to the present invention

In the figure: the device comprises a chassis 1, a first handle 2, a transition frame 3, a longitudinal partition fence 4, a fence frame 5, an upper groove 6, an upper boss 7, a second handle 8, a lower groove 9, a lower boss 10, a transverse partition fence 11, a refrigerator body 12, a refrigerating bin 13, a cross rod 14, an eccentric wheel 15, a first air cylinder 16, a supporting platform 17, a first supporting frame 18, a first sealing door 19, a first hinge 20, a moving frame 21, a first electromagnetic vibration exciter 22, a roller 23, a supporting seat 24, a first round through hole 25, a hexagonal counter bore 26, a second supporting frame 27, a second round through hole 28, a supporting shaft 29, an outer frame 30, a baffle plate 31, a through groove 32, a nut 33, a scraping knife 34, a roller 35, a wheel shaft 36, a cross beam 37, a longitudinal beam 38, a bolt 39, a third round through hole 40 for installing a bolt 39 on two side faces of the scraping knife 34, a vacuum pump 41, a first valve 42, a first pipeline 43, a deflation valve, A second valve 47, a third valve 48, a second pipeline 49, a pressure gauge 50, a working bin 51, an inner bin 51-1, a main cabin door 52, a cylinder 53, a first piston rod 53-1, a first round counter bore 53-2, a first air inlet 53-3, a second air inlet 53-4, an upper chamber 53-5, a piston 53-6, a second round counter bore 53-7, a lower chamber 53-8, a second piston rod 53-9, a first electric wire 54, a notch 55, a bolt 56, a third handle 57, a third support frame 58, a second hinge 59, a fourth round through hole 60, a fifth round through hole 61, a seal ring 62, a main hatch 63, an upper press block 64-1, a sixth round through hole 64-2, a lower press block 64-3, a first rectangular counter bore 64-4, a second counter bore 64-5, a first boss 64-6, a second boss 64-1, a second boss and a second boss, The device comprises a heating device 64-7, a device template 65, a fourth handle 65-1, a third rectangular counter bore 65-2, a second boss 65-3, a groove 65-4, a clamp 65-5, a positioning platform 66, a rectangular counter bore 66-1, a seventh circular counter bore 66-2, a second wire 67, an eighth circular through hole 68, a second electromagnetic vibration exciter 69, a cushion block 70, a storage box 71, a fourth rectangular counter bore 71-1 and an eave 71-2.

Detailed Description

The invention will be further described with reference to the accompanying drawings in which:

as shown in fig. 1 to 21, the condensation packaging apparatus is composed of a clear soup storage device, a clear soup condensation auxiliary processing device, a coagulum shoveling device, and a clear soup packaging device.

As shown in fig. 1-4, the clear soup storage device is composed of a chassis 1, a transition frame 3 and a hurdle frame 5; transition frame 3 is connected and is set up in the top on chassis 1, hurdle 5 is connected and is set up in the top of transition frame 3, hurdle 5's both sides bottom surface is equipped with upper groove 6, 1 both sides top surface on chassis is equipped with

lower recess

9, 3 both sides upper portion of transition frame are equipped with

boss

7, 3 both sides lower part of transition frame are equipped with down boss 10, upper boss 7 and 6 plug-in connection of upper groove,

lower boss

10 and 9 plug-in connection of lower recess, transition frame 3 is inside to be fixed to be equipped with many transverse partition fence 11 and vertical partition fence 4, transverse partition fence 11 sets up with vertical partition fence 4 is perpendicular.

As shown in fig. 5-9, the auxiliary processing device for clear soup condensation comprises a freezer 12, a sealing door 19 hinged on the freezer 12 through a first hinge 20, a freezer compartment 13 disposed in the freezer 12, a first electromagnetic vibration exciter 22 connected to the bottom of the freezer compartment 13, a movable frame 21 disposed in the freezer compartment 13, support shafts 29 connected to two sides of the bottom of the movable frame 21, rollers 23 disposed on the support shafts 29, a first support frame 18 disposed on one side of the freezer 12, a support platform 17 connected to the first support frame 18, a first cylinder 16 disposed on the support platform 17, a second support frame 27 disposed on the other side of the freezer 12, a support base 24 disposed on the top of the second support frame 27, a first circular through hole 25 disposed on the support base 24, second circular through holes 28 disposed on two side walls of the freezer 12, a cross bar 14 connected to the first cylinder 16, two eccentric wheels 15 fixed in the middle of the cross bar 14, the cross rod 14 sequentially penetrates through the second round through hole 28 and the moving frame 21 to penetrate out of the first round through hole 25 on the supporting seat 24, the eccentric wheel 15 drives the moving frame 21 to be suspended by rotating the cross rod 14, and the first electromagnetic vibration exciter 22 impacts the moving frame 21 to form vibration so as to accelerate formation of floating foam and impurities.

