CN114476574B - Conveying device capable of circularly cooling and preventing dissolution for production of quick-frozen food and method thereof - Google Patents

Abstract

The invention discloses a circulating cooling anti-dissolution conveying device and a method for producing quick-frozen food, belongs to the technical field of energy conservation and environmental protection, and aims to solve the problems that when a conveying device on the existing market is used for conveying quick-frozen food, the phenomenon that the food is melted in the conveying process is avoided, cooling work can be performed when the quick-frozen food is conveyed, but the cooling resource is difficult to recycle, and the environmental protection is poor.

Description

Conveying device capable of circularly cooling and preventing dissolution for production of quick-frozen food and method thereof

Technical Field

The invention relates to the technical field of energy conservation and environmental protection, in particular to a circulating cooling anti-dissolution conveying device and a method thereof for producing quick-frozen foods.

Background

The quick-frozen food is processed at low temperature, water and juice in food tissues can not be lost, and microorganisms can not be basically propagated at the low temperature, so that the safety of the food is ensured. The quick-frozen food needs to be transported in batch production in the production process, so that the effects of transporting and transferring the quick-frozen food and carrying out subsequent processing are achieved.

Conveyor on the existing market is when carrying out the process of transporting quick-frozen food, in order to avoid food can appear the phenomenon of melting in the in-process of transportation and take place, can carry out cooling work when quick-frozen food is carried, but nevertheless be difficult to cooling resource reuse, the feature of environmental protection is relatively poor, and quick-frozen food is carrying out the in-process of transporting, because there is the difference in temperature between conveyer belt and the quick-frozen food, the phenomenon that can appear bonding between quick-frozen food and the conveyer belt takes place, lead to can the adhesion residual on the conveyer belt, influence follow-up transport.

To solve the above problems. Therefore, a circulating cooling anti-dissolution conveying device and a method thereof for producing quick-frozen foods are provided.

Disclosure of Invention

The invention aims to provide a conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods and a method thereof, which solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the conveying device comprises a conveying frame and a conveying main body which is connected to the inner wall of the conveying frame in a sliding mode, wherein a material placing groove is formed in a conveying belt of the conveying main body, a circulating cooling assembly is arranged in an inner cavity of the conveying main body and comprises a mounting frame mounted in the inner cavity of the conveying main body, the inner wall of the mounting frame is connected with the cooling frame in a sliding mode, a through hole is formed in a bottom plate of the cooling frame, one end of the through hole is connected with a hose, one end, far away from the through hole, of the hose is connected with a water pump, and one end, far away from the hose, of the water pump is connected with a cooling box assembly;

the cooling box subassembly includes the box, and the upper end of box is provided with the refrigeration main part, and the inner chamber sliding connection of refrigeration main part has freezing frame, and the baffle is installed to the inner chamber of freezing frame, and the lower extreme of refrigeration main part is provided with and is connected the adapter with the water pump, and the lower extreme intercommunication of adapter has the runner pipe.

Further, the detection terminal is installed to the opening of carriage outer wall, and the outer wall at detection terminal is provided with the guard plate, and the absorption magnetic path is installed to the upper end of guard plate, and the upper end of absorption magnetic path is provided with assists and tears the mechanism open.

Further, the detection terminal comprises an infrared sensing module, an infrared sensing module electrically connected with a height analysis module, a height judgment module electrically connected with the single chip microcomputer, a single chip microcomputer electrically connected with a signal receiving and transmitting module, and a signal receiving and transmitting module electrically connected with the motor.

Further, the lower extreme of carrying the main part is provided with adjusts clearance subassembly, adjust clearance subassembly include and be connected the action wheel with the motor output, one side of action wheel is provided with the drive wheel, the action wheel is provided with the drive belt with the outer wall of drive wheel, the action wheel passes through the drive belt transmission with the drive wheel and is connected, the one end of action wheel is provided with first elevating system, the one end of drive wheel is provided with second elevating system, first elevating system is provided with clearance mechanism with the one end of second elevating system, first elevating system is the same with the component structure of second elevating system, and first elevating system and the central symmetric distribution of second elevating system about carrying the main part.

