CN105423612A - Food cold processing equipment and food cold processing method - Google Patents

Food cold processing equipment and food cold processing method Download PDF

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Publication number
CN105423612A
CN105423612A CN201511014916.3A CN201511014916A CN105423612A CN 105423612 A CN105423612 A CN 105423612A CN 201511014916 A CN201511014916 A CN 201511014916A CN 105423612 A CN105423612 A CN 105423612A
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cylinder
sub
food
hollow out
mould
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CN201511014916.3A
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Chinese (zh)
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展彩娜
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Individual
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Priority to CN201511014916.3A priority Critical patent/CN105423612A/en
Publication of CN105423612A publication Critical patent/CN105423612A/en
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    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23GCOCOA; COCOA PRODUCTS, e.g. CHOCOLATE; SUBSTITUTES FOR COCOA OR COCOA PRODUCTS; CONFECTIONERY; CHEWING GUM; ICE-CREAM; PREPARATION THEREOF
    • A23G9/00Frozen sweets, e.g. ice confectionery, ice-cream; Mixtures therefor
    • A23G9/04Production of frozen sweets, e.g. ice-cream
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25BREFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
    • F25B21/00Machines, plants or systems, using electric or magnetic effects
    • F25B21/02Machines, plants or systems, using electric or magnetic effects using Peltier effect; using Nernst-Ettinghausen effect

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Food Science & Technology (AREA)
  • Polymers & Plastics (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Confectionery (AREA)

Abstract

The invention provides food cold processing equipment and a food cold processing method. The equipment comprises an installation frame, a semiconductor heating module, a motor drive assembly, a plurality of dies and automatic feeding equipment, wherein the motor drive assembly comprises a first sub-cylinder, a second sub-cylinder, a third sub-cylinder and a fourth sub-cylinder; the semiconductor heating module comprises an outer cover, a heat-isolation cover and a semiconductor refrigeration sheet, a U-shaped channel is formed between the heat-isolation cover and the installation frame, the U-shaped channel is provided with an inlet and an outlet, the outer cover is fixed outside the heat-isolation cover, an air duct is formed between the outer cover and the heat-isolation cover, the air duct is provided with an air inlet and an air outlet, a cold end surface of the semiconductor refrigeration sheet is located in the U-shaped channel, and a heat end surface of the semiconductor refrigeration sheet is located in the air duct; each die comprises an upper die plate and a lower die plate which are hinged together; and the automatic feeding equipment comprises an installation frame, a discharge nozzle, an air nozzle, a main material barrel and a lifting cylinder. According to the invention, reduction for the manufacturing cost of the food cold processing equipment, and automatic food processing are realized.