As shown in fig. 10 to 13, the coagulum scraping apparatus is composed of an outer frame 30, a baffle 31, a nut 33, a scraping knife 34, a roller 35, a cross beam 37, a longitudinal beam 38 and a bolt 39; be equipped with logical groove 32 on the preceding rear side wall of frame 30, frame 30 top is equipped with longeron 38 of connecting the preceding rear side wall, it is equipped with crossbeam 37 to connect between the longeron 38, the left side connection of frame 30 is equipped with baffle 31, the right side and the bottom of frame 30 are hollow structure, the inside of frame 30 is equipped with the shovel sword 34, the shovel sword 34 passes through bolt 39 and nut 33 and forms sliding connection with logical groove 32, the bottom of frame 30 preceding rear side wall all is fixed and is equipped with shaft 36, the installation is equipped with gyro wheel 35 on the shaft 36.

As shown in fig. 14 to 21, the broth packaging device is composed of a vacuum pump 41, a first valve 42, a first pipeline 43, a release valve 44, a vacuum pressure gauge 45, a nitrogen storage tank 46, a second valve 47, a third valve 48, a second pipeline 49, a pressure gauge 50, a working bin 51, a device template 65 and a broth storage box 71; the vacuum pump 41, the nitrogen storage tank 46 and the working cabin 51 are all arranged on the ground, the first pipeline 43 is connected and arranged at the upper part of the vacuum pump 41, the vacuum pressure gauge 45 is connected and arranged on the vacuum pump 41, the first valve 42 is arranged on the first pipeline 43, the air release valve 44 is arranged at the upper end of the first pipeline 43, the upper part of the nitrogen storage tank 46 is respectively provided with a second valve 47, a third valve 48 and a second pipeline 49, the pressure gauge 50 is arranged between the second valve 47 and the third valve 48, the working cabin 51 is internally provided with an inner cabin 51-1, the first pipeline 43 and the second pipeline 49 are communicated with the inner cabin 51-1, the outer side of the working cabin 51 is provided with a main hatch 63, the outer side of the main hatch 63 is provided with a main cabin door 52, a sealing ring 62 is arranged between the working cabin 51 and the main cabin door 52, the main cabin door 52 is connected with the working cabin 51 through a second hinge 59, the left side and the right side, a bolt 56 is arranged at a position corresponding to the notch 55 on the outer side of the working bin 51, two fourth circular through holes 60 and two fifth circular through holes 61 are arranged at the top of the working bin 12, a cylinder 53 is arranged in the fourth circular through hole 60, the cylinder 53 is composed of a piston rod 53-1, a first circular counter bore 53-2, a first air inlet 53-3, a second air inlet 53-4, an upper chamber 53-5, a piston 53-6, a second circular counter bore 53-7, a lower chamber 53-8, a second piston rod 53-9, a first electric wire 54 arranged in the second circular through hole 61, a positioning platform 66 is arranged at the center of the bottom of the inner bin 51-1, a rectangular counter bore 66-1 is arranged at the center of the positioning platform 66, a second electromagnetic vibration exciter 69 is arranged at the center of the rectangular counter bore 66-1, a seventh circular through hole 66-2 and an eighth circular through hole 68 for installing the second electric wire 67 are arranged at the, cushion blocks 70 are arranged around the rectangular counter bores 66-1, device templates 65 are arranged above the cushion blocks 70, the device templates 65 are arranged in the rectangular counter bores 66-1, fourth handles 65-1 are arranged on two sides of the device templates 65, third rectangular counter bores 65-2 are arranged on the tops of the device templates 65, second bosses 65-3 are formed by the third rectangular counter bores 65-2 and the third rectangular counter bores 65-2, grooves 65-4 are formed in the middles of the second bosses 65-3, clips 65-5 are arranged on two sides of the fourth handles 65-1, storage boxes 71 are arranged in the third rectangular counter bores 65-2, fourth rectangular counter bores 71-1 are arranged on the storage boxes 71, flying eaves 71-2 are arranged on the peripheries of the tops of the fourth rectangular counter bores 71-1, upper pressing blocks 64 are arranged on the device templates 65, upper pressing plates 64-1 are arranged on the upper portions of the upper pressing blocks, the lower portion of the upper pressing block 64 is provided with a lower pressing plate 64-3, the top of the lower pressing plate 64-3 is provided with a first rectangular counter bore 64-4, a heating device 64-7 is arranged in the first rectangular counter bore 64-4, the bottom of the lower pressing plate 64-3 is provided with a second rectangular counter bore 64-5, a first boss 64-6 is arranged between the second rectangular counter bore 64-5 and the second rectangular counter bore 64-5, the first boss 64-6 corresponds to the second boss 65-3, the upper pressing plate 64-1 is provided with a sixth round through hole 64-2 for placing the first wire 54, and the center of the top of the upper pressing plate 64-1 is connected with a second piston rod 53-9.

