CN113575831A - Pasteurizing device is used in cooked food production - Google Patents

Abstract

The invention discloses a pasteurizing device for cooked food production, which comprises a supporting component, a moving component, a blanking component, a material loading component, a control component, a heating pool component and a refrigerating pool component, wherein one end of the moving component is connected with the supporting component in a transverse sliding manner, the other end of the moving component is connected with the blanking component to drive the blanking component to move in the transverse direction, the heating pool component and the refrigerating pool component are jointly used for sterilizing food, the heating pool component and the refrigerating pool component are respectively arranged on the moving path of the blanking component, one side of the blanking component, which is close to the heating pool component and the refrigerating pool component, is provided with the material loading component for loading materials, the blanking component is used for lifting the material loading component so as to enable the material loading component to be arranged in the heating pool component and the refrigerating pool component, the control component is respectively and electrically connected with the moving component, the blanking component, the heating pool component and the refrigerating pool component, the product quality can be improved and stabilized.

Description

Pasteurizing device is used in cooked food production

Technical Field

The invention relates to the technical field of sterilization devices, in particular to a pasteurization device for cooked food production.

Background

The food is required to be sterilized during cooked food production and processing, the pasteurization method is particularly commonly used in the cooked food production and processing, but most of the existing pasteurization equipment completes temperature control, timing and material transfer in a manual mode, the sterilization temperature and the sterilization time are difficult to grasp in a manual control mode, incomplete sterilization is easy to cause, and the quality of the produced products is unstable.

Disclosure of Invention

The invention mainly aims to provide a pasteurizing device for cooked food production, and aims to solve the technical problem of unstable product quality caused by manual operation in the prior art.

In order to achieve the purpose, the pasteurizing device for cooked food production provided by the invention comprises a supporting component, a moving component, a blanking component, a material loading component, a control component, a heating pool component and a refrigerating pool component, wherein one end of the moving component is connected with the supporting component in a transverse sliding manner, the other end of the moving component is connected with the blanking component so as to drive the blanking component to move in the transverse direction, the heating pool component and the refrigerating pool component are jointly used for sterilizing food, the heating pool component and the refrigerating pool component are respectively arranged on the moving path of the blanking component, one side of the blanking component, which is close to the heating pool component and the refrigerating pool component, is provided with the material loading component for loading materials, the blanking component is used for lifting the material loading component so as to enable the material loading component to be arranged in the heating pool component and the refrigerating pool component, and the control component is respectively connected with the moving component, The blanking assembly, the heating pool assembly and the refrigerating pool assembly are electrically connected, the control assembly is used for controlling the moving assembly to slide along the supporting assembly, controlling the blanking assembly to ascend and descend the material loading assembly, controlling the heating time and the heating temperature of the heating pool assembly after detecting that the material loading assembly enters the heating pool assembly, controlling the moving assembly and the blanking assembly to respectively move the material loading assembly into the refrigerating pool assembly after detecting that the disinfection time in the heating pool assembly reaches a preset value, and controlling the cooling temperature of the refrigerating pool assembly.

Preferably, the supporting component comprises symmetrically arranged supporting rods, the supporting rods are connected through transversely arranged sliding rods, and the heating pool component and the refrigerating pool component are arranged on the lower sides of the sliding rods.

Preferably, the unloading subassembly includes the slider, the slider slides and sets up at the slide bar outer wall, the cross section of slide bar and the cross section of slider are polygonized structure, the unloading subassembly is still including setting up the pneumatic cylinder of getting off at the slider, the one end that the pneumatic cylinder deviates from the slider is equipped with the first motor that is used for rotating the material loading subassembly.

Preferably, the material loading assembly comprises a material hanging disc connected with an output shaft of the first motor, one side of the material hanging disc, which deviates from the first motor, is detachably connected with a material frame, and a plurality of through holes for water leakage are uniformly distributed on the frame wall of the material frame.

Preferably, one side of the material frame, which is close to the hanging plate, is provided with a plurality of hanging rings, and one side of the hanging plate, which is close to the material frame, is provided with a plurality of hooks matched with the hanging rings.

