CN113115889A - Food fresh-keeping processing device - Google Patents

Abstract

The invention provides a food fresh-keeping processing device, and belongs to the technical field of food processing. A food fresh-keeping processing device comprises a rough selecting component, a rough cleaning component, a cutting component, a sterilizing and disinfecting cleaning component, a fine selecting component, a packaging component and a transferring component; according to the invention, the transferring assemblies are arranged between the sterilizing, disinfecting and cleaning assembly and the fine selecting assembly and between the fine selecting assembly and the packaging assembly, the tiltable conveyor belt and the air sealing assembly in the transferring assembly are used for forming the gas protection layers above and below the tiltable conveyor belt, so that the food small blocks are isolated from the air, the gas protection can be realized during the transferring of the sterilized and disinfected and washed food small blocks, the problems of moisture, nutrition and other components loss and easy deterioration caused by exposure to the air are avoided, the food preservation is realized, the shelf life of the food is prolonged, the conveying direction of the tiltable conveyor belt can be changed, an operator does not need to determine the direction of the transferring assembly in advance, the adaptability is high, and the operation is more convenient.

Description

Food fresh-keeping processing device

Technical Field

The invention relates to the technical field of food processing, in particular to a food fresh-keeping processing device.

Background

The food is a necessity of people's life and can supplement energy needed by human body, so the quality of the food is a key point of attention.

Food products are typically subjected to processing operations for ease of storage and transportation. However, in the processing process, the water and nutrition of the food are lost, even the food is rotten, the quality of the food is affected, the waste of the food is caused, and the food is not favorable for the preservation of the food. And, because the food course of working is loaded down with trivial details, when food is transported between the processing step of difference, the environment of food processing constantly changes, food easily exposes in the external world in the transportation, very easily leads to food rotten, be difficult to reach fresh-keeping processing demand, in addition, food is in the course of working, some manufacturing procedure need artifically take food, lead to the operator when taking, expose food in the external world equally easily, accelerated the loss of components such as food moisture, nutrition, and bacterium in the air can accelerate food rotten, lead to the short problem of food shelf life.

Disclosure of Invention

In view of the above problems in the prior art, it is an object of the present invention to provide a food fresh-keeping processing apparatus, which includes a rough selecting unit, a rough cleaning unit, a cutting unit, a sterilizing and disinfecting cleaning unit, a fine selecting unit, and a packaging unit, wherein appropriate raw materials are selected by the rough selecting unit, surface stains are cleaned by the rough cleaning unit, the rough cleaning unit is cut into appropriate food pieces by the cutting unit, the sterilizing and disinfecting cleaning unit is used for sterilizing and disinfecting the cut food pieces and cleaning residues, the fine selecting unit is used for selecting qualified food pieces, and the selected food pieces are packaged by the packaging unit Loss and easy deterioration of components such as nutrition, realizes food preservation, and prolongs the shelf life of food.

The specific technical scheme is as follows:

a food freshness processing apparatus having the features comprising:

the rough selection component is used for screening qualified food raw materials;

the inlet of the coarse cleaning component is connected with the outlet of the coarse selecting component and is used for cleaning stains on the surfaces of the food raw materials screened by the coarse selecting component;

the cutting assembly is connected with the outlet of the rough cleaning assembly at the inlet and is used for cutting the food raw materials cleaned by the rough cleaning assembly into small food blocks;

the inlet of the sterilizing and disinfecting cleaning component is connected with the outlet of the cutting component and is used for performing surface sterilizing and disinfecting treatment on the small food blocks and flushing residues on the small food blocks after sterilizing and disinfecting;

the fine selection assembly is used for selecting qualified food small blocks from the sterilized and washed food small blocks;

the packaging assembly is used for packaging the qualified food small blocks selected by the fine selection assembly;

a transferring component arranged between the sterilizing and cleaning component and the fine selecting component and used for transferring the sterilized and washed food small blocks to the fine selecting component, and arranged between the fine selecting component and the packaging component and used for transferring the qualified food small blocks selected by the fine selecting component to the packaging component, wherein,

the transportation subassembly includes the support, the box, the tilting conveyer belt, the atmoseal subassembly, refrigeration plant and air feeder, the support bottom is provided with the wheel, the box sets up on the support, and, the both ends of box are provided with the opening respectively, and simultaneously, be provided with the tilting drive belt in the box, and the both ends of tilting conveyer belt extend to two openings parts respectively, and, the atmoseal subassembly sets up in the top and the below of tilting conveyer belt and follows the tilting conveyer belt motion, refrigeration plant and air feeder all set up in the lower part of box, refrigeration plant is provided with the air cooler pipe that stretches out, air feeder is provided with the blast pipe of being connected with the atmoseal subassembly, simultaneously, the blast pipe is arranged side by side with the air cooler pipe and is.