As shown in fig. 1-21, a clear soup condensing and packaging device, a chassis 1, a transition frame 3 and a hurdle frame 5 are all rectangular structures, and the inner walls of the three are connected in a smooth manner after being assembled; the number of the transverse partition fences 11 and the number of the longitudinal partition fences 4 are 2, the transverse partition fences 11 and the longitudinal partition fences 4 are connected and fixed on the inner wall of the transition frame 3 in a cross shape, and the transverse partition fence 11 and the longitudinal partition fence 4 are arranged at the same height with the transition frame 3; two outer sides of the transition frame 3 are connected with a middle second handle 8, and two outer sides of the chassis 1 are connected with a bottom first handle 2; the height of the fence frame 5 is larger than that of the upper boss 7, and the depth of the chassis body 1 is larger than that of the lower boss 10. A hexagonal counter bore 26 is arranged on the end face of the cross rod 14; the diameter of the second round through hole 28 is larger than the diameter of the eccentric wheel 15, the eccentric wheel 15 is connected with the cross bar 14 through a wedge key, and the eccentric distance e of the eccentric wheel 14₁Is more than 5 mm; the top of the movable frame 21 is connected with a top plate, the bottom of the movable frame is connected with a bottom plate, the eccentric wheel 15 is in contact with the bottom surface of the top plate, and the electromagnetic vibration exciter 21 is in contact with the bottom surface of the bottom plate; the eccentricity e is formed between the axis of the second round through hole 28 and the axis of the first round through hole 25₂And e is a₂=e₁(ii) a When the movable frame 21 is placed at the bottom of the freezing chamber 13, the height of the top plate of the movable frame 21 is not lower than the top wall of the second circular through hole 28. The number of the longitudinal beams 38 is 2, the number of the cross beams 37 is 1, and the longitudinal beams 38 and the cross beams 37 are connected with each other to form an H-shaped structure; the front and the back of the outer frame 30 are respectively provided with 2 through grooves 32, and the 4 through grooves 32 are all arranged with equal height and length and are all double round-head grooves; the scraping knife 34 is in a U-shaped structure, the thickness of the edge of the scraping knife 34 is not more than 0.05mm, the outer wall of the scraping knife 34 and the two inner side walls of the outer frame 30 form clearance fit, and the clearance value is not more than 2 mm; the length of the scraping knife 34 is greater than that of the outer frame, one end of the scraping knife 34 is tightly propped against the baffle plate 31, and the other end of the scraping knife 34 extends out of the outer frame 30; the wheel shaft 36 is connected to the front side wall and the rear side wall of the outer frame 30 in a welding mode, the shaft head of the wheel shaft 36 is provided with a positioning pin hole, and the roller 35 is sleeved on the wheel shaft 36 and is axially limited and fixed through the positioning pin. The bottom of the working bin 51 is provided with a third supporting frame 58, the main cabin door 52 is provided with a third handle 57, the upper part of the cylinder 53 is provided with a first piston rod 53-1, and the center of the first piston rod 53-1 is provided with a first round sinkerThe piston is characterized in that the hole 53-2 is formed, the top end of the upper portion of the first round counter bore 53-2 is provided with a first air inlet 53-3, the middle of the air cylinder 53 is provided with a piston 53-6, the piston 53-6 divides the inner cavity of the air cylinder 53 into an upper chamber 53-5, a piston 53-6 and a lower chamber 53-8, the top of the upper chamber 53-5 is provided with a second air inlet 53-4, the top end of the upper chamber 53-5 is provided with a second air inlet 53-4, the lower portion of the piston 53-6 is provided with a second round counter bore 53-7 connected with the first round counter bore 53-2, and the lower portion of the piston 53-6.