Further, first elevating system is including setting up the first screw rod in action wheel one end, action wheel one end fixedly connected with king-rod is kept away from to first screw rod, the one end fixedly connected with second screw rod of first screw rod is kept away from to the king-rod, the outer wall threaded connection of first screw rod has first ejector pad, the outer wall threaded connection of second screw rod has the second ejector pad, the last hub connection of first ejector pad has first connecting rod, the last hub connection of second ejector pad has the second connecting rod, the last hub connection of first connecting rod and second connecting rod has well joint block, the upper end of well joint block install with carry main part fixed connection's installation piece.

Furthermore, the thread structures of the first screw and the second screw are opposite, the first screw and the second screw are symmetrically distributed about the center of the middle rod, and the first push block and the second push block are symmetrically distributed about the center of the middle rod.

Further, assist and tear mechanism open and include swing joint at the pressing part of carrying the main part outer wall to and set up the activity chamber at carrying the main part outer wall, pressing part sliding connection is at the inner wall in activity chamber, and the piece is torn open to the one end fixedly connected with of pressing part is assisted, and the both sides of assisting and tearing open the piece all are provided with reset spring.

Further, clearance mechanism is including installing first installed part and the second installed part in carrying main part inner wall both sides respectively, the first installation down tube of inner wall fixedly connected with of first installed part, the inner wall fixedly connected with second installation down tube of second installed part, and the chamber is accomodate in first installation down tube and the one end of second installation down tube, and the inner chamber swing joint who accomodates the chamber has the clearance brush, the lower extreme fixedly connected with elasticity original paper of clearance brush.

Furthermore, the elasticity original paper setting is in the inner chamber of accomodating the chamber, and the lower extreme of accomodating the chamber is provided with the collecting box, and the lower extreme in putting the thing groove is being put in the clearance brush overlap joint, and the collecting box is corresponding with the position of clearance brush.

The invention provides another technical scheme that: the use method of the conveying device capable of circularly cooling and preventing dissolution for producing the quick-frozen food comprises the following steps:

s1: before a worker works, the pressing piece is pressed down, the adsorbing magnetic block is inserted by utilizing the auxiliary detaching block made of the superconductor material, the magnetic property is isolated by the characteristic of the superconductor material, and the protection plate falls under the influence of the gravity of the protection plate, so that the detection terminal is exposed;

s2: the infrared sensing module is used for sensing the working personnel, the height of the working personnel is analyzed through the height analysis module, the height of the working personnel and the height suitable for working are judged through the height judgment module, the single chip microcomputer is used for triggering the signal receiving and sending module, the signal is sent out through the signal receiving and sending module to start the motor, the output end of the motor drives the driving wheel to rotate, the driving wheel is driven to rotate simultaneously through the driving belt, the first screw rod and the second screw rod rotate simultaneously at the moment, the first push block and the second push block move on the outer walls of the first screw rod and the second screw rod respectively and are close to or far away from each other, the first connecting rod and the second connecting rod are driven to push up or pull down the middle connecting block, the main body is conveyed through the mounting block, and the height of the conveying main body is adjusted according to the height of the working personnel;

s3: when the quick-frozen food is conveyed, firstly, the quick-frozen food is placed in the storage groove, ice blocks are placed in the cooling rack, the temperature of the ice blocks can be transferred to the quick-frozen food through the metal grids, the phenomenon that the quick-frozen food is melted in the transportation process can be avoided, the ice blocks can be melted into water after the ice blocks transfer the temperature for a long time, at the moment, the water pump is started, the water can flow into the hose through the through hole, enters the adapter through hose, then uniformly flows into the freezing rack through the through pipe, and the water is re-frozen into the ice blocks by the refrigeration main body, so that the ice blocks are reused, and the purpose of resource recycling is realized;

s4: at the normal operating condition of transport main part, put the thing groove and can constantly rub with the clearance brush, will adhere under the residue brush of putting the thing groove, fall into the collection box of corresponding at clearance brush lower extreme.