Preferably, the movable assembly comprises a movable plate arranged on the supporting rod, the movable plate is installed along the length direction of the sliding rod, the movable plate is arranged on the upper side of the sliding rod in parallel, a rack is arranged on one side, deviating from the sliding rod, of the movable plate, the movable assembly further comprises a gear arranged on the movable plate and matched with the rack, two ends of the gear in the axis direction are respectively and movably connected with clamping plates and two lower ends of the clamping plates are respectively connected with the sliding rod through connecting rods, the movable assembly further comprises a second motor fixed on the clamping plates and deviating from one side of the gear, and the second motor penetrates through the clamping plates through an output shaft and is connected with the gear.

Preferably, the heating tank subassembly includes first pool wall, first pool wall is gone up to cave in and is formed with the first pool groove that is used for loading hot water, be formed with first cavity in the first pool wall, first cavity surrounds first pool groove for U type structure, be equipped with the hot plate in the first cavity, be equipped with the heater strip that is used for heating for the hot plate on the hot plate.

Preferably, the refrigeration battery subassembly includes the second pool wall, the sunken second pond groove that is used for loading cold water that is formed with on the second pond wall, be formed with the second cavity in the second pond wall, the second cavity surrounds the second pond groove for U type structure, be equipped with the baffle in the second cavity, the baffle surrounds the second pond groove for U type structure to divide into refrigeration storehouse and heat dissipation storehouse two parts with the second cavity, the refrigeration storehouse sets up in the one side that is close to the second pond groove, the heat dissipation storehouse sets up in the one side that deviates from the second pond groove, be equipped with a plurality of semiconductor refrigeration pieces on the baffle, the cold junction of semiconductor refrigeration piece sets up in the refrigeration storehouse, the hot junction of semiconductor refrigeration piece sets up in the heat dissipation storehouse.

Preferably, the outer wall of the second pool wall is provided with a plurality of heat dissipation holes communicated with the heat dissipation bin, and the refrigeration pool assembly further comprises a fan arranged in the heat dissipation bin.

Preferably, the control assembly comprises a PLC controller, a timer, a first temperature sensor, a second temperature sensor and a stop piece, the PLC controller is used for operating a first motor, a second motor, a heating wire, a semiconductor refrigerating sheet and a hydraulic cylinder, the timer is used for calculating the time length of the material frame in the first pool tank, the first temperature sensor is arranged on the wall of the second pool tank and used for monitoring the water temperature in the second pool tank, the second temperature sensor is arranged on the wall of the first pool tank and used for monitoring the water temperature in the first pool tank, the stop piece comprises a first limiting rod and a second limiting rod which are symmetrically arranged on two sides of the sliding rod, a first button is arranged on one side of the first limiting rod close to the sliding block, a second button is arranged on one side of the second limiting rod close to the sliding block, and when the sliding block is in contact with the first button, the material frame is just positioned at the center of the notch of the first pool tank, when the slider contacts with the second button, the material frame just in time is located the notch center in second pond groove, the PLC controller passes through the wire and links to each other with first motor, second motor, heater strip, semiconductor refrigeration piece, pneumatic cylinder, time-recorder, first temperature sensor, second temperature sensor, first button and second button electrical property.

In the technical scheme of the invention, a heating pool assembly and a refrigerating pool assembly are used for sterilizing and disinfecting food, a material loading assembly is used for loading cooked food to be sterilized, a blanking assembly is used for sequentially feeding the material loaded material loading assembly into the heating pool assembly and the refrigerating pool assembly, a supporting assembly is used for supporting the material loading assembly and the blanking assembly to ensure the movable space of the material loading assembly and the blanking assembly, a moving assembly is used for driving the blanking assembly to move back and forth on the supporting assembly, so that the material loading assembly can move from the inside of the heating pool assembly to the inside of the refrigerating pool assembly, the sterilizing time of the material in the material loading assembly by the heating pool assembly can be accurately controlled by a control assembly, when the sterilizing time of the material in the material loading assembly by the heating pool assembly reaches a preset value, the control assembly controls the blanking assembly and the moving assembly to work, so that the material loading assembly is quickly separated from the heating pool assembly, and rapid arrange in the refrigeration pond subassembly in, the control assembly can also control the temperature that heating pond subassembly and refrigeration pond subassembly disinfected the material in to carrying the material subassembly to can realize treating the automatic and accurate control of disinfecting the material, can avoid disinfection time overlength or short, the too high or too low condition of disinfection temperature takes place, makes the quality of product improve and more stable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is also possible for a person skilled in the art to obtain other drawings with the structures shown in the drawings without inventive effort.