The utility model provides a foretell food processingequipment that keeps fresh, wherein, thick washing subassembly includes the agitator, the filter screen, waste water collector, the agitator rotates to be installed in the agitator, first discharge gate has been seted up to lower part in the agitator and the below that is located the agitator, first discharge gate is the export of thick washing subassembly, and simultaneously, the below slope that just is located the agitator in the agitator is provided with the filter screen, the lower of filter screen flushes with the bottom of first discharge gate, and simultaneously, the waste water recovery mouth has been seted up on the barrel head of agitator, the waste water recovery mouth passes through the pipe connection with waste water collector.

The food fresh-keeping processing device is characterized in that the two openings of the box body are provided with shielding pieces made of transparent rubber, the upper ends of the shielding pieces are fixed on the upper edge of the opening, and the shielding pieces cover the corresponding openings.

Foretell food processingequipment that keeps fresh, wherein, the tilting conveyer belt includes roating seat, conveyer belt and conveying support, and the roating seat sets up in the box, installs the rotating electrical machines on the roating seat, and the conveying support rotates to be installed on the roating seat and is connected with the pivot of rotating electrical machines, and the conveyer belt sets up on the conveying support.

Foretell food fresh-keeping processingequipment, wherein, the atmoseal subassembly includes the support frame, ventilates frame and a plurality of air jet head, and the middle part of support frame is fixed in on the conveying support and is located the both sides of conveyer belt, and the upper end and the lower extreme of support frame extend to the top and the below of conveyer belt respectively, and an air jet frame is all installed to the upper end and the lower extreme of support frame, and all is provided with the air jet head of arranging towards conveyer belt one side on each air jet frame.

The food fresh-keeping processing device comprises two side pipes, two end pipes and a middle pipe, wherein the two side pipes are parallel to the conveyor belt and are arranged at intervals, the two end pipes are respectively arranged at two ends of the two side pipes and are respectively communicated with two ends of the two side pipes, the middle pipe is arranged parallel to the side pipes and is positioned in the middle of the two side pipes, two ends of the middle pipe are respectively communicated with the two end pipes, and at least one of the side pipes, the end pipes and the middle pipe is communicated with the air supply pipe.

The food fresh-keeping processing device is characterized in that a plurality of air nozzles facing the conveyor belt are arranged on one side, close to the middle pipe, of each lateral pipe at uniform intervals, a plurality of air nozzles are arranged on two sides of the middle pipe at uniform intervals and face the conveyor belt, the air nozzles on the lateral pipes and the air nozzles on the middle pipe corresponding to one side are alternately staggered, meanwhile, the air nozzles facing the conveyor belt are respectively arranged on two sides, located on the middle pipe, of each end pipe, the distance between the air nozzles on the end pipes and the middle pipe is smaller than that between the air nozzles and the lateral pipes on the same side, a plurality of air nozzles facing the openings of the corresponding sides are arranged on one side, facing the openings of the end pipes are inclined towards one side of the conveyor belt, the air nozzles on one side of each end pipe are connected to the same controller, and the air nozzles on one side of each end pipe are connected to the same, The plurality of air nozzles on the middle tube and the air nozzles on the end tubes positioned at two sides of the middle tube are connected to the same controller, and in addition, the air nozzles on the two end tubes are respectively connected to different controllers.

The food fresh-keeping processing device comprises a gas storage tank installation cavity, a gas mixing cavity, a plurality of detachable gas storage tanks, a gas supply pipe, a gas mixing cavity, a gas supply pipe, a gas storage tank and a gas storage tank.

The utility model provides a foretell food fresh-keeping processingequipment, wherein, the middle part of box is provided with the baffle, upper portion working chamber and lower part equipment chamber are cut apart into with the box to the baffle, the roating seat sets up on the baffle and is located the upper portion working chamber, refrigeration plant and air feeder set up in lower part equipment intracavity, and, outside the both ends of baffle extended to two opening parts and stretched out the opening respectively, simultaneously, the both ends that the baffle extended to the opening part all were the inclined plane and arrange, and the baffle stretches out the distance outside the opening and the height on the inclined plane on the baffle is the inverse ratio.

In the food fresh-keeping processing device, the cold air pipe is arranged in a U-shaped folding structure, the contact part of the air supply pipe and the cold air pipe is also arranged in a U-shaped folding structure, and a heat exchange sheet is arranged between the contact parts of the cold air pipe and the air supply pipe.

The positive effects of the technical scheme are as follows:

the food fresh-keeping processing device is characterized in that the transportation component is arranged between the sterilization, disinfection and cleaning component and the fine selection component and between the fine selection component and the packaging component, and is used for transporting the sterilized and washed food small blocks to the fine selection component and transporting the qualified food small blocks selected by the fine selection component to the packaging component, so that the transportation in the food processing process is realized, meanwhile, the transportation component is provided with an inclinable conveyor belt, the air seal components which move synchronously are arranged above and below the conveyor belt, and the refrigeration equipment is also arranged, so that the protective gas blown out of the air seal components by the refrigeration equipment is refrigerated in the transportation process, meanwhile, the gas protective layers are formed above and below the conveyor belt by the blown protective gas, the food on the conveyor belt is separated from the outside air, and the food is prevented from being directly exposed to the moisture caused by the outside in the transportation process, The problem that components such as nutrition are lost and easy to deteriorate is solved, food preservation is realized, the shelf life of food is prolonged, the two ends of the tiltable conveyor belt can be adjusted, the direction of the transfer assembly does not need to be controlled in advance, the adaptability is higher, and the operation is more convenient.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of a food refreshing processing apparatus according to the present invention;