Description

Food cold processing equipment and processing method
Technical field
The present invention relates to food processing apparatus, particularly relate to a kind of food cold processing equipment and processing method.
Background technology
At present, of the prior artly the food of cooling forming is needed usually to adopt large-scale pipeline system pattern to ice lolly, jelly etc., and for usually adopting manual operations when processing the food now done in common retail shop, to manufacture ice lolly, usually by operating personnel, food materials slurry is injected in mould, then close die being put in refrigeration plant by mould is freezed, and finally, is taken out by mould and open the ice lolly that mould just can obtain given shape from refrigeration plant.As from the foregoing, operation completes by manual operation by annotate in process material, open-close module etc. of ice lolly of the prior art, and the labour intensity of operating personnel is comparatively large and working (machining) efficiency is also lower.How to design that a kind of structure is simple, the food processing equipment of low cost of manufacture is technical problem to be solved by this invention to realize processed food automatically.
Summary of the invention
Technical problem to be solved by this invention is: provide a kind of food cold processing equipment and processing method, and the manufacturing cost realizing reducing food cold processing equipment also realizes automatically processing food, to reduce the labour intensity of workman.
Technical scheme provided by the invention is, a kind of food cold processing equipment, comprises installing rack, semiconductor heating module, motor drive component, multiple mould and Automatic-feeding equipment, described installing rack is provided with interior guide ring and outer guide ring, rectangle gathering sill is formed between described interior guide ring and described outer guide ring, the first hollow out chute is offered successively in described rectangle gathering sill, second hollow out chute, 3rd hollow out chute and the 4th hollow out chute, described motor drive component comprises the first sub-cylinder in rectangular layout, second sub-cylinder, 3rd sub-cylinder and the 4th sub-cylinder, described first sub-cylinder, described second sub-cylinder, the piston rod of described 3rd sub-cylinder and described 4th sub-cylinder is respectively arranged with push pedal, described first sub-cylinder, second sub-cylinder, 3rd sub-cylinder and the 4th sub-cylinder respectively correspondence are positioned at described first hollow out chute, second hollow out chute, the below of the 3rd hollow out chute and the 4th hollow out chute, described first hollow out chute, second hollow out chute, slide in 3rd hollow out chute and the 4th hollow out chute and be provided with corresponding described push pedal, described semiconductor heating module comprises outer cover, heat shield and semiconductor chilling plate, described heat shield is fixed on described installing rack and forms U-shaped passage, described U-shaped passage has import and outlet, described second hollow out chute, 3rd hollow out chute and the 4th hollow out chute are arranged in described U-shaped passage, described first hollow out chute is in the outside of described U-shaped passage and be arranged between described import and described outlet, described outer cover is fixed on the outside of described heat shield, air channel is formed between described outer cover and described heat shield, described air channel has air inlet and air outlet, fan is provided with in described air channel, described semiconductor chilling plate is fixed on described heat shield, the cold junction face of described semiconductor chilling plate is arranged in described U-shaped passage, the face, hot junction of described semiconductor chilling plate is positioned on outer cover described in described air channel and is also provided with arc-shaped guide rail, the one end part of described arc-shaped guide rail is in the top of described import, the other end of described arc-shaped guide rail is between described import and described outlet, described mould comprises hinged cope match-plate pattern and lower bolster, formation model groove on described lower bolster, described lower bolster is slidably arranged in described rectangle gathering sill, described cope match-plate pattern is provided with outward extending hook plate, described outer cover is provided with rotating connecting rod, the free end of described connecting rod is provided with the pull bar coordinated with described hook plate, described connecting rod is positioned at described exit, described installing rack is also provided with the reset cylinder for closing described cope match-plate pattern, and described reset cylinder tilts upward to arrange and between described import and described outlet, described Automatic-feeding equipment comprises installation frame, discharging gate, air nozzle, major ingredient cylinder and lift cylinder, described installation frame is fixed on described installing rack, described major ingredient cylinder is fixed on described installation frame, described lift cylinder is fixed on described installation frame, the piston rod of described lift cylinder is provided with installing plate, described discharging gate and described air nozzle are arranged on described installing plate, the discharging opening of described major ingredient cylinder is connected with described discharging gate by pipeline, described air outlet is connected with described air nozzle by pipeline, described installing plate is between described import and described outlet, described air nozzle is near described outlet.