Compared with the prior art, the invention has the beneficial effects that:

1. the conveying device and the method have the advantages that when the conveying device is used for conveying, firstly, quick-frozen food is placed into the storage groove, ice cubes are placed into the cooling frame, the temperature of the ice cubes can be transmitted to the quick-frozen food through the metal grids, the phenomenon that the quick-frozen food is melted in the conveying process can be avoided, the ice cubes can be melted into water after the ice cubes are subjected to long-time transmission temperature, the water pump is started at the moment, the water can flow into the hose through the through hole, the water enters the adapter through the hose and then uniformly flows into the freezing frame through the through pipe, the water is formed into the ice cubes again through the refrigerating main body, the ice cubes are reused, the purpose of resource recycling is achieved, resources are saved, and the problems that when the conveying device on the existing market is used for conveying the quick-frozen food, the phenomenon that the food is melted in the conveying process can be avoided, the cooling work can be carried out when the quick-frozen food is conveyed, however, the cooling resources are difficult to be reused, and the environmental friendliness is poor are solved.

2. The conveying device and the method have the advantages that before workers work, a protection plate is firstly opened, a detection terminal is exposed, an infrared sensing module is used for sensing the workers, the heights of the workers are analyzed through a height analysis module, the heights of the workers and the heights suitable for working are judged through a height judgment module, a single chip microcomputer trigger signal receiving and sending module is used for sending a signal to start a motor through the signal receiving and sending module, the output end of the motor drives a driving wheel to rotate, the driving wheel is driven to rotate simultaneously through a driving belt, at the moment, a first screw rod and a second screw rod rotate simultaneously, a first push block and a second push block respectively move on the outer walls of the first screw rod and the second screw rod and are close to or far away from each other, the first connecting rod and a second connecting rod pushing-up or pulling-down middle connecting block are driven, the main body is conveyed through a mounting block pushing-up or pulling-down, the height of the conveying main body is adjusted according to the heights of the workers, the optimal height is adjusted, and the working comfort level of the workers is guaranteed.

3. Conveying device and method that can circulative cooling prevents dissolving for quick-frozen food production, at the normal operating condition of carrying the main part, put the thing groove and constantly rub with the cleaning brush, will adhere under the residual brush of putting the thing groove, fall into and correspond in the collecting box of cleaning brush lower extreme, and when carrying the main part height and move up, the cleaning brush can overlap joint all the time and put the lower extreme of thing groove under the effort of the elasticity original paper of storage chamber, when carrying the main part height and move down, the cleaning brush also can hug closely more and put the thing groove under the effort of elasticity original paper, make its cleaning efficiency higher, solve quick-frozen food and be carrying out the in-process of transporting, because there is the difference in temperature between conveyer belt and the quick-frozen food, the phenomenon that can appear bonding between quick-frozen food and the conveyer belt takes place, lead to the adhesion residual on the conveyer belt, influence the problem of follow-up transport.

Drawings

FIG. 1 is a schematic overall structure diagram of a conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 2 is a schematic structural diagram of a circulating cooling assembly of the conveying device capable of circulating cooling and preventing dissolution for producing quick-frozen foods;

FIG. 3 is a schematic view of the cooling box assembly of the circulating cooling and anti-dissolution conveying device for quick-frozen food production according to the present invention;

FIG. 4 is a schematic diagram of the internal structure of the box body of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 5 is a schematic structural diagram of a protection plate and a detection terminal of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 6 is a schematic diagram of the internal structure of a detection terminal of the transportation device capable of cooling circularly and preventing dissolution for producing quick-frozen food;

FIG. 7 is a schematic view of an installation structure of a regulating and cleaning assembly and a conveying main body of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 8 is a schematic structural diagram of a regulating and cleaning assembly of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 9 is a schematic structural diagram of a driving wheel, a driving wheel and a driving belt of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods;

FIG. 10 is a schematic structural diagram of a first lifting mechanism of the conveying device capable of circularly cooling and preventing dissolution for producing quick-frozen foods according to the invention;

FIG. 11 is a schematic structural view of a cleaning mechanism auxiliary detaching mechanism of the circulating cooling anti-dissolution conveying device for producing quick-frozen foods according to the present invention;

FIG. 12 is a schematic structural view of a conveying device capable of cooling circularly and preventing dissolution for producing quick-frozen foods.