FIG. 2 is a block diagram of a transfer module of the present invention;

FIG. 3 is a block diagram of the rough clean assembly of the present invention;

FIG. 4 is a perspective view of the vent frame of the present invention;

FIG. 5 is a block diagram of another perspective of the vent frame of the present invention;

fig. 6 is a structural view of the cold air duct of the present invention.

In the drawings: 1. a coarse selection component; 2. roughly cleaning the component; 21. a stirring barrel; 22. a stirring frame; 23. a filter screen; 24. a wastewater collector; 211. a first discharge port; 212. a wastewater recovery port; 3. cutting off the assembly; 4. sterilizing, disinfecting and cleaning the assembly; 5. fine selection of the components; 6. a packaging assembly; 7. a transfer assembly; 71. a support; 72. a box body; 73. a tiltable conveyor belt; 74. a gas seal assembly; 75. a refrigeration device; 76. a gas supply device; 711. a wheel; 721. an opening; 722. a shielding sheet; 723. a partition plate; 731. a rotating base; 732. a conveyor belt; 733. a delivery carriage; 741. a support frame; 742. a ventilation frame; 743. a gas showerhead; 751. a cold air pipe; 761. an air supply pipe; 7231. a bevel; 7421. a side tube; 7422. an end tube; 7423. an intermediate pipe.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the present invention easy to understand, the following embodiments specifically describe the technical solutions provided by the present invention with reference to fig. 1 to 6, but the following contents are not to be taken as limitations of the present invention.

Fig. 1 is a schematic structural diagram of an embodiment of a food fresh-keeping processing device according to the present invention. As shown in fig. 1, the food fresh-keeping processing device provided by the embodiment includes: the device comprises a rough selecting component 1, a rough cleaning component 2, a cutting component 3, a sterilizing and disinfecting cleaning component 4, a fine selecting component 5, a packaging component 6 and a transferring component 7.

Specifically, the rough selecting assembly 1 is arranged at the foremost end of the processing flow and used for screening qualified food raw materials, and the quality of the food raw materials is guaranteed. At this moment, the rough selection assembly 1 is provided with a conveying belt, and an operator can be positioned on two sides of the conveying belt, so that when food raw materials are placed on the conveying belt and conveyed through the conveying belt, the operator can screen out unqualified food raw materials, and qualified food raw materials are conveyed into a subsequent processing assembly through the conveying belt, and the selection operation of the food raw materials on the characteristics of appearance, size and the like is realized.

Specifically, with the entry of thick subassembly 2 and the exit linkage of selecting subassembly 1 roughly, the qualified food raw materials that the conveyer belt in the subassembly 1 of selecting roughly transported promptly can enter into thick subassembly 2 of cleaning, will be selected roughly the spot on the surface of the qualified food raw materials that subassembly 1 selected through roughly cleaning subassembly 2 and clear up, like clear up the silt etc. on food raw materials surface for food raw materials is more sanitary.

Specifically, the entry that cuts off subassembly 3 and the exit linkage of thick subassembly 2 that washs for food raw materials after being washd by thick subassembly 2 can enter into and cut off subassembly 3, cuts off the food raw materials after wasing thick subassembly 2 through cutting off subassembly 3 and for the food fritter, satisfies food processing's demand, also provides convenience for subsequent packing in addition. At this moment, the cutting assembly 3 is provided with a station table, a cutter and a cutter driver, the cutter is arranged above the station table, and the cutter is installed on the cutter driver, so that after food raw materials are placed on the station table, the cutter can be driven to move through the cutter driver, and the food raw materials on the station table are cut off into small food blocks through the cutter.

Concretely, the entry of disinfection and cleaning subassembly 4 and the exit linkage that cuts off subassembly 3 disinfect, make the food fritter that obtains by cutting off 3 processing of subassembly enter into disinfection and cleaning subassembly 4 that disinfects, wash subassembly 4 through disinfecting and cleaning and carry out surface sterilization and disinfection to the food fritter, wash the cell liquid of flowing out because of cutting off, and simultaneously, the realization is to the cleaing away of food fritter surface microorganism, the rotten problem of having prevented to lead to because of the microorganism, guarantee the fresh degree of food, the shelf life of extension food. In addition, the small food blocks subjected to sterilization and disinfection treatment are washed by the sterilization and disinfection cleaning assembly 4 through sterile water, residues possibly existing due to sterilization and disinfection are washed away, and the safety of food is guaranteed. It is worth pointing out that the subassembly 4 is washd in disinfection of disinfecting is provided with a conveyer belt equally, be provided with a plurality of shower nozzles around the conveyer belt, it is when the conveyer belt transports to make the food fritter be through this, constantly spray the disinfection solution of disinfecting to the food fritter on the conveyer belt through the shower nozzle, at this moment, the disinfection solution of disinfecting can be sodium hypochlorite, hydrogen peroxide mixed solution, then spray sterile water to the sterilized food fritter, accomplish disinfection and cleaning operation of disinfecting, guarantee the fresh degree of food processing, the shelf life of extension food.