Further, described Automatic-feeding equipment also comprises the first binder cylinder, rotary sleeve and motor, described rotary sleeve is rotating to be arranged in described major ingredient cylinder, described motor and described rotary sleeve are in transmission connection, the piston rod of described first binder cylinder is inserted in described rotary sleeve and stretches out the bottom of described rotary sleeve, the piston rod of described first binder cylinder is provided with the first holding pad, described rotary sleeve is provided with stirring vane.
Further, described Automatic-feeding equipment also comprises auxiliary material cylinder and the second binder cylinder, described auxiliary material cylinder is fixed on described installation frame, described second binder cylinder is fixed on described auxiliary material cylinder, the piston rod of described second binder cylinder is provided with the second holding pad, described second holding pad is arranged in described auxiliary material cylinder, and the discharging opening of described auxiliary material cylinder is connected with described discharging gate by pipeline.
The cold automatic processing method of a kind of food that the present invention also provides, adopt above-mentioned food cold processing equipment, method comprises:
Mold addition operation: food materials slurry is injected in the model groove of mould by discharging gate, then, cope match-plate pattern is closed by reset cylinder action;
Die-cooling operation: mould, by the second sub-cylinder, the 3rd sub-cylinder and the 4th sub-cylinder, moves in U-shaped passage, semiconductor chilling plate energising produces cold and carries out freezing to the mould in U-shaped passage;
Mould die sinking operation: the mould in U-shaped passage is driven by the 4th sub-cylinder and exports from outlet and be transported to the process of the first sub-cylinder, the hook plate of cope match-plate pattern will be hooked by pull bar, cope match-plate pattern is automatically opened and is abutted on arc-shaped guide rail, lower bolster is formed the food of cold forming;
Mould discharging operation: in the first sub-cylinder driven mold moving process, cope match-plate pattern is set level along arc-shaped guide rail, and air nozzle blows hot gas to lower bolster, to be blown out from model groove by food while the heating of food in lower bolster model groove.
Clean bench provided by the invention, food cold processing equipment provided by the invention and processing method, mould can be driven to slide in rectangle gathering sill by motor drive component, and after filling food materials slurry in a mold by discharging gate, reset cylinder closing molding, mould is transported in U-shaped passage, freezed by semiconductor chilling plate, food materials in mould are caught a cold and is shaped to final food, and after mould exports from U-shaped passage, to be coordinated with hook plate by pull bar and automatically open cope match-plate pattern, and now, the cold that face, semiconductor chilling plate hot junction produces will be exported by air nozzle under the driving of fan, and the hot-air that air nozzle exports will heat the food on lower bolster, simultaneously, directly food can be blown out from lower bolster by the jet angle adjusting air nozzle, realize automatically food being taken out from mould, user only needs to place food basket in the side of equipment and holds the food blown off, in addition, while the hot junction of semiconductor chilling plate carries out freezing in the face of mould, the heat produced in the face, hot junction of semiconductor chilling plate also makes it to melt with the faying face of mould open and blown out from mould by the food processed for the food in heating mould, effectively make use of cold and the heat of semiconductor chilling plate, realize food automation processing, simultaneously, the simple small volume of equipment overall structure, can be good at the instructions for use meeting little retail shop, same, also can use in integrated mill, the manufacturing cost realizing reducing food cold processing equipment also realizes automatically processing food, to reduce the labour intensity of workman.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the structural representation of food cold processing apparatus embodiments of the present invention;
Fig. 2 is the explosive view of food cold processing apparatus embodiments of the present invention;
Fig. 3 is the close-up schematic view of a-quadrant in Fig. 2;
Fig. 4 is the structural representation of semiconductor heating module in food cold processing apparatus embodiments of the present invention.
Detailed description of the invention
For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.
As Figure 1-Figure 4, the present embodiment food cold processing equipment, comprises installing rack 1, semiconductor heating module 2, motor drive component 3, multiple mould 4 and Automatic-feeding equipment 5, described installing rack 1 is provided with interior guide ring 11 and outer guide ring 12, forms rectangle gathering sill (not shown) between described interior guide ring 11 and described outer guide ring 12, in described rectangle gathering sill, offer the first hollow out chute 101 successively, second hollow out chute 102, 3rd hollow out chute 103 and the 4th hollow out chute 104, described motor drive component 3 comprises the first sub-cylinder 31 in rectangular layout, second sub-cylinder 32, 3rd sub-cylinder 33 and the sub-cylinder 31 of the 4th sub-cylinder 34, first, second sub-cylinder 32, the piston rod of the 3rd sub-cylinder 33 and the 4th sub-cylinder 34 is respectively arranged