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

FIG. 2 is a schematic structural view of a support assembly, a blanking assembly and a loading assembly of the present invention;

FIG. 3 is a schematic structural view of a blanking assembly and a loading assembly of the present invention;

FIG. 4 is a schematic view of a disassembled structure of the loading assembly of the present invention;

FIG. 5 is a partial schematic view of the moving assembly of the present invention;

FIG. 6 is a schematic cross-sectional view of a heating cell assembly according to the present invention;

FIG. 7 is a schematic cross-sectional view of a refrigeration cell assembly of the present invention;

FIG. 8 is an enlarged partial view of the region C of FIG. 6 according to the present invention;

FIG. 9 is an enlarged partial view of the area D of FIG. 7 according to the present invention;

FIG. 10 is an enlarged partial view of the region E in FIG. 7 according to the present invention;

FIG. 11 is an enlarged view of a portion of the area B in FIG. 2 according to the present invention;

fig. 12 is a partially enlarged structural view of the region a in fig. 2 according to the present invention.

The reference numbers illustrate:

1. a support assembly; 11. a support bar; 12. a slide bar; 2. a blanking assembly; 21. a slider; 22. a hydraulic cylinder; 23. a first motor; 3. a loading assembly; 31. hanging a material tray; 32. a material frame; 32a, a through hole; 33. hanging a ring; 34. hooking; 4. a moving assembly; 41. moving the plate; 41a, a rack; 42. a gear; 43. a splint; 44. a connecting rod; 45. a second motor; 5. a heating bath assembly; 51. a first tank wall; 51a, a first tank; 51b, a first cavity; 52. heating plates; 53. heating wires; 6. a refrigeration sink assembly; 61. a second tank wall; 61a, a second tank; 61b, a second cavity; 61c, heat dissipation holes; 62. a partition plate; 63. a semiconductor refrigeration sheet; 64. a fan; 7. a control component; 71. a first temperature sensor; 72. a second temperature sensor; 73. a stop; 731. a first limit rod; 732. a first button; 733. a second limiting rod; 734. a second button.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" can include at least one of the feature either explicitly or implicitly. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise explicitly specified or limited, the terms "connected", "fixed", and the like are to be understood broadly, for example, "fixed" can be a fixed connection, and can also be a detachable connection, or be integrated; can be either a mechanical or electrical connection; can be directly connected or indirectly connected through intervening media, can be internal to two elements or can be in an interactive relationship with two elements unless expressly defined otherwise. To those of ordinary skill in the art, the specific meanings of the above terms in the present invention can be understood as specific cases.

In addition, the technical solutions between the embodiments of the present invention can be combined with each other, but must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not be within the protection scope of the present invention.

The invention provides a pasteurization device for cooked food production.

Referring to fig. 1 to 12, the pasteurizing device for cooked food production comprises a supporting component 1, a moving component 4, a blanking component 2, a material loading component 3, a control component 7, a heating pool component 5 and a refrigerating pool component 6, wherein one end of the moving component 4 is connected with the supporting component 1 in a transverse sliding manner, the other end of the moving component is connected with the blanking component 2 to drive the blanking component 2 to move in the transverse direction, the heating pool component 5 and the refrigerating pool component 6 are jointly used for sterilizing food, the heating pool component 5 and the refrigerating pool component 6 are respectively arranged on a moving path of the blanking component 2, one side of the blanking component 2, which is close to the heating pool component 5 and the refrigerating pool component 6, is provided with the material loading component 3 for loading materials, the blanking component 2 is used for lifting the material loading component 3 so that the material loading component 3 is arranged in the heating pool component 5 and the refrigerating pool component 6, the control assembly 7 is respectively electrically connected with the moving assembly 4, the blanking assembly 2, the heating pool assembly 5 and the refrigerating pool assembly 6, the control assembly 7 is used for controlling the moving assembly to slide along the supporting assembly 1, controlling the blanking assembly 2 to lift the material loading assembly 3, controlling the heating time and the heating temperature of the heating pool assembly 5 after detecting that the material loading assembly 3 enters the heating pool assembly 5, controlling the moving assembly 4 and the blanking assembly 2 to respectively move the material loading assembly 3 into the refrigerating pool assembly 6 after detecting that the disinfection time in the heating pool assembly 5 reaches a preset value, and controlling the cooling temperature of the refrigerating pool assembly 6.