Specifically, subassembly 5 independent setting is selected to the essence, selects subassembly 5 through the essence and will select through the qualified food fritter in the food fritter after disinfecting and washing, has avoided the food fritter of damage to sneak into in the qualified product and lead to the problem of product poor quality in the course of working, and structural design is more reasonable. Equally, assembly 5 is selected to the essence can set up the transmission band and remove the tongs, and the food fritter after will disinfecting and washing is spread out the back on the transmission band, through remove the tongs with unqualified food fritter choose can, operating personnel only need control remove the tongs remove can, simple structure, convenient operation.

Specifically, package assembly 6 is the same independent setting, will pass through package assembly 6 and select qualified food fritter after the screening of subassembly 5 to pack through the essence, and at this moment, the packing can be gone on by vacuum packaging's mode, is provided with the evacuation machine, places food in the wrapping bag after through the gas in the evacuation machine extraction wrapping bag, realizes vacuum packaging, further realizes food fresh-keeping effect, the shelf life of extension food.

Fig. 2 is a block diagram of a transfer module 7 of the present invention. As shown in fig. 1 and 2, the transferring component 7 is arranged between the sterilizing, disinfecting and cleaning component 4 and the fine selecting component 5, and the small food blocks after sterilizing, disinfecting and washing are transferred to the fine selecting component 5 through the transferring component 7, so that the small food blocks are transferred. Equally, select to be provided with between subassembly 5 and the package assembly 6 and transport subassembly 7, through transporting subassembly 7 with the qualified food fritter that subassembly 5 was selected out of selecting to transport to package assembly 6, realized the transportation to the food fritter equally, for follow-up transportation in-process can realize food fresh-keeping equally and provide the condition, structural design is more reasonable.

More specifically, the transfer module 7 comprises a frame 71, a box 72, a tiltable conveyor 73, a gas seal module 74, a refrigeration device 75 and a gas supply device 76. At this time, the bracket 71 has a certain height, and wheels 711 are provided at the bottom of the bracket 71, and the movement of the bracket 71 is realized by the wheels 711. Meanwhile, the box body 72 is arranged on the support 71, so that the box body 72 can move through the support 71, the support 71 can serve as a supporting structure of the box body 72, the box body 72 is installed, and conditions are provided for butt joint of the following realization and sterilization and disinfection cleaning component 4, the fine selection component 5 and the packaging component 6. Also, both ends of the case 72 are respectively provided with openings 721 so that the small pieces of food can enter and exit the case 72 through the openings 721. Meanwhile, a tiltable belt is arranged in the box 72, and two ends of the tiltable belt 73 respectively extend to the two openings 721, so that the small food blocks entering and exiting the box 72 can move in the box 72 through the tiltable belt 73, and the conveying direction of the tiltable belt 73 can be controlled through the change of the tilting direction of the tiltable belt 73, so that an operator does not need to determine the operation direction of the transfer assembly 7 in advance, each opening 721 at two ends of the box 72 can be used as an outlet and an inlet, and the operation is more convenient. Moreover, the air seal assembly 74 is arranged above and below the tiltable conveyor belt 73, so that the air seal assembly 74 can form an air protection layer above and below the tiltable conveyor belt 73, and the food small blocks on the tiltable conveyor belt 73 are wrapped by the air protection layer, so that the food small blocks are separated from the air, the problem that the food small blocks are exposed in the air to accelerate the loss and easy deterioration of components such as moisture and nutrition is solved, the food is kept fresh, and the shelf life of the food is prolonged. Moreover, the air seal assembly 74 can move along with the tiltable conveyor belt 73, namely, the air seal assembly 74 can be always positioned above and below the tiltable conveyor belt and keeps synchronous movement with the tiltable conveyor belt 73, the problem that small food blocks cannot be protected by a gas protection layer due to the fact that the tiltable conveyor belt 73 needs to tilt is avoided, and the protection reliability is better. In addition, the refrigerating device 75 and the air supply device 76 are both disposed at the lower portion of the cabinet 72, and at the same time, the refrigerating device 75 is provided with the cold air pipe 751 extended therefrom, and the air supply device 76 is provided with the air supply pipe 761 connected to the air sealing assembly 74, so that the shielding gas can be supplied to the air sealing assembly 74 through the air supply pipe 761, providing conditions for achieving the freshness preservation of the food. Meanwhile, the air supply pipe 761 is arranged in parallel with the cold air pipe 751 and is in contact with the cold air pipe 751 before being connected to the air seal assembly 74, so that heat exchange can be performed between the air supply pipe 761 and the cold air pipe 751, the shielding gas sent out by the air supply pipe 761 is low-temperature shielding gas, the temperature around small food pieces is reduced, the freshness of the food is further ensured, the problems that the cold air generated by low-temperature equipment directly contacts the small food pieces and the cold air generated by the low-temperature equipment is blown away by the shielding gas blown out by the air seal assembly 74 are also avoided, and the design is more reasonable.