with the sub-cylinder 31 of push pedal 30, first, second sub-cylinder 32, 3rd sub-cylinder 33 and the 4th sub-cylinder 34 respectively correspondence are positioned at the first hollow out chute 101, second hollow out chute 102, the below of the 3rd hollow out chute 103 and the 4th hollow out chute 104, the first hollow out chute 101, second hollow out chute 102, slide in 3rd hollow out chute 103 and the 4th hollow out chute 104 and be provided with corresponding described push pedal 30, described semiconductor heating module 2 comprises outer cover 21, heat shield 22 and semiconductor chilling plate 23, described heat shield 22 is fixed on described installing rack, U-shaped passage is formed between described heat shield 22 and described installing rack 1, described U-shaped passage has import and outlet, second hollow out chute 102, 3rd hollow out chute 103 and the 4th hollow out chute 104 are arranged in described U-shaped passage, described first hollow out chute 101 is in the outside of described U-shaped passage and be arranged between described import and described outlet, described outer cover 21 is fixed on the outside of described heat shield 22, air channel is formed between described outer cover 21 and described heat shield 22, described air channel has air inlet and air outlet 201, fan (not shown) is provided with in described air channel, described semiconductor chilling plate 23 is fixed on described heat shield 22, the cold junction face of described semiconductor chilling plate 23 is arranged in described U-shaped passage, the face, hot junction of described semiconductor chilling plate 23 is arranged in described air channel, described outer cover 21 is also provided with arc-shaped guide rail 24, the one end part of described arc-shaped guide rail 24 is in the top of described import, the other end of described arc-shaped guide rail 24 is between described import and described outlet, described mould 4 comprises hinged cope match-plate pattern 41 and lower bolster 42, formation model groove on described lower bolster 42, described lower bolster 42 is slidably arranged in described rectangle gathering sill, described cope match-plate pattern 41 is provided with outward extending hook plate 411, described outer cover 21 is provided with rotating connecting rod 25, the free end of described connecting rod 25 is provided with the pull bar 251 coordinated with described hook plate 411, described connecting rod 25 is positioned at described exit, described installing rack 1 is also provided with the reset cylinder 6 for closing described cope match-plate pattern 41, described reset cylinder 6 tilt upward arrange and between described import and described outlet, described Automatic-feeding equipment 5 comprises installation frame 51, discharging gate 52, air nozzle 50, major ingredient cylinder 53 and lift cylinder 54, described installation frame 51 is fixed on described installing rack 1, described major ingredient cylinder 53 is fixed on described installation frame 51, described lift cylinder 54 is fixed on described installation frame 51, the piston rod of described lift cylinder 54 is provided with installing plate 55, described discharging gate 52 and described air nozzle 50 are arranged on described installing plate 55, the discharging opening of described major ingredient cylinder 53 is connected with described discharging gate 52 by pipeline, described air outlet 201 is connected with described air nozzle 50 by pipeline, described installing plate 55 is between described import and described outlet, described air nozzle 50 is near described outlet.
Specifically, the present embodiment food cold processing equipment in actual use, mould 4 between the import and outlet of U-shaped passage is in open mode, lower bolster 42 and cope match-plate pattern 41 keep flat and provide discharging gate 52 to inject food materials slurry in mould 4, then, cope match-plate pattern 41 overturn cover is realized closing molding 4 by reset cylinder 6 action on lower bolster 42, then, this mould of driving is transported to the second sub-cylinder 32 place by the first sub-cylinder 31, and be input in U-shaped passage by the second sub-cylinder 32 and freeze, will successively through the second sub-cylinder 32 while mould 4 freezes in U-shaped passage, 3rd sub-cylinder 33 and the 4th sub-cylinder 34 are delivered to exit, mould exports from outlet and is transported to the process of the first sub-cylinder 31 by the 4th sub-cylinder 34, the pull bar 251 being positioned at exit will catch on hook plate 411, mould 4 is made automatically to open cope match-plate pattern 41 in motion process, cope match-plate pattern 41 is supported by arc-shaped guide rail 24, and the food adding cold forming will be stayed on lower bolster 42 by gravity, now, blown by the food on air nozzle 50 pairs of lower bolsters 42, make it to melt with the faying face of mould with heated food and utilize wind-force to be blown out from lower bolster 42 by food, to realize food automatic demoulding.Mould 4 after the demoulding will continue to move to the second sub-cylinder 32 direction by the first sub-cylinder 31, and cope match-plate pattern 41 is by along mild the setting level of arc-shaped guide rail 24, avoid occurring that cope match-plate pattern 41 falling speed is excessive and produce noise and shock, mould 4 is transported to the below of discharging gate 52 by following the first sub-cylinder 31.Then, this mould 4 repeats continuing the processing that aforesaid operations completes next food.Wherein, while utilizing semiconductor chilling plate 23 to carry out freezing, the heat that semiconductor chilling plate 23 produces will be fully utilized for heating the food adding cold forming, and complete the operation of automatic demoulding, the more effective automaticity that improve equipment, further, overall structure is simply compact, and manufacturing cost is lower.In addition, mould 4 is passing through in motor drive component 3 moving process, and interior guide ring 11 and outer guide ring 12 coordinate and will lead to mould 4, guarantee that mould 4 can move smoothly.And for the mounting means of reset cylinder 6, can on installing rack 1 in offer through hole 13 in the region that surrounds of guide ring 11, reset cylinder 6 tilts to be inserted in through hole 13.