In the technical scheme of the invention, a heating pool assembly 5 and a refrigerating pool assembly 6 are used for sterilizing and disinfecting food, a material loading assembly 3 is used for loading cooked food to be sterilized, a material unloading assembly 2 is used for sequentially feeding the material loading assembly 3 loaded with the material into the heating pool assembly 5 and the refrigerating pool assembly 6, a support assembly 1 is used for supporting the material loading assembly 3 and the material unloading assembly 2 to ensure the moving space for supporting the material loading assembly 3 and the material unloading assembly 2, a moving assembly 4 is used for driving the material unloading assembly 2 to move back and forth on the support assembly 1, so that the material loading assembly 3 can move from the heating pool assembly 5 to the refrigerating pool assembly 6, the sterilizing time of the material in the material loading assembly 3 by the heating pool assembly 5 can be accurately controlled by a control assembly 7, when the sterilizing time of the material in the material loading assembly 3 by the heating pool assembly 5 reaches a preset value, the control assembly 7 controls the material unloading assembly 2 and the moving assembly 4 to work, make and carry material subassembly 3 and break away from heating bath subassembly 5 fast to rapid arrange in refrigeration pond subassembly 6, control assembly 7 can also control heating bath subassembly 5 and refrigeration pond subassembly 6 to carrying the temperature of material disinfection in the material subassembly 3, thereby can realize treating the automatic and accurate control of disinfecting the material, can avoid disinfection time overlength or short, the too high or too low condition of disinfection temperature takes place, make the quality of product improve and more stable.

Referring to the attached drawing 2, the supporting assembly 1 comprises symmetrically arranged supporting rods 11, the supporting rods 11 are connected through transversely arranged sliding rods 12, the heating pool assembly 5 and the refrigerating pool assembly 6 are arranged below the sliding rods 12, and the operation of placing the material loading assembly 3 in the heating pool assembly 5 and the refrigerating pool assembly 6 by the blanking assembly 2 can be further facilitated through the heating pool assembly 5 and the refrigerating pool assembly 6 arranged below the sliding rods 12.

Referring to fig. 3, the blanking assembly 2 includes a sliding block 21, the sliding block 21 is slidably disposed on an outer wall of the sliding rod 12, a cross section of the sliding rod 12 and a cross section of the sliding block 21 are both polygonal structures, the blanking assembly 2 further includes a hydraulic cylinder 22 disposed on a lower side of the sliding block 21, one end of the hydraulic cylinder 22 away from the sliding block 21 is provided with a first motor 23 for rotating the material loading assembly 3, and the sliding rod 12 and the sliding block 21, which have polygonal cross sections, can well ensure that the sliding block 21 does not swing to two sides when sliding on the sliding rod 12.

Referring to fig. 4, the material loading assembly 3 includes a hanging tray 31 connected to an output shaft of the first motor 23, one side of the hanging tray 31 away from the first motor 23 is detachably connected to a material frame 32, a plurality of through holes 32a for water leakage are uniformly distributed on a frame wall of the material frame 32, the first motor 23 can drive the hanging tray 31 to rotate slowly, the hanging tray 31 rotates to drive the material frame 32 to rotate, and the material frame 32 rotates to enable materials loaded in the material frame 32 to be heated uniformly, so as to avoid the situation of over-high local temperature or over-low local temperature.

Referring to fig. 4 again, a plurality of hanging rings 33 are disposed on one side of the material frame 32 close to the hanging tray 31, a plurality of hooks 34 engaged with the hanging rings 33 are disposed on one side of the hanging tray 31 close to the material frame 32, and the material frame 32 can be conveniently taken down from the hanging tray 31 by the engagement between the hanging rings 33 and the hooks 34.