In the figure: 1. a carriage; 2. a conveying body; 3. a storage groove; 4. a circulating cooling assembly; 41. a mounting frame; 42. a cooling rack; 43. a through-flow aperture; 44. a hose; 45. a water pump; 46. a cooling tank assembly; 461. a box body; 462. a refrigeration body; 463. a freezing rack; 464. a partition plate; 465. an adapter; 466. a flow-through tube; 5. detecting a terminal; 51. an infrared sensing module; 52. a height analysis module; 53. a height judging module; 54. a single chip microcomputer; 55. a signal transceiving module; 56. an electric motor; 6. a protection plate; 7. an adsorption magnetic block; 8. a disassembly assisting mechanism; 81. a pressing member; 82. a movable cavity; 83. auxiliary disassembling blocks; 84. a return spring; 9. adjusting the cleaning assembly; 91. a driving wheel; 92. a driving wheel; 93. a transmission belt; 94. a first lifting mechanism; 941. a first screw; 91. a driving wheel; 942. a middle rod; 943. a second screw; 944. a first push block; 945. a second push block; 946. a first link; 947. a second link; 948. a middle connection block; 949. mounting blocks; 95. a second lifting mechanism; 96. a cleaning mechanism; 961. a first mounting member; 962. a second mount; 963. a first mounting diagonal rod; 964. a second mounting diagonal rod; 965. a receiving cavity; 966. cleaning a brush; 967. an elastic element; 968. and a collection box.

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.

In order to solve the problems that when a conveying device on the existing market is used for conveying quick-frozen food, the phenomenon that the food is melted in the conveying process is avoided, the quick-frozen food is cooled during conveying, but the cooling resource is difficult to recycle, and the environmental protection performance is poor, as shown in fig. 1-4, the following preferable technical scheme is provided:

the circulating cooling anti-dissolution conveying device for producing quick-frozen foods comprises a conveying frame 1 and a conveying main body 2 which is connected to the inner wall of the conveying frame 1 in a sliding manner, a storage groove 3 is formed in a conveying belt of the conveying main body 2, a bottom plate of the storage groove 3 is a metal grid, a circulating cooling assembly 4 is arranged in an inner cavity of the conveying main body 2, the circulating cooling assembly 4 comprises an installation frame 41 which is installed in the inner cavity of the conveying main body 2, the inner wall of the installation frame 41 is connected with a cooling frame 42 in a sliding manner, a through hole 43 is formed in the bottom plate of the cooling frame 42, one end of the through hole 43 is connected with a hose 44, one end, far away from the through hole 43, of the hose 44 is connected with a water pump 45, and one end, far away from the hose 44, of the water pump 45 is connected with a cooling box assembly 46;

the cooling tank assembly 46 includes a tank 461, a cooling body 462 is provided at an upper end of the tank 461, a freezing frame 463 is slidably connected to an inner cavity of the cooling body 462, a partition 464 is installed in the inner cavity of the freezing frame 463, an adapter 465 connected to the water pump 45 is provided at a lower end of the cooling body 462, and a flow pipe 466 is communicated with a lower end of the adapter 465.

Specifically, when carrying the work, at first put into the thing groove 3 with quick-frozen food, put into the ice-cube in the cooling frame 42, the temperature of ice-cube can be transmitted to quick-frozen food through the metal mesh, can avoid quick-frozen food can appear the melting phenomenon at the in-process of transportation, can melt into water after the long-time transmission temperature of ice-cube, start water pump 45 this moment, can flow into hose 44 with water through discharge hole 43, get into adapter 465 through hose 44, the rethread flows through the even inflow of siphunculus 466 and freezes frame 463, utilize refrigeration main part 462 to become the ice-cube again, thereby carry out reuse to the ice-cube, realize resource cyclic utilization's purpose, resources are saved, when having solved conveyor on the existing market and carrying out the transportation to quick-frozen food, avoid food can appear the melting phenomenon emergence at the in-process of transportation, can carry out cooling work when quick-frozen food carries, however be difficult to cooling resource reuse, the relatively poor problem of feature of environmental protection.

In order to ensure the working comfort of the staff for a long time, as shown in fig. 5-10, the following preferred technical solutions are provided:

detection terminal 5 is installed to the opening of carriage 1 outer wall, detection terminal 5's outer wall is provided with guard plate 6, absorption magnetic path 7 is installed to the upper end of guard plate 6, guard plate 6 is connected with the opening of carriage 1 outer wall through absorption magnetic path 7, the upper end of absorption magnetic path 7 is provided with assists and tears mechanism 8 open, detection terminal 5 includes infrared induction module 51, infrared induction module 51 electric connection height analysis module 52, height analysis module 52 electric connection height judgment module 53, height judgment module 53 electric connection singlechip 54, singlechip 54 electric connection signal transceiver module 55, signal transceiver module 55 electric connection motor 56.