Further, described Automatic-feeding equipment 5 also comprises the first binder cylinder 56, rotary sleeve 57 and motor 571, described rotary sleeve 57 is rotating to be arranged in described major ingredient cylinder 53, described motor 571 is in transmission connection with described rotary sleeve 57, the piston rod of described first binder cylinder 56 is inserted in described rotary sleeve 57 and stretches out the bottom of described rotary sleeve 57, the piston rod of described first binder cylinder 56 is provided with the first holding pad (not shown), described first holding pad is arranged in described major ingredient cylinder 53, described rotary sleeve 57 is provided with stirring vane (not shown).Concrete, food materials raw material is put in major ingredient cylinder 53, the rotary sleeve 57 rotated is stirred by stirring vane processing food materials raw material and forms food materials slurry, when needs annotate food materials slurry by discharging gate 52 to mould 4, first binder cylinder 56 drives the first holding pad action, is extruded by the food materials slurry in major ingredient cylinder 53.In addition, Automatic-feeding equipment 5 also comprises auxiliary material cylinder 58 and the second binder cylinder 59, described auxiliary material cylinder 58 is fixed on described installation frame 51, described second binder cylinder 59 is fixed on described auxiliary material cylinder 58, the piston rod of described second binder cylinder 59 is provided with the second holding pad (not shown), described second holding pad is arranged in described auxiliary material cylinder 58, the discharging opening of described auxiliary material cylinder 58 is connected with described discharging gate 52 by pipeline, concrete, auxiliary material slurry can be thrown in as required in auxiliary material cylinder 58, and drive the second holding pad action by the second binder cylinder 59, auxiliary material slurry in auxiliary material cylinder 58 is extruded.
The present invention also provides a kind of food cold automatic processing method, and adopt above-mentioned food cold processing equipment, method comprises:
Mold addition operation: food materials slurry is injected in the model groove of mould by discharging gate, then, cope match-plate pattern is closed by reset cylinder action;
Die-cooling operation: mould, by the second sub-cylinder, the 3rd sub-cylinder and the 4th sub-cylinder, moves in U-shaped passage, semiconductor chilling plate energising produces cold and carries out freezing to the mould in U-shaped passage;
Mould die sinking operation: the mould in U-shaped passage is driven by the 4th sub-cylinder and exports from outlet and be transported to the process of the first sub-cylinder, the hook plate of cope match-plate pattern will be hooked by pull bar, cope match-plate pattern is automatically opened and is abutted on arc-shaped guide rail, lower bolster is formed the food of cold forming;
Mould discharging operation: in the first sub-cylinder driven mold moving process, cope match-plate pattern is set level along arc-shaped guide rail, and air nozzle blows hot gas to lower bolster, to be blown out from model groove by food while the heating of food in lower bolster model groove.
Food cold processing equipment provided by the invention and processing method, mould can be driven to slide in rectangle gathering sill by motor drive component, and after filling food materials slurry in a mold by discharging gate, reset cylinder closing molding, mould is transported in U-shaped passage, freezed by semiconductor chilling plate, food materials in mould are caught a cold and is shaped to final food, and after mould exports from U-shaped passage, to be coordinated with hook plate by pull bar and automatically open cope match-plate pattern, and now, the cold that face, semiconductor chilling plate hot junction produces will be exported by air nozzle under the driving of fan, and the hot-air that air nozzle exports will heat the food on lower bolster, simultaneously, directly food can be blown out from lower bolster by the jet angle adjusting air nozzle, realize automatically food being taken out from mould, user only needs to place food basket in the side of equipment and holds the food blown off, in addition, while the hot junction of semiconductor chilling plate carries out freezing in the face of mould, the heat produced in the face, hot junction of semiconductor chilling plate also makes it to melt with the faying face of mould open and blown out from mould by the food processed for the food in heating mould, effectively make use of cold and the heat of semiconductor chilling plate, realize food automation processing, simultaneously, the simple small volume of equipment overall structure, can be good at the instructions for use meeting little retail shop, same, also can use in integrated mill, the manufacturing cost realizing reducing food cold processing equipment also realizes automatically processing food, to reduce the labour intensity of workman.
Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of various embodiments of the present invention technical scheme.