Referring to fig. 5, the moving assembly 4 includes a moving plate 41 disposed on the support rod 11, the moving plate 41 is mounted along the length direction of the slide rod 12, the moving plate 41 is disposed at the upper side of the slide rod 12 in parallel, a rack 41a is disposed on a side of the moving plate 41 away from the slide rod 12, the moving assembly 4 further includes a gear 42 disposed on the moving plate 41 and engaged with the rack 41a, two ends of the gear 42 in the axial direction are respectively movably connected with a clamp 43, lower ends of the two clamp 43 are respectively connected with the slider 21 through a connecting rod 44, the moving assembly 4 further includes a second motor 45 fixed on a side of the clamp 43 away from the gear 42, the second motor 45 penetrates through the clamp 43 through an output shaft and is connected with the gear 42, the second motor 45 rotates to drive the gear 42 to rotate, and the gear 42 rolls back and forth along the length direction of the moving under the action force of the rack 41a when rotating, meanwhile, the connecting rod 44 drives the sliding block 21 to slide back and forth on the sliding rod 12, so as to move the position of the material frame 32.

Referring to fig. 6 and 8, the heating tank assembly 5 includes a first tank wall 51, a first tank 51a for containing hot water is concavely formed on the first tank wall 51, a first cavity 51b is formed in the first tank wall 51, the first cavity 51b is in a U-shaped structure to surround the first tank 51a, a heating plate 52 is arranged in the first cavity 51b, a heating wire 53 for heating the heating plate 52 is arranged on the heating plate 52, the heating wire 53 can heat water in the first tank 51a, and further, the heating wire 53 can heat the first tank 51a more uniformly through the first cavity 51b surrounding the first tank 51 a.

Referring to fig. 7 and 9, the refrigerating cell assembly 6 includes a second cell wall 61, a second cell groove 61a for loading cold water is formed in the second cell wall 61 in a concave manner, a second cavity 61b is formed in the second cell wall 61, the second cavity 61b is surrounded by the second cell groove 61a in a U-shaped structure, a partition plate 62 is disposed in the second cavity 61b, the partition plate 62 surrounds the second cell groove 61a in a U-shaped structure, and divides the second cavity 61b into a refrigerating compartment and a heat dissipating compartment, the refrigerating compartment is disposed at a side close to the second cell groove 61a, the heat dissipating compartment is disposed at a side away from the second cell groove 61a, a plurality of semiconductor refrigerating fins 63 are disposed on the partition plate 62, cold ends of the semiconductor refrigerating fins 63 are disposed in the refrigerating compartment, hot ends of the semiconductor refrigerating fins 63 are disposed in the heat dissipating compartment, and the semiconductor refrigerating fins 63 can refrigerate water in the second cell groove 61a, further, the second cavity 61b surrounding the second tank 61a can make the cooling of the second tank 61a by the semiconductor cooling plate 63 more uniform.

Referring to fig. 9 and 10, the outer wall of the second tank wall 61 is provided with a plurality of heat dissipation holes 61c communicated with the heat dissipation bin, the cooling tank assembly 6 further includes a fan 64 disposed in the heat dissipation bin, and the fan 64 can accelerate the dissipation of heat generated by the operation of the semiconductor cooling tray, so as to prevent the heat accumulation from affecting the temperature of water in the second tank 61 a.