As shown in fig. 1-21, a method for packaging clear soup by condensation comprises the following steps:

(1) the upper boss 7 is connected with the upper groove 6 in an inserted manner, the lower boss 10 is connected with the lower groove 9 in an inserted manner, the chassis, the transition frame and the inner wall of the fence frame are smoothly connected, clear soup is poured into the device for cooling and solidification, the middle second handle 8 is pressed to move the fence frame 5 upwards, and a layer of clear soup cooling and solidification object is removed along the upper edge of the upper boss 7, so that the aim of quickly removing floating foam in the clear soup is fulfilled; pressing the upper edge of the transition frame 3 by using a rectangular plate, turning over the transition frame 3, pressing the second handle 8, moving the chassis 1 away through the first handle 2 at the bottom, and removing a layer of clear soup cooling solidification object along the upper edge of the chassis 1 so as to quickly remove impurities in the clear soup;

(2) pouring boiled clear soup into a clear soup storage device to be arranged on a movable frame 21, ventilating to enable two first air cylinders 16 which are fixed on the right outer side of a freezing box body 12 and connected with a fixed supporting platform 17 on a first supporting frame 18 to act, moving a cross rod 14 with two eccentric wheels 15 arranged on two sides out of a freezing bin 13 to the right, moving the movable frame 21 into the freezing bin 13, closing a first sealing door 19, setting the temperature in the freezing bin 13 at 1-5 degrees, ventilating to enable the first air cylinder 16 to act, moving a cross rod 14 with two eccentric wheels 15 arranged on two sides into the freezing bin 13 to the left, inserting a hexagonal wrench into a hexagonal counter bore 26, rotating the cross rod 14 by 180 degrees, suspending the movable frame 21 by using the eccentric wheels 15, impacting a first electromagnetic vibration exciter 22 on the movable frame 21 to enable the movable frame 21 to drive the storage device with the clear soup to vibrate, and accelerating the formation of floating foam and impurities in the cooling and solidifying process;

(3) fixing the clear soup congelation, wherein a bolt 39 penetrates through a round through hole in the scraping knife 34 and a through groove 32 in the outer frame 30, the U-shaped scraping knife 34 and the outer frame are fixedly connected through the bolt, the bolt can move up and down in the through groove 32 to adjust the height of the U-shaped scraping knife in the outer frame 30, the outer frame 30 is pushed to move a roller to drive the U-shaped scraping knife to move, the upper layer of the clear soup congelation is scraped to remove froth, the clear soup congelation is turned over and fixed, the outer frame is pushed to move the roller to drive the U-shaped scraping knife to move, and the upper layer of the clear soup congelation is scraped to remove precipitated impurities, so that the clear soup congelation without froth and impurities is obtained;

(4) the second handle 8 is grasped to block the bottom of the transition frame 3 which is internally provided with the clear soup jelly without floating foam and impurities by using a rectangular plate, the transition frame is moved to the upper surface of the device template 65, the longitudinal partition rail 4 and the transverse partition rail 11 form a rectangular through hole which is corresponding to the fourth rectangular counter bore 71-1 on the storage box 71 and is smaller than the fourth rectangular counter bore 71-1, the rectangular plate is moved away, the clear soup jelly without floating foam and impurities in the transition frame 3 slides into the fourth rectangular counter bore 71-1, the upper surface of the device template 65 is covered with a film and is clamped by a clamp 65-5, the fourth handle 65-1 is grasped to place the device template 65 into the cushion block 70 in the rectangular counter bore 66-1; the third handle 57 drives the main hatch 52 to close the outer side of the main hatch 63, the first bolt 56 outside the notch 55 is rotated by a nut, the main hatch 52 and the working bin 51 are fixed together, the vacuum pump 41 is started, the vacuum pump is opened to control the first valve 42, the working bin 51 is vacuumized, the air in the working bin 51 is exhausted from the vacuum pump 41 through the first pipeline 43, the vacuum pressure gauge 45 is opened for testing, when the pressure in the working bin 51 is 0.9 atmosphere, the vacuum pressure gauge 45, the vacuum pump 41 and the first valve 42 are closed, the second valve 47 and the third valve 48 are opened, the nitrogen in the nitrogen storage tank 46 enters the first pipeline 43 from the second pipeline 49 and then enters the working bin 51, when the pressure in the working bin 51 is 1.1 atmosphere, the second air inlet 53-4 is formed, the air pressure in the upper chamber 53-5 is increased, and the air in the lower chamber 53-8 is squeezed from the second round counter bore 53-7, The first round counter bore 53-2 and the first air inlet 53-3 flow out, so that the piston 53-6 and the second piston rod 53-9 move downwards, the upper pressing block 64 is driven to move downwards and pressed on the cornice 71-2, the first boss 64-6 corresponds to the second boss 65-3 during pressing, the first electric wire 54 is electrified, the heating device 64-7 is heated, the film belt is firmly connected with the cornice 71-2 under the action of pressure and heating, 1.1 atmospheric pressure nitrogen is filled between the fourth rectangular counter bore 71-1 and the film of the storage box 71, the electric wire 54 is powered off, the upper pressing block 46 moves upwards, the second valve 47 and the third valve 48 are closed, the air release valve 44 is opened, the pressure in the working bin 51 is the same as the pressure outside, the nut is loosened, the main bin door 52 is opened, the fourth handle 65-1 is grasped, the device template 65 is moved out of the working bin 51, the clamp 65-5 is loosened, the package of the storage box 71 which is internally stored with the clear soup jelly and is filled with 1.1 atmosphere of nitrogen is obtained by cutting and separating along the groove 65-4 by using a cutter, the storage box 71 is internally filled with 1.1 atmosphere of nitrogen, external air cannot permeate towards the inside of the storage box 71, and the nitrogen is inert gas and has an isolation effect on the clear soup, so that the clear soup in the storage box 71 can be protected, and the problem that the clear soup is repeatedly polluted for many times when the clear soup is repeatedly taken out from the clear soup storage device through a spoon in the use process of cooking the clear soup in food is solved.