The lower end of the conveying main body 2 is provided with an adjusting and cleaning assembly 9, the adjusting and cleaning assembly 9 comprises a driving wheel 91 connected with the output end of the motor 56, one side of the driving wheel 91 is provided with a driving wheel 92, the outer walls of the driving wheel 91 and the driving wheel 92 are provided with a transmission belt 93, the driving wheel 91 and the driving wheel 92 are in transmission connection through the transmission belt 93, one end of the driving wheel 91 is provided with a first lifting mechanism 94, one end of the driving wheel 92 is provided with a second lifting mechanism 95, one ends of the first lifting mechanism 94 and the second lifting mechanism 95 are provided with a cleaning mechanism 96, the first lifting mechanism 94 and the second lifting mechanism 95 are identical in composition structure, and the first lifting mechanism 94 and the second lifting mechanism 95 are symmetrically distributed about the center of the conveying main body 2.

First elevating system 94 is including setting up the first screw 941 in action wheel 91 one end, first screw 941 is kept away from action wheel 91 one end fixedly connected with king-rod 942, king-rod 942 is kept away from the one end fixedly connected with second screw 943 of first screw 941, the one end rotation that second screw 943 kept away from first screw 941 is connected with the turning block, the outer wall threaded connection of first screw 941 has first ejector pad 944, the outer wall threaded connection of second screw 943 has second ejector pad 945, the last end hub connection of first ejector pad 944 has first connecting rod 946, the last end hub connection of second ejector pad 945 has second connecting rod 947, the last end hub connection of first connecting rod 946 and second connecting rod 947 has well joint 948, the upper end of well joint 948 is installed and is carried main part 2 fixed connection's installation piece 949, the screw structure of first screw 941 and second screw 943 is opposite, and first screw 941 and second screw 943 distribute about the central symmetry of king-rod 942, first ejector pad 944 and second ejector pad 942 distribute about the central symmetry of second ejector pad 945.

Concretely, before the staff carries out work, at first open guard plate 6, expose detection terminal 5, utilize infrared induction module 51 to respond to the staff, carry out the analysis to staff's height through height analysis module 52, judge staff's height and the height of suitable work through height judgement module 53, utilize singlechip 54 trigger signal transceiver module 55, send signal start motor 56 through signal transceiver module 55, motor 56 output drives action wheel 91 and rotates, it rotates simultaneously to drive wheel 92 through drive belt 93, first screw 941 rotates simultaneously with second screw 943 this moment, make first ejector pad 944 and second ejector pad 945 remove respectively at first screw 941 and second screw 943's outer wall, draw close each other or keep away from, thereby drive first connecting rod 946 and second connecting rod 947 top or drop-down in the piece 948, thereby carry main part 2 through installation piece 949 top or drop-down, thereby adjust the height of carrying main part 2 according to staff's height, adjust the best height, guarantee the long-time work comfort level.

In order to facilitate the opening of the protection plate, as shown in fig. 5 and 11, the following preferred technical solutions are provided:

the auxiliary detaching mechanism 8 comprises a pressing piece 81 movably connected to the outer wall of the conveying main body 2 and a movable cavity 82 formed in the outer wall of the conveying main body 2, the pressing piece 81 is connected to the inner wall of the movable cavity 82 in a sliding mode, an auxiliary detaching block 83 is fixedly connected to one end of the pressing piece 81, return springs 84 are arranged on two sides of the auxiliary detaching block 83, and the auxiliary detaching block 83 is a component made of a superconductor material.

Specifically, when protection plate 6 is opened to needs, at first push down pressing piece 81, utilize the supplementary piece 83 of tearing open of superconductor material to insert absorption magnetic path 7, isolated magnetism through the characteristic of superconductor material, protection plate 6 can fall down under self gravity influence, thereby will survey terminal 5 and expose, reset spring 84 is in the state of tightening under pressing piece 81's extrusion this moment, after protection plate 6 falls down, can loosen pressing piece 81, pressing piece 81 can resume the normal position under reset spring 84's reaction force's thrust.