Referring to fig. 2 to 12, the control assembly 7 includes a PLC controller for operating the first motor 23, the second motor 45, the heater strip 53, the semiconductor chilling plate 63 and the hydraulic cylinder 22, a timer for counting a time period of the material frame 32 in the first tank 51a, a first temperature sensor 71 disposed on a wall of the second tank 61a for monitoring a temperature of water in the second tank 61a, a second temperature sensor 72 disposed on a wall of the first tank 51a for monitoring a temperature of water in the first tank 51a, and a stopper 73 including a first stopper bar 731 and a second stopper bar 733 symmetrically disposed on both sides of the sliding bar 12, wherein a first button 732 is disposed on a side of the first stopper bar 731 close to the sliding block 21, a second button 734 is disposed on a side of the second stopper bar 733 close to the sliding block 21, when the slide block 21 is contacted with the first button 732, the material frame 32 is located right at the notch center of the first tank 51a, when the slide block 21 is contacted with the second button 734, the material frame 32 is located right at the notch center of the second tank 61a, the PLC controller is electrically connected with the first motor 23, the second motor 45, the heating wire 53, the semiconductor cooling sheet 63, the hydraulic cylinder 22, the timer, the first temperature sensor 71, the second temperature sensor 72, the first button 732 and the second button 734 through wires, when the second motor 45 rotates and drives the slide block 21 to move through the connecting rod 44, the slide block 21 is contacted with and pressed down the first button 732, the PLC controller controls the second motor 45 to stop working, simultaneously controls the hydraulic cylinder 22 and the first motor 23 to work simultaneously, and starts to count through the timer, the hydraulic cylinder 22 pushes the material frame 32 towards the first tank 51a, the material frame 32 is integrally arranged in the first tank 51a for heating treatment, the first motor 23 rotates to enable the material frame 32 to rotate in the first tank 51a, when the accumulated time of the timer reaches a preset value, a signal is transmitted to the PLC controller, the PLC controller controls the hydraulic cylinder 22 to lift the material frame 32 and controls the second motor 45 to rotate reversely, after the slider 21 presses the second button 734, the PLC controller controls the second motor 45 to stop working, and the hydraulic cylinder 22 pushes the material frame 32 into the second tank 61a to cool the material in the material frame 32, the first temperature sensor 71 can monitor the water temperature in the second tank 61a in real time, when the first temperature sensor 71 monitors that the water temperature in the second tank 61a is larger than a preset range, the PLC controller controls the semiconductor refrigerating sheet 63 to work to cool the material in the second tank 61a, the second temperature sensor 72 can monitor the water temperature in the first tank 51a in real time, and when the second temperature sensor 72 monitors that the water temperature in the first tank 51a is lower than a preset range, the PLC controller controls the heating wire 53 to work to perform heating treatment on the water in the first tank 51a, so that the water temperatures in the first tank 51a and the second tank 61a are always kept in a certain range.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a pasteurizing device for cooked food production, its characterized in that, including supporting component, removal subassembly, unloading subassembly, year material subassembly, control assembly, heating bath subassembly and refrigeration pond subassembly, removal subassembly one end with supporting component is along horizontal sliding connection, the other end with the unloading subassembly is connected, in order to drive unloading subassembly is along horizontal migration, heating bath subassembly and refrigeration pond subassembly are used for disinfecting food jointly, heating bath subassembly and refrigeration pond subassembly set up respectively on the removal route of unloading subassembly, one side that the unloading subassembly is close to heating bath subassembly and refrigeration pond subassembly is equipped with the year material subassembly that is used for loading the material, the unloading subassembly is used for going up and down to carry the material subassembly to make year material subassembly arrange heating bath subassembly and refrigeration pond subassembly in, control assembly respectively with removal subassembly, unloading subassembly, The heating tank assembly is electrically connected with the refrigerating tank assembly, the control assembly is used for controlling the moving assembly to slide along the supporting assembly, controlling the blanking assembly to ascend and descend the material loading assembly, controlling the heating time and the heating temperature of the heating tank assembly after the material loading assembly is detected to enter the heating tank assembly, controlling the moving assembly and the blanking assembly to respectively move the material loading assembly into the refrigerating tank assembly after the disinfection time in the heating tank assembly is detected to reach a preset value, and controlling the cooling temperature of the refrigerating tank assembly.

2. The pasteurizing device for cooked food production according to claim 1, wherein the supporting members comprise symmetrically disposed supporting rods connected by a transversely disposed sliding rod, and the heating tank assembly and the refrigerating tank assembly are disposed under the sliding rod.

3. The pasteurizing device for the cooked food production according to claim 2, wherein the blanking assembly comprises a slide block, the slide block is slidably arranged on the outer wall of the slide rod, the cross section of the slide rod and the cross section of the slide block are both polygonal structures, the blanking assembly further comprises a hydraulic cylinder arranged on the lower side of the slide block, and one end of the hydraulic cylinder, which is far away from the slide block, is provided with a first motor for rotating the loading assembly.