FIG. 3 is a block diagram of the rough clean module of the present invention. As shown in fig. 1 and 3, rough cleaning assembly 2 includes agitator 21 again, agitator 22, filter screen 23, waste water collector 24, at this moment, agitator 22 rotates and installs in agitator 21 for agitator 22 can be at the internal rotation of agitator 21, and, the bung hole of agitator 21 is the import, roughly select qualified food raw materials that subassembly 1 was selected out to enter into agitator 21 through the bung hole of agitator 21, and realize the stirring to food raw materials through the rotation of agitator 22, realize the clearance to silt etc. on the food raw materials surface. Meanwhile, a first discharge port 211 is formed in the lower portion of the stirring barrel 21 and below the stirring frame 22, and the first discharge port 211 is an outlet of the rough cleaning assembly 2, so that the food raw materials after being stirred and cleaned can be moved out of the first discharge port 211. Meanwhile, the filter screen 23 is obliquely arranged in the mixing tank 21 and below the mixing frame 22, and the lowest position of the filter screen 23 is set to be flush with the bottom of the first discharge hole 211, so that the cleaned food raw materials can be blocked by the filter screen 23 and can be moved out of the first discharge hole 211 along the oblique direction of the filter screen 23. Meanwhile, a wastewater recovery port 212 is formed in the bottom of the stirring barrel 21, and the wastewater recovery port 212 is connected with the wastewater collector 24 through a pipeline, so that the wastewater for cleaning can pass through the filter screen 23 and then enter the wastewater collector 24 from the wastewater recovery port 212, the wastewater recycling is realized, and the structural design is more reasonable.

More specifically, the two openings 721 of the box 72 are both provided with the shielding sheets 722, and at this time, the shielding sheets 722 are made of transparent rubber, so that the operator can observe the conditions inside the box 72 conveniently, and the shielding sheets 722 have certain elasticity. Moreover, the upper end of the shielding sheet 722 is fixed on the upper edge of the opening 721, so that the shielding sheet 722 is installed at the opening 721 of the box body 72, and meanwhile, the shielding sheet 722 covers the corresponding opening 721, so that when a small food block enters or exits the box body 72, the shielding sheet 722 can open the corresponding opening 721, and when the small food block does not need to enter or exit the box body 72, the shielding sheet 722 can close the corresponding opening 721, thereby avoiding the problem of waste caused by excessive leakage of protective gas, and the structural design is more reasonable.

More specifically, the tiltable conveyor belt 73 arranged in the box 72 further includes a rotating seat 731, a conveyor belt 732, and a conveying support 733, the rotating seat 731 is arranged in the box 72, a rotating motor is installed on the rotating seat 731, and the conveying support 733 is rotatably installed on the rotating seat 731, so that the conveying support 733 can rotate on the rotating seat 731, and the conveying support 733 is further connected to a rotating shaft of the rotating motor, so that the rotating motor can drive the conveying support 733 to rotate, thereby providing a condition for the subsequent tilting of the conveying support 733, and controlling the tilting direction of the conveying support 733 by controlling the rotating direction of the rotating motor, so as to improve the adaptability of the transfer assembly 7. The conveyor belt 732 is provided on the conveyor holder 733, and the conveyor belt 732 is attached to the conveyor holder 733, so that the conveyor holder 733 serves as a base for attaching the conveyor belt 732, and the conveyor belt 732 is tilted in the box 72.

More specifically, the air sealing assembly 74 further includes a supporting frame 741, a ventilating frame 742 and a plurality of air nozzles 743, in this case, the middle portion of the supporting frame 741 is fixed on the conveying frame 733 and is located at two sides of the conveyor belt 732, so that the air sealing assembly 74 can be installed at two sides of the conveyor belt 732 through the supporting frame 741, and thus can tilt along with the conveyor belt 732. Moreover, the upper end and the lower end of the support frame 741 respectively extend to the upper side and the lower side of the conveyor belt 732, and an air frame 742 is respectively installed at the upper end and the lower end of the support frame 741, that is, the air frames 742 which are respectively located above and below the conveyor belt 732 are installed at the two ends extending out of the support frame 741, which provides conditions for generating air protection layers above and below the conveyor belt 732. Further, each of the gas frames 742 is provided with a gas nozzle 743 disposed toward the conveyor 732, and the gas protective layer is formed by blowing a protective gas through the gas nozzle 743.