In order to solve the problems that in the transportation process of the quick-frozen food, due to the temperature difference between the conveying belt and the quick-frozen food, the quick-frozen food and the conveying belt are bonded, residues are bonded on the conveying belt, and the subsequent conveying is affected, as shown in fig. 8 and 12, the following preferable technical scheme is provided:

cleaning mechanism 96 includes first installed part 961 and second installed part 962 that install respectively in main conveyor 2 inner wall both sides, first installed part 961 and second installed part 962 and rotating block fixed connection, the inner wall fixed connection of first installed part 961 has first installation down tube 963, the inner wall fixed connection of second installed part 962 has second installation down tube 964, accomodate the chamber 965 is installed to the one end of first installation down tube 963 and second installation down tube 964, the inner chamber swing joint of accomodating the chamber 965 has cleaning brush 966, the lower extreme fixed connection of cleaning brush 966 has elasticity original piece 967, elasticity original piece 967 sets up in the inner chamber of accomodating the chamber 965, the lower extreme of accomodating the chamber 965 is provided with collecting box 968, cleaning brush 966 overlap joint is put the lower extreme of thing groove 3, collecting box 968 corresponds with the position of cleaning brush 966.

Specifically, in the normal operating condition of the conveying main body 2, the object placing groove 3 can continuously rub with the cleaning brush 966, the adhesion is brushed under the residues of the object placing groove 3, the adhesion falls into the collecting box 968 corresponding to the lower end of the cleaning brush 966, and when the conveying main body 2 moves upwards, the cleaning brush 966 can be always lapped under the action of the elastic original piece 967 in the storage cavity 965 to place the lower end of the object placing groove 3, when the conveying main body 2 moves downwards, the cleaning original piece brush 966 can also be more tightly attached to the object placing groove 3 under the action of the elastic original piece 967, the cleaning efficiency is higher, the problem that the quick-frozen food is transported is solved, the adhesion phenomenon between the quick-frozen food and the conveying belt is caused due to the temperature difference between the conveying belt and the quick-frozen food, the adhesion residues on the conveying belt can be adhered, and the subsequent conveying is influenced.

To further better illustrate the above examples, the present invention also provides an embodiment of a method for using a circulative cooling anti-dissolution conveying device for producing quick-frozen food, comprising the following steps:

the method comprises the following steps: before a worker works, the pressing piece 81 is pressed down, the adsorption magnetic block 7 is inserted by the aid of the auxiliary detaching block 83 made of a superconductor material, magnetism is isolated through the characteristic of the superconductor material, the protection plate 6 falls under the influence of self gravity, and the detection terminal 5 is exposed;

step two: at the moment, the infrared sensing module 51 is used for sensing the working personnel, the height of the working personnel is analyzed through the height analyzing module 52, the height of the working personnel and the height suitable for working are judged through the height judging module 53, the single chip microcomputer 54 is used for triggering the signal transceiving module 55, the signal transceiving module 55 sends a signal to start the motor 56, the output end of the motor 56 drives the driving wheel 91 to rotate, the driving wheel 92 is driven to rotate through the driving belt 93, at the moment, the first screw 941 and the second screw 943 rotate simultaneously, so that the first push block 944 and the second push block 945 respectively move on the outer walls of the first screw 941 and the second screw 943 and approach or keep away from each other, the first connecting rod 946 and the second connecting rod 947 are driven to push up or pull down the middle connecting block 948, the main body 2 is conveyed through the mounting block 949 to push up or pull down, and the height of the main body 2 is adjusted according to the height of the working personnel;

step three: when the conveying work is carried out, firstly, the quick-frozen food is placed into the placing groove 3, ice blocks are placed into the cooling rack 42, the temperature of the ice blocks can be transferred to the quick-frozen food through the metal mesh, the phenomenon that the quick-frozen food is melted in the conveying process can be avoided, the ice blocks can be melted into water after the ice blocks are subjected to long-time transfer temperature, at the moment, the water pump 45 is started, the water can flow into the hose 44 through the through hole 43, enters the adapter 465 through the hose 44, then uniformly flows into the freezing rack 463 through the through pipe 466, and the water is formed into ice blocks again through the refrigerating main body 462, so that the ice blocks are reused, and the purpose of resource recycling is realized;

step four: at the normal operating condition of main part 2 of carrying, put thing groove 3 and constantly rub with clearance brush 966, will adhere under the residue brush of putting thing groove 3, fall into the collecting box 968 of corresponding at the clearance brush 966 lower extreme.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (10)