Claims (4)

1. a food cold processing equipment, is characterized in that, comprises installing rack, semiconductor heating module, motor drive component, multiple mould and Automatic-feeding equipment, described installing rack is provided with interior guide ring and outer guide ring, rectangle gathering sill is formed between described interior guide ring and described outer guide ring, the first hollow out chute is offered successively in described rectangle gathering sill, second hollow out chute, 3rd hollow out chute and the 4th hollow out chute, described motor drive component comprises the first sub-cylinder in rectangular layout, second sub-cylinder, 3rd sub-cylinder and the 4th sub-cylinder, described first sub-cylinder, described second sub-cylinder, the piston rod of described 3rd sub-cylinder and described 4th sub-cylinder is respectively arranged with push pedal, described first sub-cylinder, second sub-cylinder, 3rd sub-cylinder and the 4th sub-cylinder respectively correspondence are positioned at described first hollow out chute, second hollow out chute, the below of the 3rd hollow out chute and the 4th hollow out chute, described first hollow out chute, second hollow out chute, slide in 3rd hollow out chute and the 4th hollow out chute and be provided with corresponding described push pedal, described semiconductor heating module comprises outer cover, heat shield and semiconductor chilling plate, described heat shield is fixed on described installing rack and forms U-shaped passage, described U-shaped passage has import and outlet, described second hollow out chute, 3rd hollow out chute and the 4th hollow out chute are arranged in described U-shaped passage, described first hollow out chute is in the outside of described U-shaped passage and be arranged between described import and described outlet, described outer cover is fixed on the outside of described heat shield, air channel is formed between described outer cover and described heat shield, described air channel has air inlet and air outlet, fan is provided with in described air channel, described semiconductor chilling plate is fixed on described heat shield, the cold junction face of described semiconductor chilling plate is arranged in described U-shaped passage, the face, hot junction of described semiconductor chilling plate is positioned on outer cover described in described air channel and is also provided with arc-shaped guide rail, the one end part of described arc-shaped guide rail is in the top of described import, the other end of described arc-shaped guide rail is between described import and described outlet, described mould comprises hinged cope match-plate pattern and lower bolster, formation model groove on described lower bolster, described lower bolster is slidably arranged in described rectangle gathering sill, described cope match-plate pattern is provided with outward extending hook plate, described outer cover is provided with rotating connecting rod, the free end of described connecting rod is provided with the pull bar coordinated with described hook plate, described connecting rod is positioned at described exit, described installing rack is also provided with the reset cylinder for closing described cope match-plate pattern, and described reset cylinder tilts upward to arrange and between described import and described outlet, described Automatic-feeding equipment comprises installation frame, discharging gate, air nozzle, major ingredient cylinder and lift cylinder, described installation frame is fixed on described installing rack, described major ingredient cylinder is fixed on described installation frame, described lift cylinder is fixed on described installation frame, the piston rod of described lift cylinder is provided with installing plate, described discharging gate and described air nozzle are arranged on described installing plate, the discharging opening of described major ingredient cylinder is connected with described discharging gate by pipeline, described air outlet is connected with described air nozzle by pipeline, described installing plate is between described import and described outlet, described air nozzle is near described outlet.
2. food cold processing equipment according to claim 1, it is characterized in that, described Automatic-feeding equipment also comprises the first binder cylinder, rotary sleeve and motor, described rotary sleeve is rotating to be arranged in described major ingredient cylinder, described motor and described rotary sleeve are in transmission connection, the piston rod of described first binder cylinder is inserted in described rotary sleeve and stretches out the bottom of described rotary sleeve, the piston rod of described first binder cylinder is provided with the first holding pad, described rotary sleeve is provided with stirring vane.
3. food cold processing equipment according to claim 2, it is characterized in that, described Automatic-feeding equipment also comprises auxiliary material cylinder and the second binder cylinder, described auxiliary material cylinder is fixed on described installation frame, described second binder cylinder is fixed on described auxiliary material cylinder, the piston rod of described second binder cylinder is provided with the second holding pad, and described second holding pad is arranged in described auxiliary material cylinder, and the discharging opening of described auxiliary material cylinder is connected with described discharging gate by pipeline.
4. the cold automatic processing method of food, is characterized in that, adopt as arbitrary in claim 1-3 as described in food cold processing equipment, method comprises:
Mold addition operation: food materials slurry is injected in the model groove of mould by discharging gate, then, cope match-plate pattern is closed by reset cylinder action;
Die-cooling operation: mould, by the second sub-cylinder, the 3rd sub-cylinder and the 4th sub-cylinder, moves in U-shaped passage, semiconductor chilling plate energising produces cold and carries out freezing to the mould in U-shaped passage;
Mould die sinking operation: the mould in U-shaped passage is driven by the 4th sub-cylinder and exports from outlet and be transported to the process of the first sub-cylinder, the hook plate of cope match-plate pattern will be hooked by pull bar, cope match-plate pattern is automatically opened and is abutted on arc-shaped guide rail, lower bolster is formed the food of cold forming;
Mould discharging operation: in the first sub-cylinder driven mold moving process, cope match-plate pattern is set level along arc-shaped guide rail, and air nozzle blows hot gas to lower bolster, to be blown out from model groove by food while the heating of food in lower bolster model groove.
CN201511014916.3A 2015-12-31 2015-12-31 Food cold processing equipment and food cold processing method Withdrawn CN105423612A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201511014916.3A CN105423612A (en) 2015-12-31 2015-12-31 Food cold processing equipment and food cold processing method