Claims

1. The utility model provides a clear soup condensation equipment for packing which characterized in that: the condensation packaging device consists of a clear soup storage device, a clear soup condensation auxiliary processing device, a coagulum shoveling device and a clear soup packaging device;

the clear soup storage device consists of a chassis (1), a transition frame (3) and a hurdle frame (5); the transition frame (3) is connected and arranged above the chassis (1), the rail frame (5) is connected and arranged above the transition frame (3), the bottom surfaces of the two sides of the rail frame (5) are provided with upper grooves (6), the top surfaces of the two sides of the chassis (1) are provided with lower grooves (9), the upper parts of the two sides of the transition frame (3) are provided with upper bosses (7), the lower parts of the two sides of the transition frame (3) are provided with lower bosses (10), the upper bosses (7) are connected with the upper grooves (6) in an inserting manner, the lower bosses (10) are connected with the lower grooves (9) in an inserting manner, a plurality of transverse partition rails (11) and longitudinal partition rails (4) are fixedly arranged in the transition frame (3), and the transverse partition rails (11) are perpendicular to the longitudinal partition rails (4);

the clear soup condensation auxiliary processing device comprises a refrigerator body (12), a sealing door (19) hinged on the refrigerator body (12) through a first hinge (20), a freezing bin (13) is arranged in the refrigerator body (12), a first electromagnetic vibration exciter (22) is connected to the bottom of the freezing bin (13), a moving frame (21) is arranged in the freezing bin (13), supporting shafts (29) are connected to two sides of the bottom of the moving frame (21), rollers (23) are arranged on the supporting shafts (29), a first supporting frame (18) is arranged on one side of the refrigerator body (12), a supporting platform (17) is connected to the first supporting frame (18), a first air cylinder (16) is arranged on the supporting platform (17), a second supporting frame (27) is arranged on the other side of the refrigerator body (12), a supporting seat (24) is arranged at the top of the second supporting frame (27), a first round through hole (25) is arranged on the supporting seat (24, second circular through holes (28) are formed in two side walls of the refrigerator body (12), a cross rod (14) is connected to the first air cylinder (16), two eccentric wheels (15) are fixedly arranged in the middle of the cross rod (14), the cross rod (14) sequentially penetrates through the second circular through holes (28) and the moving frame (21) and penetrates out of the first circular through holes (25) in the supporting seat (24), the eccentric wheels (15) drive the moving frame (21) to be suspended by rotating the cross rod (14), the moving frame (21) is impacted by the first electromagnetic vibration exciter (22) to form vibration, and floating foam and impurities are formed quickly;

the coagulum shoveling device consists of an outer frame (30), a baffle (31), a nut (33), a shoveling cutter (34), a roller (35), a cross beam (37), a longitudinal beam (38) and a bolt (39); through grooves (32) are formed in the front side wall and the rear side wall of the outer frame (30), longitudinal beams (38) connected with the front side wall and the rear side wall are arranged at the top of the outer frame (30), cross beams (37) are connected between the longitudinal beams (38), a baffle plate (31) is connected to the left side of the outer frame (30), the right side and the bottom of the outer frame (30) are both of a hollow structure, a scraping knife (34) is arranged inside the outer frame (30), the scraping knife (34) is in sliding connection with the through grooves (32) through bolts (39) and nuts (33), wheel shafts (36) are fixedly arranged at the bottom of the front side wall and the bottom of the rear side wall of the outer frame (30), and idler;