1. Quick-freeze food production is with circulative cooling prevents conveyor who dissolves, including carriage (1) to and sliding connection is in transport main part (2) of carriage (1) inner wall, its characterized in that: the conveying belt of the conveying main body (2) is provided with a storage groove (3), the inner cavity of the conveying main body (2) is provided with a circulating cooling assembly (4), the circulating cooling assembly (4) comprises a mounting frame (41) mounted in the inner cavity of the conveying main body (2), the inner wall of the mounting frame (41) is connected with a cooling frame (42) in a sliding mode, a through hole (43) is formed in a bottom plate of the cooling frame (42), one end of the through hole (43) is connected with a hose (44), one end, far away from the through hole (43), of the hose (44) is connected with a water pump (45), and one end, far away from the hose (44), of the water pump (45) is connected with a cooling box assembly (46);

the cooling box assembly (46) comprises a box body (461), a refrigeration main body (462) is arranged at the upper end of the box body (461), a freezing frame (463) is connected to the inner cavity of the refrigeration main body (462) in a sliding mode, a partition plate (464) is installed in the inner cavity of the freezing frame (463), an adapter (465) connected with a water pump (45) is arranged at the lower end of the refrigeration main body (462), and a circulating pipe (466) is communicated with the lower end of the adapter (465).

2. The transportation apparatus for producing quick-frozen food as claimed in claim 1, which is capable of cooling circularly to prevent dissolution, characterized in that: detection terminal (5) are installed to the opening of carriage (1) outer wall, and the outer wall of detection terminal (5) is provided with guard plate (6), and absorption magnetic path (7) are installed to the upper end of guard plate (6), and the upper end of absorption magnetic path (7) is provided with assists and tears down mechanism (8).

3. The transfer device for the production of quick-frozen food capable of cooling circularly and preventing dissolution as claimed in claim 2, characterized in that: detection terminal (5) include infrared induction module (51), infrared induction module (51) electric connection height analysis module (52), height analysis module (52) electric connection height judge module (53), height judge module (53) electric connection singlechip (54), singlechip (54) electric connection signal transceiver module (55), signal transceiver module (55) electric connection motor (56).

4. The transportation apparatus for producing quick-frozen food as claimed in claim 3, wherein the transportation apparatus comprises: the lower end of the conveying main body (2) is provided with an adjusting and cleaning assembly (9), the adjusting and cleaning assembly (9) comprises a driving wheel (91) connected with the output end of the motor (56), one side of the driving wheel (91) is provided with a driving wheel (92), the outer walls of the driving wheel (91) and the driving wheel (92) are provided with a transmission belt (93), the driving wheel (91) is in transmission connection with the driving wheel (92) through the transmission belt (93), one end of the driving wheel (91) is provided with a first lifting mechanism (94), one end of the driving wheel (92) is provided with a second lifting mechanism (95), one ends of the first lifting mechanism (94) and the second lifting mechanism (95) are provided with a cleaning mechanism (96), the first lifting mechanism (94) and the second lifting mechanism (95) are identical in composition structure, and the first lifting mechanism (94) and the second lifting mechanism (95) are symmetrically distributed about the center of the conveying main body (2).

5. The transportation apparatus for producing quick-frozen food as claimed in claim 4, wherein the transportation apparatus comprises: first elevating system (94) is including setting up first screw rod (941) in action wheel (91) one end, action wheel (91) one end fixedly connected with king-rod (942) is kept away from to first screw rod (941), one end fixedly connected with second screw rod (943) of first screw rod (941) are kept away from to king-rod (942), the outer wall threaded connection of first screw rod (941) has first ejector pad (944), the outer wall threaded connection of second screw rod (943) has second ejector pad (945), the last end hub connection of first ejector pad (944) has first connecting rod (946), the last end hub connection of second ejector pad (945) has second connecting rod (947), the last end hub connection of first connecting rod (946) and second connecting rod (947) has well connecting block (948), the upper end of well connecting block (948) is installed and is carried main part (2) fixed connection's installation piece (949).

6. The transfer device for the production of quick-frozen food with circulation cooling and dissolution prevention of claim 5, characterized in that: the thread structures of the first screw (941) and the second screw (943) are opposite, the first screw (941) and the second screw (943) are symmetrically distributed about the center of the middle rod (942), and the first push block (944) and the second push block (945) are symmetrically distributed about the center of the middle rod (942).