FIG. 4 is a perspective view of the vent frame of the present invention; FIG. 5 is a block diagram of another perspective of the vent frame of the present invention. As shown in fig. 2, 4 and 5, each of the air frames 742 is provided in a frame structure in a shape of "japanese" and each of the air frames 742 includes two side tubes 7421, two end tubes 7422 and a middle tube 7423, the two side tubes 7421 are parallel to the conveyor belt 732 and spaced from each other, so that the side tubes 7421 can completely cover the length direction of the conveyor belt 732, and the two end tubes 7422 are respectively provided at two ends of the two side tubes 7421 and respectively communicate with the two ends of the two side tubes 7422, thereby connecting the side ends and the end tubes 7422. The middle tube 7423 is disposed parallel to the side tubes 7421 and between the two side tubes 7421, and both ends of the middle tube 7423 are respectively communicated with the two end tubes 7422, so that the middle tube 7423 can be installed, and at least one of the side tubes 7421, the end tubes 7422 and the middle tube 7423 is communicated with the air supply tube 761, so that the side tubes 7421, the end tubes 7422 and the middle tube 7423 can be supplied with the protective gas.

More specifically, a plurality of air nozzles 743 facing the conveyor belt 732 are uniformly arranged on one side of each side tube 7421 close to the middle tube 7423 at intervals, and meanwhile, a plurality of air nozzles 743 which are uniformly arranged at intervals and face the conveyor belt are arranged on both sides of the middle tube 7423, so that the air nozzles 743 on the middle tube 7423 and the side tubes 7421 can completely cover the conveyor belt 732, and the protection of the small food blocks on the conveyor belt 732 is realized. Moreover, the gas nozzles 743 on the side tubes 7421 and the gas nozzles 743 on the corresponding side of the middle tube 7423 are arranged in a staggered manner, so that the problem of less protective gas between two adjacent gas nozzles 743 is avoided, and the structural design is more reasonable. Meanwhile, the gas nozzles 743 facing the conveyor belts 732 are respectively arranged on the end pipes 7422 and on both sides of the middle pipe 7423, and the distance between the gas nozzles 743 on the end pipes 7422 and the middle pipe 7423 is smaller than that between the gas nozzles 743 and the side pipes 7421 on the same side, so that the problem of less protective gas in the crossing area of the end pipes 7422 and the middle pipe 7423 can be solved, and the full coverage of the protective gas is realized. Moreover, the side of the end portion tube 7422 facing away from each other is provided with a plurality of air nozzles 743 facing the opening 721 of the corresponding side, and meanwhile, the plurality of air nozzles 743 facing the opening 721 are also inclined towards the side of the conveyor belt 732, so that when the small food blocks on the conveyor belt 732 are sent out from the opening 721, the protection of the gas sprayed by the air nozzles 743 facing the opening 721 can be realized, and the food preservation in the processing process is further realized. Moreover, the plurality of air jets 743 on the end tube 7422 and toward the opening 721 are connected to the same controller, i.e., only when the food pieces are required to be fed into or out of the opening 721, so as to keep the food pieces fresh when the food pieces are fed into or out of the box 72. Meanwhile, the plurality of air nozzles 743 on the side pipe 7421 and the middle pipe 7423 and the air nozzles 743 on the end pipe 7422 and positioned on two sides of the middle pipe 7423 are connected to the same controller, so that the protection of small food blocks positioned on the conveyor belt 732 is realized, in addition, the air nozzles 743 on the two end pipes 7422 on the same ventilation frame 742 are respectively connected to different controllers, namely, the independent control of the air nozzles 743 corresponding to the two openings 721 is realized, the adaptability is better, and the structural design is more reasonable. It should be noted that each of the nozzles 743 is individually provided with a valve, and the valves corresponding to the nozzles 743 controlled by the same controller are controlled by the controller in a unified manner, so that the interior of the end tube 7422, the side tube 7421 and the middle tube 7423 in the same frame 742 can be communicated, and thus, only one air feeding tube 761 needs to be connected to one frame 742, which is more convenient for connection.

More specifically, air feeder 76 has gas holder installation cavity and mixes the gas chamber, and simultaneously, be provided with a plurality of gas holders of dismantling in the gas holder installation cavity, each can dismantle the gas holder all with mix the gas chamber intercommunication, make the protective gas who dismantles the storage in the gas holder can enter into and mix in the gas chamber, and form the protective gas that processing needs in mixing the gas chamber, and, be connected with air supply pipe 761 on mixing the gas chamber, make and carry to ventilating frame 742 in can will mixing the gas intracavity protective gas through air supply pipe 761, provide protective gas for jet-propelled head 743. Meanwhile, the plurality of gas storage tanks at least comprise a nitrogen gas storage tank and a carbon dioxide gas storage tank, namely, the components of the protective gas at least comprise nitrogen and carbon dioxide, so that the respiration of food is inhibited, and the food is kept fresh.