the clear soup packaging device consists of a vacuum pump (41), a first valve (42), a first pipeline (43), a deflation valve (44), a vacuum pressure gauge (45), a nitrogen storage tank (46), a second valve (47), a third valve (48), a second pipeline (49), a pressure gauge (50), a working bin (51), a device template (65) and a clear soup storage box (71); the vacuum pump (41), the nitrogen storage tank (46) and the working bin (51) are all arranged on the ground, the first pipeline (43) is connected and arranged on the upper portion of the vacuum pump (41), the vacuum pressure gauge (45) is connected and arranged on the vacuum pump (41), the first valve (42) is arranged on the first pipeline (43), the air release valve (44) is arranged at the upper end of the first pipeline (43), the upper portion of the nitrogen storage tank (46) is respectively provided with the second valve (47), the third valve (48) and the second pipeline (49), the pressure gauge (50) is arranged between the second valve (47) and the third valve (48), the inner bin (51-1) is arranged inside the working bin (51), the first pipeline (43) and the second pipeline (49) are communicated with the inner bin (51-1), the main hatch (63) is arranged on the outer side of the working bin (51), and the main hatch (52) is arranged on the outer side of the main hatch (63), a sealing ring (62) is arranged between the working bin (51) and the main bin door (52), the main bin door (52) is connected with the working bin (51) through a second hinge (59), notches (55) are symmetrically arranged on the left side and the right side of the main bin door (52), bolts (56) are arranged on the outer side of the working bin (51) and correspond to the notches (55), two fourth circular through holes (60) and two fifth circular through holes (61) are arranged at the top of the working bin (12), an air cylinder (53) is arranged in each fourth circular through hole (60), and the air cylinder (53) consists of a piston rod (53-1), a first circular counter bore (53-2), a first air inlet (53-3), a second air inlet (53-4), an upper cavity (53-5), a piston (53-6), a second circular counter bore (53-7), a lower cavity (53-8), a second piston rod (53-9), The second round through hole (61) is provided with a first wire (54) to form, the center of the bottom of the inner bin (51-1) is provided with a positioning platform (66), the center of the positioning platform (66) is provided with a rectangular counter bore (66-1), the center of the rectangular counter bore (66-1) is provided with a second electromagnetic vibration exciter (69), the bottom of the second electromagnetic vibration exciter (69) is provided with a seventh round through hole (66-2) and an eighth round through hole (68) for mounting a second wire (67), cushion blocks (70) are arranged around the rectangular counter bore (66-1), an apparatus template (65) is arranged above the cushion blocks (70), the apparatus template (65) is arranged in the rectangular counter bore (66-1), the two sides of the apparatus template (65) are provided with fourth handles (65-1), the top of the apparatus template (65) is provided with a third rectangular counter bore (65-2), the third rectangular counter bore (65-2) and the third rectangular counter bore (65-2) form a second boss (65-3), a groove (65-4) is formed in the middle of the second boss (65-3), clamps (65-5) are arranged on two sides of the fourth handle (65-1), a storage box (71) is arranged in the third rectangular counter bore (65-2), a fourth rectangular counter bore (71-1) is arranged on the storage box (71), an eave (71-2) is arranged on the periphery of the top of the fourth rectangular counter bore (71-1), an upper pressing block (64) is arranged on the device template (65), an upper pressing plate (64-1) is arranged on the upper pressing block (64), a lower pressing plate (64-3) is arranged on the lower pressing block (64), a first rectangular counter bore (64-4) is arranged on the top of the lower pressing plate (64-3), the heating device (64-7) is arranged in the first rectangular counter bore (64-4), the second rectangular counter bore (64-5) is arranged at the bottom of the lower pressing plate (64-3), a first boss (64-6) is arranged between the second rectangular counter bore (64-5) and the second rectangular counter bore (64-5), the first boss (64-6) corresponds to the second boss (65-3), a sixth round through hole (64-2) for placing the first wire (54) is arranged on the upper pressing plate (64-1), and the top center of the upper pressing plate (64-1) is connected with the second piston rod (53-9).

2. The clear soup condensation packaging apparatus of claim 1, wherein: the chassis (1), the transition frame (3) and the fence frame (5) are all rectangular structures, and the inner walls of the three are connected in a smooth manner after being assembled; the number of the transverse partition fences (11) and the number of the longitudinal partition fences (4) are 2, the transverse partition fences and the longitudinal partition fences are connected and fixed on the inner wall of the transition frame (3) in a cross shape, and the transverse partition fence (11) and the longitudinal partition fence (4) are arranged at the same height with the transition frame (3); two outer sides of the transition frame (3) are connected with a middle second handle (8), and two outer sides of the chassis (1) are connected with a bottom first handle (2); the height of the fence frame (5) is greater than that of the upper boss (7), and the depth of the chassis body (1) is greater than that of the lower boss (10).