7. The transportation apparatus for producing quick-frozen food as claimed in claim 2, which is capable of cooling circularly to prevent dissolution, characterized in that: the auxiliary disassembling mechanism (8) comprises a pressing piece (81) movably connected to the outer wall of the conveying main body (2) and a movable cavity (82) formed in the outer wall of the conveying main body (2), the pressing piece (81) is slidably connected to the inner wall of the movable cavity (82), an auxiliary disassembling block (83) is fixedly connected to one end of the pressing piece (81), and reset springs (84) are arranged on two sides of the auxiliary disassembling block (83).

8. The transportation apparatus for producing quick-frozen food as claimed in claim 4, wherein the transportation apparatus comprises: clearance mechanism (96) are including installing first installed part (961) and second installed part (962) in carrying main part (2) inner wall both sides respectively, the first installation down tube (963) of inner wall fixedly connected with of first installed part (961), the inner wall fixedly connected with second installation down tube (964) of second installed part (962), accomodate chamber (965) are installed to the one end of first installation down tube (963) and second installation down tube (964), the inner chamber swing joint who accomodates chamber (965) has clearance brush (966), the lower extreme fixedly connected with elasticity original paper (967) of clearance brush (966).

9. The transfer device for quick-frozen food production capable of cooling circularly and preventing dissolution as claimed in claim 8, characterized in that: elasticity original paper (967) set up in the inner chamber of accomodating chamber (965), and the lower extreme of accomodating chamber (965) is provided with collecting box (968), and cleaning brush (966) overlap joint is putting the lower extreme of thing groove (3), and collecting box (968) correspond with the position of cleaning brush (966).

10. The use method of the circulating cooling anti-dissolution conveying device for producing the quick-frozen food as claimed in any one of claims 1 to 9, is characterized by comprising the following steps:

s1: before a worker works, the pressing piece (81) is pressed down, the adsorption magnetic block (7) is inserted into the auxiliary detaching block (83) made of a superconductor material, the magnetism is isolated through the characteristic of the superconductor material, the protection plate (6) falls under the influence of the gravity of the protection plate, and the detection terminal (5) is exposed;

s2: at the moment, the infrared sensing module (51) is used for sensing the working personnel, the height of the working personnel is analyzed through the height analyzing module (52), the height of the working personnel and the height suitable for working are judged through the height judging module (53), the single chip microcomputer (54) is used for triggering the signal receiving and sending module (55), the signal is sent out through the signal receiving and sending module (55) to start the motor (56), the output end of the motor (56) drives the driving wheel (91) to rotate, the driving wheel (92) is driven to simultaneously rotate through the driving belt (93), the first screw rod (941) and the second screw rod (943) simultaneously rotate at the moment, the first push block (944) and the second push block (945) respectively move on the outer walls of the first screw rod (941) and the second screw rod (943) and approach or are far away from each other, the first connecting rod (946) and the second connecting rod (947) are driven to push up or pull down the middle connecting block (8), the main body (2) is conveyed through the mounting block (949), and the height of the main body (2) is conveyed through the mounting block (949) in a pushing or pulling down mode, so that the height of the main body (2) can be adjusted according to the height of the working personnel;

s3: when the quick-frozen food is conveyed, firstly, the quick-frozen food is placed into the storage tank (3), ice blocks are placed into the cooling rack (42), the temperature of the ice blocks can be transferred to the quick-frozen food through the metal grids, the phenomenon that the quick-frozen food is melted in the transportation process can be avoided, the ice blocks can be melted into water after the ice blocks are subjected to long-time transfer temperature, at the moment, the water pump (45) is started, the water can flow into the hose (44) through the through hole (43), enters the adapter (465) through the hose (44), then uniformly flows into the freezing rack (463) through the through pipe (466), and the water is formed into the ice blocks again through the refrigerating main body (462), so that the ice blocks are reused, and the purpose of recycling of resources is realized;

s3: at the normal operating condition of main part of carrying (2), put thing groove (3) and can constantly rub with cleaning brush (966), will adhere under the residue brush of putting thing groove (3), fall into and correspond in collecting box (968) of cleaning brush (966) lower extreme.

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