More specifically, a partition 723 is disposed in the middle of the box 72, and at this time, the box 72 is divided into an upper working chamber and a lower equipment chamber by the partition 723, so that the internal space of the box 72 is partitioned. Meanwhile, the rotating seat 731 is arranged on the partition 723 and located in the upper working chamber, so that the conveyor belt 732 and the air sealing assembly 74 are located in the upper working chamber, and the refrigeration equipment 75 and the air supply equipment 76 are arranged in the lower equipment chamber, thereby realizing the isolation of structural components such as the refrigeration equipment 75 and the air supply equipment 76 from the upper working chamber, and avoiding the problems that the conveyor belt 732 is inclined and small food pieces are protected due to the structural components such as the refrigeration equipment 75 and the air supply equipment 76. Moreover, two ends of the partition 723 extend to the two openings 721 and extend out of the openings 721 respectively, meanwhile, two ends of the partition 723 extending to the openings 721 are arranged in an inclined plane 7231, and the distance that the partition 723 extends out of the openings 721 is inversely proportional to the height of the inclined plane 7231 on the partition 723, that is, the farther the end of the partition 723 extending out from the openings 721 is, the lower the height of the inclined plane 7231 is, so that after the conveyor belt 732 inclines, small food blocks on the conveyor belt 732 can fall onto the inclined plane 7231 and slide onto the packaging assembly 6 through the inclined plane 7231, the collecting and guiding effects are achieved, and the structural design is more reasonable.

Fig. 6 is a structural view of the cold air duct of the present invention. As shown in fig. 1 and 6, the cold air pipe 751 extending from the refrigerating apparatus 75 is arranged in a "U" folded structure, so that the length of the cold air pipe 751 is increased in a limited space, and the space utilization is more reasonable, and at the same time, the contact part between the air supply pipe 761 and the cold air pipe 751 is also arranged in a "U" folded structure, so that the contact part between the air supply pipe 761 and the cold air pipe 751 is increased in length, and a heat exchange effect is ensured. Moreover, the heat exchange fins are arranged between the contact parts of the cold air pipe 751 and the air feeding pipe 761, so that the heat exchange area between the cold air pipe 751 and the air feeding pipe 761 is further increased through the heat exchange fins, the heat exchange effect is further improved, the temperature of the protective gas conveyed to the air seal assembly 74 by the air feeding pipe 761 is lower, the energy utilization rate is higher, and the structural design is more reasonable.

The food fresh-keeping processing device provided by the embodiment comprises a rough selecting component 1, a rough cleaning component 2, a cutting component 3, a sterilizing and disinfecting cleaning component 4, a fine selecting component 5, a packaging component 6 and a transferring component 7; through setting up transporting subassembly 7 and selecting between subassembly 5 and the smart subassembly 5 of selecting between subassembly 5 and the package assembly 6 of disinfecting through transporting tiltable conveyor belt 73 and atmoseal subassembly 74 in the subassembly 7, form gaseous protective layer in tiltable conveyor belt 73's top and below, the isolation with food fritter and air has been realized, make can realize gaseous protection through transporting subassembly 7 when transporting the food fritter after disinfecting and washing, avoided the food fritter to expose in the air and lead to moisture, composition loss such as nutrition, the problem of easy deterioration, food fresh-keeping has been realized, food shelf life has been prolonged, in addition, can change direction of delivery through the tiltable conveyor belt, make the operator need not to confirm in advance the direction of transporting subassembly 7, adaptability is better, it is more convenient to operate.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A food fresh-keeping processing device is characterized by comprising:

the rough selection component is used for screening qualified food raw materials;

the inlet of the rough cleaning component is connected with the outlet of the rough selecting component and is used for cleaning the stains on the surfaces of the food raw materials screened by the rough selecting component;

the inlet of the cutting component is connected with the outlet of the rough cleaning component and is used for cutting the food raw materials cleaned by the rough cleaning component into small food blocks;

the inlet of the sterilizing and disinfecting cleaning assembly is connected with the outlet of the cutting assembly and is used for performing surface sterilizing and disinfecting treatment on the small food blocks and flushing residues of the sterilized and disinfected small food blocks;

the fine selection assembly is used for selecting qualified food small blocks from the sterilized and washed food small blocks;

the packaging component is used for packaging the qualified food small blocks selected by the fine selection component;

a transferring component arranged between the sterilizing and cleaning component and the fine selecting component and used for transferring the food small blocks after sterilizing and washing to the fine selecting component and arranged between the fine selecting component and the packaging component and used for transferring the qualified food small blocks selected by the fine selecting component to the packaging component, wherein,

the transfer component comprises a support, a box body, a tiltable conveyor belt, a gas seal component, refrigeration equipment and gas supply equipment, wheels are arranged at the bottom of the support, the box body is arranged on the support, and two ends of the box body are respectively provided with an opening, meanwhile, the box body is internally provided with the inclinable transmission belt, and two ends of the inclinable transmission belt respectively extend to the two openings, and the air seal assemblies are arranged above and below the tiltable conveyor belt and move along with the tiltable conveyor belt, the refrigeration equipment and the gas supply equipment are both arranged at the lower part of the box body, the refrigeration equipment is provided with a stretched cold air pipe, the gas supply equipment is provided with a gas supply pipe connected with the gas seal component, meanwhile, the air supply pipe is arranged in parallel with the cold air pipe and contacts with each other before being connected to the air seal assembly.