3. The clear soup condensation packaging apparatus of claim 1, wherein: a hexagonal counter bore (26) is formed in the end face of the cross rod (14); the aperture of the second round through hole (28) is larger than the diameter of the eccentric wheel (15), the eccentric wheel (15) is connected with the cross rod (14) through a wedge key, and the eccentric distance e of the eccentric wheel (14)₁Is more than 5 mm; the top of the movable frame (21) is connected with a top plate, the bottom of the movable frame is connected with a bottom plate, the eccentric wheel (15) is in contact with the bottom surface of the top plate, and the electromagnetic vibration exciter (21) is in contact with the bottom surface of the bottom plate; an eccentricity e is formed between the axis of the second round through hole (28) and the axis of the first round through hole (25)₂And e is a₂=e₁(ii) a When the movable frame (21) is arranged at the bottom of the freezing chamber (13), the height of the top plate of the movable frame (21) is not lower than the top wall of the second round through hole (28).

4. The clear soup condensation packaging apparatus of claim 1, wherein: the number of the longitudinal beams (38) is 2, the number of the cross beams (37) is 1, and the longitudinal beams (38) and the cross beams (37) are connected with each other to form an H-shaped structure; the front and the back of the outer frame (30) are respectively provided with 2 through grooves (32), and the 4 through grooves (32) are all arranged at equal height and length and are all double round-head grooves; the shoveling knife (34) is in a U-shaped structure, the thickness of the edge of the shoveling knife (34) is not more than 0.05mm, the outer wall of the shoveling knife (34) and two inner side walls of the outer frame (30) form clearance fit, and the clearance value is not more than 2 mm; the length of the scraping knife (34) is greater than that of the outer frame, one end of the scraping knife (34) is tightly propped against the baffle plate (31), and the other end of the scraping knife (34) extends out of the outer frame (30); the wheel shaft (36) is connected to the front side wall and the rear side wall of the outer frame (30) in a welding mode, the shaft head of the wheel shaft (36) is provided with a positioning pin hole, and the roller (35) is sleeved on the wheel shaft (36) and is axially limited and fixed through the positioning pin.

5. The clear soup condensation packaging apparatus of claim 1, wherein: the bottom of the working bin (51) is provided with a third support frame (58), the main cabin door (52) is provided with a third handle (57), the upper part of the cylinder (53) is provided with a first piston rod (53-1), the center of the first piston rod (53-1) is provided with a first round counter bore (53-2), the top end of the upper part of the first round counter bore (53-2) is provided with a first air inlet (53-3), the middle of the cylinder (53) is provided with a piston (53-6), the piston (53-6) divides the inner cavity of the cylinder (53) into an upper cavity (53-5), a piston (53-6) and a lower cavity (53-8), the top of the upper cavity (53-5) is provided with a second air inlet (53-4), the top end of the upper cavity (53-5) is provided with a second air inlet (53-4), the lower part of the piston (53-6) is provided with a second round counter bore (53-7, the lower part of the piston (53-6) is connected with a second piston rod (53-9).

6. A method for condensing and packaging broth, which is characterized in that the broth condensing and packaging device of any one of claims 1-5 is used, and the method comprises the following steps:

(1) the upper boss (7) is connected with the upper groove (6) in an inserting mode, the lower boss (10) is connected with the lower groove (9) in an inserting mode, the chassis, the transition frame and the inner wall of the rail frame are connected smoothly, clear soup is poured into the device to be cooled and solidified, the rail frame (5) is moved upwards by pressing the middle second handle (8), and a layer of clear soup cooling and solidifying objects are removed along the upper edge of the upper boss (7) so as to achieve the purpose of quickly removing floating foam in the clear soup; pressing the upper edge of the transition frame (3) by using a rectangular plate, turning over the transition frame (3), pressing a second handle (8), moving the chassis (1) away through the first handle (2) at the bottom, and removing a layer of clear soup cooling solidification object along the upper edge of the chassis (1) so as to quickly remove impurities in the clear soup;

(2) pouring boiled clear soup into a clear soup storage device to be arranged on a movable frame (21), ventilating to enable two first air cylinders (16) which are fixed on the right outer side of a freezing box body (12) and connected with a fixed supporting platform (17) on a first supporting frame (18) to act, moving cross rods (14) with two eccentric wheels (15) arranged on two sides out of a freezing bin (13) to the right, moving the movable frame (21) into the freezing bin (13), closing a first sealing door (19), setting the temperature of the freezing bin (13) at 1-5 degrees, ventilating to enable the first air cylinders (16) to act, moving the cross rods (14) with two eccentric wheels (15) arranged on two sides into the freezing bin (13) to the left, inserting a hexagonal wrench into a counter bore (26), rotating the cross rods (14) by 180 degrees, suspending the movable frame (21) by the eccentric wheels (15), and enabling a first electromagnetic vibration exciter (22) to impact the movable frame (21), the movable frame (21) drives the storage device filled with clear soup to vibrate, so that the formation of floating foam and impurities in the cooling and solidification process is accelerated;