4. The pasteurizing device for cooked food production according to claim 3, wherein the material loading component comprises a material hanging tray connected with the output shaft of the first motor, one side of the material hanging tray, which is far away from the first motor, is detachably connected with a material frame, and a plurality of through holes for water leakage are uniformly distributed on the frame wall of the material frame.

5. The pasteurizing device for cooked food production according to claim 4, wherein a plurality of hanging rings are provided on one side of the material frame close to the hanging plate, and a plurality of hooks matched with the hanging rings are provided on one side of the hanging plate close to the material frame.

6. The pasteurizing device for cooked food production according to claim 5, wherein the moving assembly comprises a moving plate disposed on the support rod, the moving plate is mounted along the length direction of the slide rod, the moving plate is disposed on the upper side of the slide rod in parallel, a rack is disposed on the side of the moving plate facing away from the slide rod, the moving assembly further comprises a gear disposed on the moving plate and matched with the rack, two ends of the gear in the axial direction are respectively movably connected with a clamping plate, the lower ends of the two clamping plates are respectively connected with the slide block through a connecting rod, the moving assembly further comprises a second motor fixed on the side of the clamping plate facing away from the gear, and the second motor penetrates through the clamping plate through an output shaft and is connected with the gear.

7. The pasteurizing device for cooked food production according to claim 6, wherein the heating tank assembly comprises a first tank wall, a first tank groove for loading hot water is concavely formed on the first tank wall, a first cavity is formed in the first tank wall, the first cavity is in a U-shaped structure and surrounds the first tank groove, a heating plate is arranged in the first cavity, and a heating wire for heating the heating plate is arranged on the heating plate.

8. The pasteurizing device for cooked food production according to claim 7, wherein the refrigerating tank assembly includes a second tank wall, a second tank groove for loading cold water is formed in the second tank wall in a concave manner, a second cavity is formed in the second tank wall, the second tank groove is surrounded by the second cavity in a U-shaped structure, a partition plate is arranged in the second cavity, the partition plate is surrounded by the second tank groove in a U-shaped structure and divides the second cavity into a refrigerating chamber and a heat dissipation chamber, the refrigerating chamber is arranged on one side close to the second tank groove, the heat dissipation chamber is arranged on one side away from the second tank groove, a plurality of semiconductor refrigerating fins are arranged on the partition plate, cold ends of the semiconductor refrigerating fins are arranged in the refrigerating chamber, and hot ends of the semiconductor refrigerating fins are arranged in the heat dissipation chamber.

9. The pasteurizing device for cooked food production according to claim 8, wherein the outer wall of the second tank wall is provided with a plurality of heat dissipating holes communicated with the heat dissipating bin, and the refrigerating tank assembly further comprises a fan disposed in the heat dissipating bin.

10. The pasteurizing device for cooked food production according to claim 8, wherein the control assembly comprises a PLC controller, a timer, a first temperature sensor, a second temperature sensor and a stop member, the PLC controller is used for the operation of the first motor, the second motor, the heating wire, the semiconductor refrigerating sheet and the hydraulic cylinder, the timer is used for calculating the time length of the material frame in the first tank, the first temperature sensor is arranged on the tank wall of the second tank and used for monitoring the water temperature in the second tank, the second temperature sensor is arranged on the tank wall of the first tank and used for monitoring the water temperature in the first tank, the stop member comprises a first limiting rod and a second limiting rod which are symmetrically arranged at two sides of the sliding rod, a first button is arranged at one side of the first limiting rod close to the sliding block, a second button is arranged at one side of the second limiting rod close to the sliding block, when the slider contacts with first button, the material frame just in time is located the notch center in first pond groove, when the slider contacts with the second button, the material frame just in time is located the notch center in second pond groove, the PLC controller passes through the wire and links to each other with first motor, second motor, heater strip, semiconductor refrigeration piece, pneumatic cylinder, time-recorder, first temperature sensor, second temperature sensor, first button and second button electrical property.

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