2. The food fresh-keeping processing device according to claim 1, wherein the rough cleaning component comprises a stirring barrel, a stirring frame, a filter screen and a waste water collector, the stirring frame is rotatably installed in the stirring barrel, a first discharge port is formed in the lower portion of the stirring barrel and below the stirring frame, the first discharge port is an outlet of the rough cleaning component, the filter screen is obliquely arranged below the stirring frame in the stirring barrel, the lowest portion of the filter screen is flush with the bottom of the first discharge port, a waste water recovery port is formed in the bottom of the stirring barrel, and the waste water recovery port is connected with the waste water collector through a pipeline.

3. The food fresh-keeping processing device according to claim 1, wherein two openings of the box body are respectively provided with a shielding piece, the shielding pieces are made of transparent rubber, the upper ends of the shielding pieces are fixed on the upper edges of the openings, and the shielding pieces cover the corresponding openings.

4. The food fresh-keeping processing device as claimed in claim 1, wherein the tiltable conveyor belt comprises a rotary seat, a conveyor belt and a conveying support, the rotary seat is arranged in the box body, a rotary motor is mounted on the rotary seat, the conveying support is rotatably mounted on the rotary seat and connected with a rotating shaft of the rotary motor, and the conveyor belt is arranged on the conveying support.

5. The food fresh-keeping processing device according to claim 4, characterized in that the air seal assembly comprises a support frame, an air vent frame and a plurality of air nozzles, the middle part of the support frame is fixed on the conveying support and positioned at two sides of the conveying belt, the upper end and the lower end of the support frame respectively extend to the upper part and the lower part of the conveying belt, the air vent frame is respectively installed at the upper end and the lower end of the support frame, and each air vent frame is provided with the air nozzles arranged towards one side of the conveying belt.

6. The device for refreshing and processing food according to claim 5, wherein the ventilating frame is disposed in a shape of a Chinese character 'ri', and comprises two side pipes, two end pipes and a middle pipe, the two side pipes are parallel to the conveyor belt and spaced apart from each other, the two end pipes are respectively disposed at two ends of the two side pipes and respectively communicated with two ends of the two side ends, the middle pipe is disposed parallel to and between the two side pipes, two ends of the middle pipe are respectively communicated with the two end pipes, and at least one of the side pipes, the end pipes and the middle pipe is communicated with the air feeding pipe.

7. The freshness processing apparatus according to claim 6, wherein each of the side tubes is provided with a plurality of the air nozzles facing the conveyor belt at regular intervals on one side thereof close to the middle tube, the air nozzles facing the conveyor belt at regular intervals on both sides of the middle tube, and the air nozzles on the side tubes are alternately staggered with the air nozzles on the corresponding side of the middle tube, and the air nozzles on the end tubes are provided with the air nozzles facing the conveyor belt on both sides thereof, respectively, and the air nozzles on the end tubes are spaced from the middle tube by a distance smaller than that of the side tubes on the same side, and the air nozzles on the end tubes are provided with the plurality of the air nozzles facing the openings on the corresponding side on the side thereof away from each other, and, the orientation the open-ended a plurality of the jet head still moves towards conveyer belt one side slope, and, one on the tip pipe and move towards opening one side a plurality of the jet head is connected on same controller, and the lateral part pipe a plurality of on the middle pipe the jet head and lie in on the tip pipe the jet head both sides in the middle of the pipe is connected on same controller, in addition, two on the tip pipe the jet head is connected respectively in the difference on the controller.

8. The food fresh-keeping processing device as claimed in claim 1, wherein the gas supply device has a gas tank installation cavity and a gas mixing cavity, a plurality of detachable gas tanks are arranged in the gas tank installation cavity, each detachable gas tank is communicated with the gas mixing cavity, the gas mixing cavity is connected with the gas supply pipe, and at least one of the plurality of gas tanks comprises a nitrogen gas tank and a carbon dioxide gas tank.

9. The food fresh-keeping processing device according to claim 1, wherein a partition is disposed in the middle of the box, the partition divides the box into an upper working chamber and a lower equipment chamber, the rotary seat is disposed on the partition and located in the upper working chamber, the refrigeration equipment and the air supply equipment are disposed in the lower equipment chamber, and two ends of the partition respectively extend to the two openings and extend out of the openings, and meanwhile, two ends of the partition extending to the openings are both arranged in an inclined plane, and the distance of the partition extending out of the openings is inversely proportional to the height of the inclined plane on the partition.

10. The food fresh-keeping processing device as claimed in claim 1, wherein the cold air pipe is arranged in a "U" folded structure, the portion of the air supply pipe contacting with the cold air pipe is also arranged in a "U" folded structure, and a heat exchange fin is arranged between the portions of the cold air pipe and the air supply pipe contacting with each other.

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