(3) fixing the clear soup congelation, wherein a bolt (39) penetrates through a round through hole in a scraping knife (34) and a through groove (32) in an outer frame (30), the U-shaped scraping knife (34) and the outer frame are fixedly connected by the bolt, the bolt can move up and down in the through groove (32) to adjust the height of the U-shaped scraping knife in the outer frame (30), a moving roller of the outer frame (30) is pushed to drive the U-shaped scraping knife to move, the upper layer of the clear soup congelation is scraped to remove floating foam, the clear soup congelation is turned over and fixed, the outer frame moving roller is pushed to drive the U-shaped scraping knife to move, the upper layer of the clear soup congelation is scraped to remove precipitated impurities, and the clear soup congelation without floating foam and impurities is obtained after congelation;

(4) the bottom of the transition frame (3) which is internally provided with the clear soup jelly without floating foam and impurities is blocked by a rectangular plate by grasping a second handle (8), the transition frame is moved to the upper surface of the device template (65), a rectangular through hole is formed by the longitudinal partition fence (4) and the transverse partition fence (11), corresponds to the fourth rectangular counter bore (71-1) on the storage box (71) and is smaller than the fourth rectangular counter bore (71-1), the rectangular plate is moved away, the clear soup jelly without floating foam and impurities in the transition frame (3) slides into the fourth rectangular counter bore (71-1), a film is covered on the upper surface of the device template (65) and is clamped by a clamp (65-5), and the device template (65) is placed on a cushion block (70) in the rectangular counter bore (66-1) by grasping the fourth handle (65-1); the third handle (57) drives the main cabin door (52) to close at the outer side of the main cabin opening (63), a nut is used for rotating on a first bolt (56) at the outer side of the notch (55), the main cabin door (52) and the working cabin (51) are fixed together, the vacuum pump (41) is started, the vacuum pump is started to control the first valve (42), the working cabin (51) is vacuumized, air in the working cabin (51) is exhausted from the vacuum pump (41) through the first pipeline (43), the vacuum pressure gauge (45) is opened for testing, when the pressure in the working cabin (51) is 0.9 atmosphere, the vacuum pressure gauge (45), the vacuum pump (41) and the first valve (42) are closed, the second valve (47) and the third valve (48) are opened, nitrogen in the nitrogen storage tank (46) enters the first pipeline (43) from the second pipeline (49) and then enters the working cabin (51), and when the pressure in the working cabin (51) is 1.1 atmosphere, the second air inlet (53-4) enables the air pressure of the upper chamber (53-5) to be increased, air in the lower chamber (53-8) is squeezed to flow out from the second round counter bore (53-7), the first round counter bore (53-2) and the first air inlet (53-3), the piston (53-6) and the second piston rod (53-9) are moved downwards to drive the upper pressing block (64) to move downwards to be pressed on the cornice (71-2), the first boss (64-6) corresponds to the second boss (65-3) during pressing, the first wire (54) is electrified to heat the heating device (64-7), the film belt and the cornice (71-2) are firmly connected together under the action of pressure and heating, and the space between the fourth rectangular counter bore (71-1) of the storage box (71) and the film is filled with 1.1 atmosphere of nitrogen, the electric wire (54) is powered off, the upper pressing block (46) moves upwards, the second valve (47) and the third valve (48) are closed, the air release valve (44) is opened, the pressure in the working bin (51) is the same as the outside, the nut is loosened, the main cabin door (52) is opened, the fourth handle (65-1) is grabbed to move the device template (65) out of the working bin (51), the clamp (65-5) is loosened to be cut and separated along the groove (65-4) by a cutter, and then the package of the storage box (71) which stores clear soup jelly and is filled with 1.1 atmosphere of nitrogen is obtained, because the inside of the storage box (71) is filled with 1.1 atmosphere of nitrogen, the outside air cannot permeate towards the inside of the storage box (71), and because the nitrogen is inert gas, the nitrogen has an isolation effect on the clear soup, the clear soup in the storage box (71) can be protected, and the problem that the clear soup in the cooking process is solved, the clear soup is frequently taken out of the clear soup storage device through the spoon, and when the clear soup is repeatedly taken out of the clear soup storage device through the spoon, the clear soup is repeatedly polluted for many times.