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Application Number Priority Date Filing Date Title
CN201511014916.3A CN105423612A (en) 2015-12-31 2015-12-31 Food cold processing equipment and food cold processing method

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CN105423612A true CN105423612A (en) 2016-03-23

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CN201511014916.3A Withdrawn CN105423612A (en) 2015-12-31 2015-12-31 Food cold processing equipment and food cold processing method

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108719570A (en) * 2018-05-10 2018-11-02 湖北赛格瑞新能源科技有限公司 A kind of Machine for making ice-sucker using semiconductor refrigerating
CN114129064A (en) * 2021-12-01 2022-03-04 广东美的厨房电器制造有限公司 Cooking apparatus

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108719570A (en) * 2018-05-10 2018-11-02 湖北赛格瑞新能源科技有限公司 A kind of Machine for making ice-sucker using semiconductor refrigerating
CN108719570B (en) * 2018-05-10 2021-09-24 湖北赛格瑞新能源科技有限公司 Ice lolly machine utilizing semiconductor refrigeration
CN114129064A (en) * 2021-12-01 2022-03-04 广东美的厨房电器制造有限公司 Cooking apparatus
CN114129064B (en) * 2021-12-01 2023-09-19 广东美的厨房电器制造有限公司 Cooking apparatus

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Application publication date: 20160323